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Relevant bibliographies by topics / Michigan State University. College of Human Ecology / Journal articles
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Author: Grafiati
Published: 4 June 2021
Last updated: 3 February 2022
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1
Wagner,DianneP., BrianE.Mavis, and AronC.Sousa. "Michigan State University College of Human Medicine." Academic Medicine 95, no.9S (September 2020): S240—S244. http://dx.doi.org/10.1097/acm.0000000000003329.
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RICHMOND,YASMINM., and RUTHB.HOPPE. "Michigan State University College of Human Medicine." Academic Medicine 75, Supplement (September 2000): S164—S166. http://dx.doi.org/10.1097/00001888-200009001-00048.
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Sousa, Aron, Dianne Wagner, and Marsha Rappley. "Michigan State University College of Human Medicine." Academic Medicine 85 (September 2010): S287—S291. http://dx.doi.org/10.1097/acm.0b013e3181e914c6.
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Mavis, Brian, Aron Sousa, Janet Osuch, Cindy Arvidson, Wanda Lipscomb, Judy Brady, Wrenetta Green, and MarshaD.Rappley. "The College of Human Medicine at Michigan State University." Academic Medicine 87, no.12 (December 2012): 1705–9. http://dx.doi.org/10.1097/acm.0b013e318271f8c6.
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Andre, Judith, Howard Brody, Leonard Fleck, ClaytonL.Thomason, and Tom Tomlinson. "Ethics, Professionalism, and Humanities at Michigan State University College of Human Medicine." Academic Medicine 78, no.10 (October 2003): 968–72. http://dx.doi.org/10.1097/00001888-200310000-00005.
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Sienko,DeanG., and Kathleen Oberst. "Factors Associated With Medical School Entrants' Interest in Military Financial Assistance in Exchange for a Service Obligation: The Michigan State University College of Human Medicine Cohort." Military Medicine 182, no.7 (July 2017): e1823-e1827. http://dx.doi.org/10.7205/milmed-d-16-00374.
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Stranahan, Lauren, KristineM.Alpi, Ronald Kent Passingham, ToddJ.Kosmerick, and GregoryA.Lewbart. "Descriptive Epidemiology for Turtles Admitted to the North Carolina State University College of Veterinary Medicine Turtle Rescue Team." Journal of Fish and Wildlife Management 7, no.2 (June1, 2016): 520–25. http://dx.doi.org/10.3996/072015-jfwm-056.
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Abstract The North Carolina State University College of Veterinary Medicine Turtle Rescue Team has been treating and releasing wild turtles since 1996 and has compiled a collection of almost 4,000 medical records, now available for consultation by researchers via the North Carolina State University Libraries Special Collections Research Center. Data available for each case include county where turtle was discovered, patient identification number, admission date, species, sex and reproductive status, physical examination findings, clinical diagnosis, last case-entry date, length of stay, and final disposition. Additional data in the records include a day-by-day description of treatment and husbandry performed for each turtle. This report summarizes 2,613 turtle cases examined between 1996 and 2012 by the Turtle Rescue Team, including 12 native species of turtle from 63 North Carolina counties. The sex distribution of those of known sex were evenly distributed. The most common presenting condition was vehicular trauma while garden equipment and fish-equipment–related trauma, pet surrender, and other human-induced injury represented an additional 154 cases. Animal attacks and trauma due to unknown causes were also represented. Other conditions diagnosed on presentation included infection, aural abscessation, nutritional disorder, neurologic disorder, buoyancy disorder, prolapse, and other. A small number of turtles were not diagnosed or were healthy. Ultimate disposition data were available for 2,318 turtles, of which 1,227 were released to the wild. The epidemiological data presented here are similar to information collected in Illinois, Tennessee, and Virginia. Medical records from wildlife hospitals and primary care facilities represent an important opportunity to gain valuable insight into the epidemiology of human interaction with native wildlife species.
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Wendling,AndreaL., Andrew Short, Fredrick Hetzel, JulieP.Phillips, and William Short. "Trends in Subspecialization: A Comparative Analysis of Rural and Urban Clinical Education." Family Medicine 52, no.5 (May5, 2020): 332–38. http://dx.doi.org/10.22454/fammed.2020.182557.
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Background and Objectives: Medical students who train in rural communities are often exposed to physicians practicing a broad scope of care, regardless of discipline. We examined how rural education is associated with practice specialization rates for students who match in primary care or general core specialties. Methods: We linked practice and specialty data (2016 AMA Masterfile dataset), demographics (American Medical College Application Service data), and internal college data for 1974-2011 Michigan State University College of Human Medicine graduates who received clinical education on either the Upper Peninsula (rural) or Grand Rapids (urban) campuses. Current practice was verified using internet searches. We compared specialty and practice data by rural or urban campus, controlling for multiple variables. Results: More rurally-trained graduates entered primary care (PC) residencies (128/208, 61.5%) than urban-trained graduates (457/891, 51.3%; P<.01), with rurally-trained graduates being twice as likely to enter family medicine (FM) residencies. Most FM residents remained PC physicians (205/219, 93.6%). Internal medicine residents were least likely to remain in primary care (91/189, 48.1%). Of the general core disciplines, general surgeons were least likely to remain in general surgical practice (45/134, 33.6%). Within each PC or general core discipline, the proportion of graduates who specialized did not differ by type of campus. Conclusions: Rurally-trained graduates are more likely to practice primary care, chiefly due to increased likelihood of choosing a FM residency. Graduates entering PC or general core residencies subspecialize at similar rates regardless of rural or urban education. FM residency match rate may be the best predictor of long-lasting impact on the primary care workforce.
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Schwartz,LeniseB. "Addition of Branched-Chain Amino Acids to Parenteral Nutrition of Stressed Critically Ill Patients PHIL VANDER WOUDE, ROGER E. MORGAN, JOHN M. KOSTA, ALAN T. DAVIS, DONALD J. SCHOLTEN, AND RICHARD E. DEAN Departments of Surgery, Michigan State University, College of Human Medicine, and Butterworth Hospital, Grand Rapids, Michigan Crit Care Med 14: 685-688, 1986." Nutrition in Clinical Practice 2, no.1 (February 1987): 33–34. http://dx.doi.org/10.1177/088453368700200112.
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Stern, Madeline, Leanna Perez, Jeanette Johnstone, Barbara Gracious, Brenda Leung, Gabriella Tost, Eugene Arnold, Irene Hatsu, and Rachel Kopec. "Using Metabolomics to Classify the Underlying Effects of Multi-Nutrient Supplementation in ADHD Youth." Current Developments in Nutrition 4, Supplement_2 (May29, 2020): 1351. http://dx.doi.org/10.1093/cdn/nzaa059_068.
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Abstract Objectives Attention-deficit/hyperactivity disorder (ADHD) is a neuropsychiatric disorder commonly diagnosed in childhood. Current pharmaceutical treatment options provide a poor long-term risk: benefit ratio with little knowledge of the long-term effects. A broad-spectrum multi-nutrient formula has shown promise in children, but its effects on nutrient status and the underlying metabolome interactions have not been characterized. Methods Blood samples from medication-free children (n = 74) with ADHD enrolled in a double–blind randomized placebo-controlled multinutrient trial (RCT) were collected at baseline and 8 weeks post-intervention. Following RCT is an 8-week open label phase during which all participants took the active supplement. Symptoms were assessed using the Child and Adolescent Symptom Inventory 5. Double-blinded plasma samples will be analyzed for tyrosine, phenylalanine, tryptophan, magnesium, and zinc. Untargeted LC-MS metabolomics using HILIC chromatography and a high resolution QTof will assess very polar analytes in plasma extracts. Linear modeling will elucidate the influence of treatment, sampling time, and ADHD symptom score on plasma nutrient and plasma metabolite concentration. Results Preliminary findings of the open label phase show a significant improvement in inattention (P = 0.0435), hyperactivity (P = 0.0068), ODD (P = 0.0108) and DMDD (P = 0.0119). We hypothesize that these improvements in ADHD symptoms will be correlated with increased circulating concentrations of tyrosine, phenylalanine, tryptophan, magnesium, zinc, and metabolites involved in neurotransmitter synthesis and/or branched chain amino acid metabolism. Conclusions Preliminary findings indicate improvements of ADHD symptoms of inattention, hyperactivity, ODD and DMDD following 8 weeks of open label multi-nutrient supplementation. Results of the double-blinded phase are expected to mirror those observed in the open label phase, with increases in nutrients in those receiving the multinutrient. Funding Sources The sample analyses were supported by NIH Award Number Grant P30 CA016058, OSU, and OSUCCC. Foundation for the Center of Excellence in Mental Health, Canada; The Ohio State University Department of Human Sciences, College of Education and Human Ecology; The Ohio State University Wexner Medical Center, Clinical Research Center.
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Confino, Edmond, RichardH.Demir, Jan Friberg, and Norbert Gleicher. "Does cyclic human chorionic gonadotropin secretion indicate embryo loss in in vitro fertilization?*†‡*The International Collaborators for this study were Benjamin G. Brackett, M.D., Ph.D., The University of Georgia College of Veterinary Medicine, Atlanta, Georgia, USA, Jairo Garcia, M.D., Suheil Muasher, M.D., Anibal A. Acosta, M.D., Mason C. Andrews, M.D., Gary Hodgen, Ph.D., Zev Rosenwaks, M.D., Georgeanna Seegar Jones, M.D., Howard W. Jones, Jr., M.D., Eastern Virginia Medical School, Norfolk, Virginia, USA, Robert H. Glass, M.D., Mary C. Martin, M.D., Pramila Dandekar, M.SC., University of California, San Francisco, California, USA, Vesselko Grizelj, M.D., Ph.D., University Medical School of Zagreb, Zagreb, Yugoslavia, George Henry, M.D., Jon Van Blerkom, M.D., Barbara J. Corn, R.N., Reproductive Genetics, In Vitro, P.C., Denver, Colorado, USA, Aarne Koskimies, M.D., Markku Seppala, M.D., Helsinki University Central Hospital, Helsinki, Finland, David Magyar, M.D., Robert J. Sokol, M.D., Patricia A. Rogus, R.N., Hutzel Hospital, Wayne State University, Detroit, Michigan, USA, H.W. Michelmann, M.D., L. Mettler, M.D., Universitats Frauenklinik, Kiel, German Federal Republic, Jean Parinaud, Ph.D., Georges Pontonnier, M.D., Institut National de la Sante et de la Recherche Medicale, Toulouse, France, E. van Roosendaal, M.D., R. Schoysman, M.D., Academisch Zeikenhuis Vrije Universiteit, Brussels, Belgium, Melvin Taymor, M.D., Beth Israel Hospital and Harvard Medical School, Boston, Massachusetts, USA, Raimund Winter, M.D., Geburtshilfliche Gynakologische Universitatsklinik Graz, Austria, Richard J. Worley, M.D., William R. Keye, Jr., M.D., University of Utah Medical Center, Salt Lake City, Utah, USA, John L. Yovich, M.D., University of Western Australia, Subiaco, Perth, Western Australia, Australia.†Supported by the Foundation for Reproductive Medicine, Inc., Chicago, Illinois.‡Presented in part in Future Aspects in Human In Vitro Fertilization Congress, Vienna, Austria, April 2 to 4, 1986, and the Forty-Second Annual Meeting of The American Fertility Society and the Eighteenth Annual Meeting of The Canadian Fertility and Andrology Society, Toronto, Canada, September 27 to October 2, 1986." Fertility and Sterility 46, no.5 (November 1986): 897–902. http://dx.doi.org/10.1016/s0015-0282(16)49831-6.
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Lovell, Kathryn. "MSU MEDICAL COLLEGES BLENDED LEARNING FOR FIRST YEAR SCIENCE COURSES: UNITING PEDAGOGY TO MAXIMIZE EXPERIENCE AND REAL WORLD LIMITATIONS." Online Learning 13, no.1 (February8, 2019). http://dx.doi.org/10.24059/olj.v13i1.1677.
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At Michigan State University the two medical schools, College of Human Medicine (CHM; M.D. degree) and College of Osteopathic Medicine (COM; D.O. degree), have offered the same science courses to first year students for many years. Science departments report to both colleges, and the same faculty can effectively teach the content required in the first year of medical school. The faculty have created online resources to maximize student choice and learning approaches. For example, classroom lectures (audio and screen video) are recorded; online homework may contribute to the course grade; virtual microscope software and material for histology laboratory is available online in addition to computer-based laboratory sessions with instructors present; and many practice exams are available online. MSU is expanding to three new campuses during the 2008–2010 period. CHM will open a sister campus in Grand Rapids, while COM will open two branch campuses in southeast Michigan.The goal is to make the learning experiences equivalent for all students at all campuses. Faculty, staff and administrators have met on a regular basis to discuss working toward a NSF CyberInfrastructure model where all basic science learning experiences (with the exception of gross anatomy lab) are available online. These online resources will be coupled with face to face learning as well. Currently, efforts to make course materials available online in the most effective manner are underway. Discussion about how to provide online communication channels is also progressing. Numerous debates have occurred on how best to facilitate student learning in multiple locations using new technology tools, recognizing the goal for students is not only to pass medical board exams but also to acquire life-long learning skills in an ever changing medical and science environment. The authors will share not only processes used, but also perspectives on best approaches and strategies to determine what students find effective.
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Stern, Madeline, Leanna Perez, Jeanette Johnstone, Barbara Gracious, Brenda Leung, Eugene Arnold, Gabriella Tost, and Irene Hatsu. "Multinutrients for ADHD Youth (MADDY) Trial: Preliminary Trends for Treatment (P16-028-19)." Current Developments in Nutrition 3, Supplement_1 (June1, 2019). http://dx.doi.org/10.1093/cdn/nzz050.p16-028-19.
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Abstract Objectives Attention-deficit/hyperactivity disorder (ADHD) is a neuropsychiatric disorder with increasing global prevalence and high heritability commonly diagnosed in childhood. Current pharmaceutical treatment options provide a poor long-term risk: benefit ratio. Nutrition has significant effects on neurological functioning, and increasing evidence exists to support the use of multinutrients as alternative treatment for ADHD. The goal of this study is to assess the efficacy and tolerability of a multinutrient supplement as an alternative treatment for ADHD and co-occurring mood dysregulation symptoms. Methods The Multinutrients in ADHD Youth study is a fully-funded, multi-site, randomized double-blinded clinical trial for adolescents ages 6–12 years (n = 135). The study is 16 weeks in total, with an 8-week randomized controlled trial (RCT) followed by an 8-week open label (OL) phase. During the RCT phase, participants are assigned to either the treatment or placebo group at a 3:2 ratio. Study outcomes of ADHD symptoms include child's inattention, hyperactivity and mood dysregulation, which are assessed using validated questionnaires. Outcome data for the OL phase of the study were analyzed using end of RCT phase as baseline given that the RCT component of the study is still blinded. Results Preliminary findings based on the OL phase compared ADHD symptoms following 8 weeks of open label supplementation (n = 27 families). A significant decrease in symptom count was found for inattention (P ≤ 0.001), hyperactivity (P ≤ 0.001), ODD (P ≤ 0.001) and DMDD (P ≤ 0.001). Conclusions This study is the first adequately powered RCT in North America to investigate the effects of multinutrients supplements on ADHD symptoms among children. Preliminary findings indicate a trend in the improvements of ADHD symptoms of inattention, hyperactivity, ODD and DMDD in the OL phase of the study. Funding Sources Foundation for the Center of Excellence in Mental Health, Canada; The Ohio State University Department of Human Sciences, College of Education and Human Ecology; The Ohio State University Wexner Medical Center, Clinical Research Center.
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Vi, Nguyen Huy. "Private Higher Education Model- World Practices and Lessons for Vietnam." VNU Journal of Science: Education Research 34, no.3 (July18, 2018). http://dx.doi.org/10.25073/2588-1159/vnuer.4147.
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The private higher education system has been facing many challenges in the history of its development, which was harshly handled by the different points of view of political regimes. The system in the general higher education system in all over the world has slowly and weakly improved. Until the 80s of the 20th century, the system revived and obviously developed thanks to the increasing educating demand although many countries were facing financial difficulties to support it. In Vietnam, the private higher education system appeared by 1975 in the south, but this model and the its regulations had been forgotten until the beginning of the 90s of 20th century. This research is evaluating the present higher education system in different aspects that are the international definition of private higher education, brief history and the development of the system in Republic of France as an example, privatization forms and finance for the system, and suggestions to define policies for the system in Vietnam. Keywords Model, Private Higher Education, Privatization References [1] Altbach, Philip et T. Umakoshi (éd.) (2004), Asian Universities – Historical Perspectives and Contemporary Challenge s; John Hopkins Press. [2] Ball, J.S et Youdell,D. (2007), Higher privatisation in public education, Education International 5th World Congress July 2007. [3] Banque Mondiale (2009), Statistiques de la Banque Mondiale, consulté le 15 juillet 2009, http:// go.worldbank.org/RQBDCTUXW0. [4] Blöndal S., S. Field et N. Girouard (2002), Investment In Human Capital Through Post-Compulsory Education and Training: Selected Efficiency And Equity Aspects, Département des affaires économiques de l’OCDE, document de travail No 333. [5] Cave, M., M. Kogan et R. Smith (1990), Output and Performance Measurement in Government. The State of the Art (Jessica Kinsgley, Londres). [6] Geiger, R. (1986), Private Sectors in Higher Education, Ann Arbor, The University of Michigan Press. [7] OECD (2011), L’enseignement supérieur à l’horizon 2030- Volume 2: Mondalisation, La recherché et l’innovation dans l’enseignement, Éditon OCDE. [8] Hofstadter, R. (1996), Academic Freedom in the Age of College, Transaction Publishers, New Brunswick. [9] L. Benedetto (2008), Options et tandances dans le financement des uni versités en Europe, Critique internationale, 2008/2 (n039)- CAIRN.INFO. [10] Levy, D.C. (1986), Higher Education and the State in Latin America: Private Challenges to Public Dominance, University of Chicago Press, Chicago. [11] Levy, D.C. (2002), « Unanticipated Development: Perspectives on Private Higher Education’s Emerging Roles », PROPHE (Program for Research on Private Higher Education) Working Paper #1. [12] Levy, D.C. (1986), Higher Education and the State in Latin America: Private Challenges to Public Dominance, University of Chicago Press, Chicago. [13] Levy, D.C. (2006), « An Introductory Global Overview : The Private Fit to Salient Higher Education Tendencies », PROPHE Working Paper #7. [14] Middleton, Roger (1997), Government Versus the Market: The Growth of the Public Sector, Economic Management and British Economic Performance, Edward Elgar, Aldershot. [15] Neave, G. (2000), « Universities’ Responsibilities to Society: An Historical Exploration of an Enduring Issue », in Neave (éd.), The Universities’ Responsibilities to Society – International Perspectives, Pergamon/Elsevier, Londres, pp. 1-28. [16] Neave, G. (2000), « Universities’ Responsibilities to Society: An Historical Exploration of an Enduring Issue », in Neave (éd.), The Universities’ Responsibilities to Society – International Perspectives, Pergamon/Elsevier, Londres, pp. 1-28. [17] Neave, G. (2001), « The European Dimension in Higher Education: An Excursion into the Modern Use of Historical Analogues », in J. Huisman, P. Maassen et G. Neave (éd.) Higher Education and the Nation State; Oxford: Pergamon, pp. 13-73. [18] Neave, G. (2001), « The European Dimension in Higher Education: An Excursion into the Modern Use of Historical Analogues », in J. Huisman, P. Maassen et G. Neave (éd.) Higher Education and the Nation State; Oxford: Pergamon, pp. 13-73. [19] R. Fazal (2016), Privatisation de l’éducation: tendances et conséquences, UNESCO/Paris, octobre2016. [20] ROUSSEL Isabelle (2015), L’enseignement supérieur privé: propositions pour un nouveau mode de relations avec l’État, Rapport N05 2015-047, Juin 2015 - Ministère de l’Éducation nationale, de l’Enseignement supérieur et de la Recherche. [21] Savas (2000), Privatisation and Public – Private Partnerships, academia.edu [22] Shils, E. et Roberts, J. (2004), « The Diffusion of European Models Outside Europe », in W. Rüegg (éd.), A History of the University in Europe, Vol. III, Cambridge University Press, Cambridge. [23] Thelin, J.R. (2004), A History of American Higher Education, Baltimore, John Hopkins University Press. [24] Teixeira, P., D. Dill, B. Jongbloed et A. Amaral (éd.) (2004), The Rising Strength of Markets in Higher Education, Kluwer, Dordrecht. [25] Teichler, U. (1988), Changing Patterns of the Higher Education System: The Experience of Three Decades, Jessica Kingsley Publishers, Londres. [26] Tilak, J.B.G.(2009), Higher education: a public good or a commodity for trade?, Springer International Publishing AG. Part of Springer Nature. [27] Van Vught, F. (éd) (1989), Governmental Strategies and Innovations in Higher Education, Jessica Kingsley, Londres. [28] UNESCO/OCDE (2006), Education Trends in Perspective – Analysis of the World Education Indicators, Institut de Statistique de l’UNESCO, OCDE, World Education Indicators Programme. [29] Wells, P.J., J. Sadlak et L. Vlăsceanu (éd) (2007), The Rising Role and Relevance of Private Higher Education in Europe; UNESCO – CEPES, Bucarest. [30] Wittrock, B. et W. Peter (1996), « Social Science and the Building of the Early Welfare State: Toward a Comparison of Statist and Non-Statist Western Societies », in Dietrich Rueschemeyer et Theda Skocpol (éd.) States, Social Knowledge and the Origins of Modern Social Policies, Princeton University Press, Princeton, New Jersey. [32] Wittrock, B. (1993), « The Modern University: the Three Transformations », in Rothblatt and Wittrock (éd.), The European and American University since 1800 – Historical and Sociological Essays, Cambridge University Press, Cambridge, pp. 303-62.
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Goggin, Gerard. "Innovation and Disability." M/C Journal 11, no.3 (July2, 2008). http://dx.doi.org/10.5204/mcj.56.
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Critique of Ability In July 2008, we could be on the eve of an enormously important shift in disability in Australia. One sign of change is the entry into force on 3 May 2008 of the United Nations convention on the Rights of Persons with Disabilities, which will now be adopted by the Rudd Labor government. Through this, and other proposed measures, the Rudd government has indicated its desire for a seachange in the area of disability. Bill Shorten MP, the new Parliamentary Secretary for Disabilities and Children’s Services has been at pains to underline his commitment to a rights-based approach to disability. In this inaugural speech to Parliament, Senator Shorten declared: I believe the challenge for government is not to fit people with disabilities around programs but for programs to fit the lives, needs and ambitions of people with disabilities. The challenge for all of us is to abolish once and for all the second-class status that too often accompanies Australians living with disabilities. (Shorten, “Address in reply”; see also Shorten, ”Speaking up”) Yet if we listen to the voices of people with disability, we face fundamental issues of justice, democracy, equality and how we understand the deepest aspects of ourselves and our community. This is a situation that remains dire and palpably unjust, as many people with disabilities have attested. Elsewhere I have argued (Goggin and Newell) that disability constitutes a systemic form of exclusion and othering tantamount to a “social apartheid” . While there have been improvements and small gains since then, the system that reigns in Australia is still fundamentally oppressive. Nonetheless, I would suggest that through the rise of the many stranded movements of disability, the demographic, economic and social changes concerning impairment, we are seeing significant changes in how we understand impairment and ability (Barnes, Oliver and Barton; Goggin and Newell, Disability in Australia; Snyder, Brueggemann, and Garland-Thomson; Shakespeare; Stiker). There is now considerable, if still incomplete, recognition of disability as a category that is constituted through social, cultural, and political logics, as well as through complex facets of impairment, bodies (Corker and Shakespeare), experiences, discourses (Fulcher), and modes of materiality and subjectivity (Butler), identity and government (Tremain). Also there is growing awareness of the imbrication of disability and other categories such as sex and gender (Fine and Asch; Thomas), race, age, culture, class and distribution of wealth (Carrier; Cole; Davis, Bending over Backwards, and Enforcing Normalcy; Oliver; Rosenblum and Travis), ecology and war (Bourke; Gerber; Muir). There are rich and wide-ranging debates that offer fundamental challenges to the suffocating grip of the dominant biomedical model of disability (that conceives disability as individual deficit — for early critiques see: Borsay; Walker), as well as the still influential and important (if at times limiting) social model of disability (Oliver; Barnes and Mercer; Shakespeare). All in all,there have been many efforts to transform the social and political relations of disability. If disability has been subject to considerable examination, there has not yet been an extended, concomitant critique of ability. Nor have we witnessed a thoroughgoing recognition of unmarked, yet powerful operations of ability in our lives and thought, and the potential implications of challenging these. Certainly there have been important attempts to reframe the relationship between “ability” and “disability” (for example, see Jones and Mark). And we are all familiar with the mocking response to some neologisms that seek to capture this, such as the awkward yet pointed “differently-abled.” Despite such efforts we lack still a profound critique of ability, an exploration of “able”, the topic that this special issue invites us to consider. If we think of the impact and significance of “whiteness”, as a way to open up space for how to critically think about and change concepts of race; or of “masculinity” as a project for thinking about gender and sexuality — we can see that this interrogation of the unmarked category of “able” and “ability” is much needed (for one such attempt, see White). In this paper I would like to make a small contribution to such a critique of ability, by considering what the concept of innovation and its contemporary rhetorics have to offer for reframing disability. Innovation is an important discourse in contemporary life. It offers interesting possibilities for rethinking ability — and indeed disability. And it is this relatively unexplored prospect that this paper seeks to explore. Beyond Access, Equity & Diversity In this scene of disability, there is attention being given to making long over-due reforms. Yet the framing of many of these reforms, such as the strengthening of national and international legal frameworks, for instance, also carry with them considerable problems. Disability is too often still seen as something in need of remediation, or special treatment. Access, equity, and anti-discrimination frameworks offer important resources for challenging this “special” treatment, so too do the diversity approaches which have supplemented or supplanted them (Goggin and Newell, “Diversity as if Disability Mattered”). In what new ways can we approach disability and policies relevant to it? In a surprisingly wide range of areas, innovation has featured as a new, cross-sectoral approach. Innovation has been a long-standing topic in science, technology and economics. However, its emergence as master-theme comes from its ability to straddle and yoke together previously diverse fields. Current discussions of innovation bring together and extend work on the information society, the knowledge economy, and the relationships between science and technology. We are now familiar for instance with arguments about how digital networked information and communications technologies and their consumption are creating new forms of innovation (Benkler; McPherson; Passiante, Elia, and Massari). Innovation discourse has extended to many other unfamiliar realms too, notably the area of social and community development, where a new concept of social innovation is now proposed (Mulgan), often aligned with new ideas of social entrepreneurship that go beyond earlier accounts of corporate social responsibility. We can see the importance of innovation in the ‘creative industries’ discourses and initiatives which have emerged since the 1990s. Here previously distinct endeavours of arts and culture have become reframed in a way that puts their central achievement of creativity to the fore, and recognises its importance across all sorts of service and manufacturing industries, in particular. More recently, theorists of creative industries, such as Cunningham, have begun to talk about “social network markets,” as a way to understand the new hybrid of creativity, innovation, digital technology, and new economic logics now being constituted (Cunningham and Potts). Innovation is being regarded as a cardinal priority for societies and their governments. Accordingly, the Australian government has commissioned a Review of The National Innovation System, led by Dr Terry Cutler, due to report in the second half of 2008. The Cutler review is especially focussed upon gaps and weaknesses in the Australian innovation system. Disability has the potential to figure very strongly in this innovation talk, however there has been little discussion of disability in the innovation discourse to date. The significance of disability in relation to innovation was touched upon some years ago, in a report on Disablism from the UK Demos Foundation (Miller, Parker and Gillinson). In a chapter entitled “The engine of difference: disability, innovation and creativity,” the authors discuss the area of inclusive design, and make the argument for the “involvement of disabled people to create a stronger model of user design”:Disabled people represented a market of 8.6 million customers at the last count and their experiences aren’t yet feeding through into processes of innovation. But the role of disabled people as innovators can and should be more active; we should include disabled people in the design process because they are good at it. (57) There are two reasons given for this expertise of disabled people in design. Firstly, “disabled people are often outstanding problem solvers because they have to be … life for disabled people at the moment is a series of challenges to be overcome” (57). Secondly, “innovative ideas are more likely to come from those who have a new or different angle on old problems” (57). The paradox in this argument is that as life becomes more equitable for people with disabilities, then these ‘advantages’ should disappear” (58). Accordingly, Miller et al. make a qualified argument, namely that “greater participation of disabled people in innovation in the short term may just be the necessary trigger for creating an altogether different, and better, system of innovation for everyone in the future” (58). The Demos Disablism report was written at a time when rhetorics of innovation were just beginning to become more generalized and mainstream. This was also at a time in the UK, when there was hope that new critical approaches to disability would see it become embraced as a part of the diverse society that Blair’s New Labor Britain had been indicating. The argument Disablism offers about disability and innovation is in some ways a more formalized version of vernacular theory (McLaughlin, 1996). In the disability movement we often hear, with good reason, that people with disability, by dint of their experience and knowledge are well positioned to develop and offer particular kinds of expertise. However, Miller et al. also gesture towards a more generalized account of disability and innovation, one that would intersect with the emerging frameworks around innovation. It is this possibility that I wish to take up and briefly explore here. I want to consider the prospects for a fully-fledged encounter between disability and innovation. I would like to have a better sense of whether this is worth pursuing, and what it would add to our understanding of both disability and innovation? Would the disability perspective be integrated as a long-term part of our systems of innovation rather than, as Miller et al. imply, deployed temporarily to develop better innovation systems? What pitfalls might be bound up with, or indeed be the conditions of, such a union between disability and innovation? The All-Too-Able User A leading area where disability figures profoundly in innovation is in the field of technology — especially digital technology. There is now a considerable literature and body of practice on disability and digital technology (Annable, Goggin, and Stienstra; Goggin and Newell, Digital Disability; National Council on Disability), however for my purposes here I would like to focus upon the user, the abilities ascribed to various kinds of users, and the user with disability in particular. Digital technologies are replete with challenges and opportunities; they are multi-layered, multi-media, and global in their manifestation and function. In Australia, Britain, Canada, the US, and Europe, there have been some significant digital technology initiatives which have resulted in improved accessibility for many users and populations (Annable, Goggin, and Stienstra; National Council on Disability) . There are a range of examples of ways in which users with disability are intervening and making a difference in design. There is also a substantial body of literature that clarifies why we need to include the perspective of the disabled if we are to be truly innovative in our design practices (Annable, Goggin and Stienstra; Goggin and Newell, “Disability, Identity and Interdependence”). I want to propose, however, that there is merit in going beyond recognition of the role of people with disability in technology design (vital and overlooked as it remains), to consider how disability can enrich contemporary discourses on innovation. There is a very desirable cross-over to be promoted between the emphasis on the user-as-expert in the sphere of disability and technology, and on the integral role of disability groups in the design process, on the one hand, and the rise of the user in digital culture generally, on the other. Surprisingly, such connections are nowhere near as widespread and systematic as they should be. It may be that contemporary debates about the user, and about the user as co-creator, or producer, of technology (Haddon et al.; von Hippel) actually reinstate particular notions of ability, and the able user, understood with reference to notions of disability. The current emphasis on the productive user, based as it is on changing understandings of ability and disability, provides rich material for critical revision of the field and those assumptions surrounding ability. It opens up possibilities for engaging more fully with disability and incorporating disability into the new forms and relations of digital technology that celebrate the user (Goggin and Newell, Digital Disability). While a more detailed consideration of these possibilities require more time than this essay allows, let us consider for a moment the idea of a genuine encounter between the activated user springing from the disability movement, and the much feted user in contemporary digital culture and theories of innovation. People with disability are using these technologies in innovative ways, so have much to contribute to wider discussions of digital technology (Annable, Goggin and Stienstra). The Innovation Turn Innovation policy, the argument goes, is important because it stands to increase productivity, which in turn leads to greater international competitiveness and economic benefit. Especially with the emergence of capitalism (Gleeson), productivity has strong links to particular notions of which types of production and produce are valued. Productivity is also strongly conditioned by how we understand ability and, last in a long chain of strong associations, how we as a society understand and value those kinds of people and bodies believed to contain and exercise the ordained and rewarded types of ability, produce, and productivity. Disability is often seen as antithetical to productivity (a revealing text on the contradictions of disability and productivity is the 2004 Productivity Commission Review of the Disability Discrimination Act). When we think about the history of disability, we quickly realize that productivity, and by extension, innovation, are strongly ideological. Ideological, that is, in the sense that these fields of human endeavour and our understanding of them are shaped by power relations, and are built upon implicit ‘ableist’ assumptions about productivity. In this case, the power relations of disability go right to the heart of the matter, highlighting who and what are perceived to be of value, contributing economically and in other ways to society, and who and what are considered as liabilities, as less valued and uneconomical. A stark recent example of this is the Howard government workplace and welfare reforms, which further disenfranchised, controlled, and impoverished people with disability. If we need to rethink our ideas of productivity and ability in the light of new notions of disability, then so too do we need to rethink our ideas about innovation and disability. Here the new discourses of innovation may actually be useful, but also contain limited formulations and assumptions about ability and disability that need to be challenged. The existing problems of a fresh approach to disability and innovation can be clearly observed in the touchstones of national science and technology “success.” Beyond One-Sided Innovation Disability does actually feature quite prominently in the annals of innovation. Take, for instance, the celebrated case of the so-called “bionic ear” (or cochlear implant) hailed as one of Australia’s great scientific inventions of the past few decades. This is something we can find on display in the Powerhouse Museum of Technology and Design, in Sydney. Yet the politics of the cochlear implant are highly controversial, not least as it is seen by many (for instance, large parts of the Deaf community) as not involving people with disabilities, nor being informed by their desires (Campbell, also see “Social and Ethical Aspects of Cochlear Implants”). A key problem with the cochlear implant and many other technologies is that they are premised on the abolition or overcoming of disability — rather than being shaped as technology that acknowledges and is informed by disabled users in their diverse guises. The failure to learn the lessons of the cochlear implant for disability and innovation can be seen in the fact that we are being urged now to band together to support the design of a “bionic eye” by the year 2020, as a mark of distinction of achieving a great nation (2020 Summit Initial Report). Again, there is no doubting the innovation and achievement in these artefacts and their technological systems. But their development has been marked by a distinct lack of consultation and engagement with people with disabilities; or rather the involvement has been limited to a framework that positions them as passive users of technology, rather than as “producer/users”. Further, what notions of disability and ability are inscribed in these technological systems, and what do they represent and symbolize in the wider political and social field? Unfortunately, such technologies have the effect of reproducing an ableist framework, “enforcing normalcy” (Davis), rather than building in, creating and contributing to new modes of living, which embrace difference and diversity. I would argue that this represents a one-sided logic of innovation. A two-sided logic of innovation, indeed what we might call a double helix (at least) of innovation would be the sustained, genuine interaction between different users, different notions of ability, disability and impairment, and the processes of design. If such a two-sided (or indeed many-sided logic) is to emerge there is good reason to think it could more easily do so in the field of digital cultures and technologies, than say, biotechnology. The reason for this is the emphasis in digital communication technologies on decentralized, participatory, user-determined governance and design, coming from many sources. Certainly this productive, democratic, participatory conception of the user is prevalent in Internet cultures. Innovation here is being reshaped to harness the contribution and knowledge of users, and could easily be extended to embrace pioneering efforts in disability. Innovating with Disability In this paper I have tried to indicate why it is productive for discourses of innovation to consider disability; the relationship between disability and innovation is rich and complex, deserving careful elaboration and interrogation. In suggesting this, I am aware that there are also fundamental problems that innovation raises in its new policy forms. There are the issues of what is at stake when the state is redefining its traditional obligations towards citizens through innovation frameworks and discourses. And there is the troubling question of whether particular forms of activity are normatively judged to be innovative — whereas other less valued forms are not seen as innovative. By way of conclusion, however, I would note that there are now quite basic, and increasingly accepted ways, to embed innovation in design frameworks, and while they certainly have been adopted in the disability and technology area, there is much greater scope for this. However, a few things do need to change before this potential for disability to enrich innovation is adequately realized. Firstly, we need further research and theorization to clarify the contribution of disability to innovation, work that should be undertaken and directed by people with disability themselves. Secondly, there is a lack of resources for supporting disability and technology organisations, and the development of training and expertise in this area (especially to provide viable career paths for experts with disability to enter the field and sustain their work). If this is addressed, the economic benefits stand to be considerable, not to mention the implications for innovation and productivity. Thirdly, we need to think about how we can intensify existing systems of participatory design, or, better still, introduce new user-driven approaches into strategically important places in the design processes of ICTs (and indeed in the national innovation system). Finally, there is an opportunity for new approaches to governance in ICTs at a general level, informed by disability. New modes of organising, networking, and governance associated with digital technology have attracted much attention, also featuring recently in the Australia 2020 Summit. Less well recognised are new ideas about governance that come from the disability community, such as the work of Queensland Advocacy Incorporated, Rhonda Galbally’s Our Community, disability theorists such as Christopher Newell (Newell), or the Canadian DIS-IT alliance (see, for instance, Stienstra). The combination of new ideas in governance from digital culture, new ideas from the disability movement and disability studies, and new approaches to innovation could be a very powerful cocktail indeed.Dedication This paper is dedicated to my beloved friend and collaborator, Professor Christopher Newell AM (1964-2008), whose extraordinary legacy will inspire us all to continue exploring and questioning the idea of able. 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"Language learning." Language Teaching 40, no.1 (January 2007): 49–62. http://dx.doi.org/10.1017/s026144480622411x.
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Fiddler, Joanna, Jane Seymour, Sonia Hernandez-Cordero, Ismael Campos, and Jere Haas. "Iron Supplementation Improves Energetic Efficiency During Submaximal Exercise in Iron Deficient Non-anemic Women (P24-042-19)." Current Developments in Nutrition 3, Supplement_1 (June1, 2019). http://dx.doi.org/10.1093/cdn/nzz044.p24-042-19.
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Abstract Objectives It has been estimated that 37–50% of anemia in non-pregnant women of reproductive age (WRA) is associated with iron deficiency (ID). Some of the highest rates of anemia associated with ID have been found in Latin American and Caribbean countries including Mexico. It has been well established that iron deficiency anemia (IDA), characterized by a reduced concentration of hemoglobin, results in a decline in muscular work capacity exhibited by a decrease in aerobic capacity and the ability to perform physical exercise. There is conflicting evidence on the impairment of physical work capacity in the iron deficient non-anemic (IDNA) state that is characterized by low serum ferritin but normal hemoglobin. The purpose of this study was to determine if iron status influences physical work capacity during submaximal exercise in Mexican women 18- to 45-year-old who are marginally iron depleted but not anemic. Methods Thirty-three iron-depleted (serum ferritin < 20 µg/L), non-anemic (hemoglobin > 120 g/L) women (age: 26.5 ± 6.4 yr) received either 10 mg elemental iron as FeSO4 daily (Fe: iron-supplement group, n = 18) or an identical placebo capsule (P: placebo group, n = 15) for 6 wk in a randomized, double-blind controlled trial. The energy cost of performing work during cycle ergometry at 25 and 50 watts were determined from indirect calorimetry at baseline and following the supplementation period. Results We observed increased serum ferritin (P = 0.035) and total body iron (P = 0.001), and decreased serum transferrin receptor (P = 0.028) in the Fe group compared with the P group. Based on mixed model ANOVA for a time-by treatment interaction, at end line participants in the Fe group performed work at both 25 and 50 W with lower mean energy expenditures (EE) compared to the P group (difference in EE at 25 W = 0.28 kcal/min, P = 0.036; difference in EE at 50 W = 0.41 kcal/min; P = 0.017). Conclusions Findings suggest that marginally iron depleted but non-anemic Mexican women improved their iron status and physical work efficiency following the consumption of supplemental iron. These results are important for WRA whose social, economic and dietary circumstances increase their risk for IDNA and suggest that a large proportion of these women who rely on physical labor as a livelihood may be working harder to achieve the same amount of work output as individuals with normal iron levels. Funding Sources Funding provided by The College of Human Ecology and Agricultural & Life Sciences, Cornell University.
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"Language learning." Language Teaching 36, no.3 (July 2003): 202–15. http://dx.doi.org/10.1017/s0261444803221959.
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03–438 Appel, Christine (Dublin City U., Ireland; Email: christine.appel@dcu.ie) and Mullen, Tony (U. of Groningen, The Netherlands). A new tool for teachers and researchers involved in e-mail tandem language learning. ReCALL (Cambridge, UK), 14, 2 (2002), 195–208.03–439 Atlan, Janet (IUT – Université Nancy 2, France; Email: janet.atlan@univ-nancy2.fr). La recherche sur les stratégies d'apprentissage appliquée à l'apprentissage des langues. [Learning strategies research applied to language learning.] Stratégies d'apprentissage (Toulouse, France), 12 (2003), 1–32.03–440 Aviezer, Ora (Oranim Teachers College & U. of Haifa, Israel; Email: aviezer@research.haifa.ac.il). Bedtime talk of three-year-olds: collaborative repair of miscommunication. First Language (Bucks., UK), 23, 1 (2003), 117–139.03–441 Block, David (Institute of Education, University of London). Destabilized identities and cosmopolitanism across language and cultural borders: two case studies. Hong Kong Journal of Applied Linguistics. (Hong Kong, China), 7, 2 (2002), 1–19.03–442 Brantmeier, Cindy (Washington U., USA). Does gender make a difference? Passage content and comprehension in second language reading. Reading in a Foreign Language (Hawaii, USA), 15, 1 (2003), 1–27.03–443 Cameron, L. (University of Leeds, UK; Email: L.J.Cameron@education.leeds.ac.uk). Challenges for ELT from the expansion in teaching children. ELT Journal, 57, 2 (2003), 105–112.03–444 Carter, Beverley-Anne (University of the West Indies, Trinidad and Tobago). Helping learners come of age: learner autonomy in a Caribbean context. Hong Kong Journal of Applied Linguistics (Hong Kong, China), 7, 2 (2002), 20–38.03–445 Cenos, Jasone (U. del País Vasco, Vitoria-Gasteiz, Spain; Email: fipceirj@vc.ehu.es). Facteurs déterminant l'acquisition d'une L3: âge, développement cognitive et milieu. [Factors determining the acquisition of an L3: age, cognitive development and environment.] Aile 18, 2002, 37–51.03–446 Chini, Danielle (Université de Pau et des Pays de l'Adour, France). La situation d'apprentissage: d'un lieu externe à un espace interne. [Learning situation: from external to internal space.] Anglais de Specialité37–38 (2002), 95–108.03–447 Condon, Nora and Kelly, Peter (U. Namur, Belgium). Does cognitive linguistics have anything to offer English language learners in their efforts to master phrasal verbs?ITL Review of Applied Linguistics (Leuven, Belgium), 137–138 (2002), 205–231.03–448 Crawford Camiciottoli, Belinda (Florence U., Italy). Metadiscourse and ESP reading comprehension: An exploratory study. Reading in a Foreign Language (Hawaii, USA), 15, 1 (2003), 28–44.03–449 Dykstra-Pruim, Pennylyn (Calvin College, Michigan, USA). Speaking, Writing, and Explicit Rule Knowledge: Toward an Understanding of How They Interrelate. Foreign Language Annals (New York, USA), 36, 1 (2003), 66–75.03–450 Giguère, Jacinthe, Giasson, Jocelyne and Simard, Claude (Université Laval, Canada; Email: jacinthegiguere@hotmail.com). Les relations entre la lecture et l'écriture: Représentations d'élèves de différents niveaux scolaires et de différents niveaux d'habilité. [Relationships between reading and writing: The perceptions of students of different grade levels and different ability levels.] The Canadian Journal of Applied Linguistics (Canada), 5, 1–2 (2003), 23–50.03–451 Gregersen, Tammy S. (Northern Iowa U., USA). To Err is Human: A Reminder to Teachers of Language-Anxious Students. Foreign Language Annals (New York, USA), 36, 1 (2003), 25–32.03–452 Haznedar, Belma (Bounaziçi U., Turkey; Email: haznedab@boun.edu.tr). The status of functional categories in child second language acquisition: evidence from the acquisition of CP.Second Language Research (London, UK), 19, 1 (2003), 1–41.03–453 Hesling, Isabelle (Université Victor Segalen Bordeaux 2, France). L'hémisphère cérébral droit: un atout en anglais de spécialité. [The right brain hemisphere: an advantage in specialised English.] Anglais de Specialité, 37–38 (2002), 121–140.03–454 Hilton, Heather (Université de Savoie). Modèles de l'acquisition lexicale en L2: où en sommes-nous? [Models of lexical acquisition for L2: where are we?] Anglais de Spécialité (Bordeaux, France), 35–36 (2000), 201–217.03–455 Iwashita, Noriko (Melbourne U., Australia; Email: norikoi@unimelb.edu.au). Negative feedback and positive evidence in task-based interaction. Differential effects on L2 development. Studies in Second Language Acquisition (Cambridge, UK), 25 (2003), 1–36.03–456 Johnson, Sharon P. and English, Kathryn (Virginia State U., USA). Images, myths, and realities across cultures. The French Review (Carbondale, IL, USA), 76, 3 (2003), 492–505.03–457 Kobayashi, Masaki (U. of British Columbia, Canada). The role of peer support in ESL students' accomplishment of oral academic tasks. The Canadian Modern Language Review/La Revue Canadienne des Langues Vivantes, 59, 3 (2003), 337–368.03–458 Lam, Agnes (University of Hong Kong). Language policy and learning experience in China: Six case histories. Hong Kong Journal of Applied Linguistics (Hong Kong, China), 7, 2 (2002), 57–72.03–459 Laufer, Batia (U. of Haifa, Israel; Email: batialau@research.haifa.ac.il). Vocabulary acquisition in a second language: do learners really acquire most vocabulary by reading? Some empirical evidence. The Canadian Modern Language Review/La Revue Ccanadienne des Langues Vivantes, 59, 4 (2003), 567–587.03–460 Lavoie, Natalie (Université du Québec à Rimouski, Email: natalie_lavoie@uqar.qc.ca). Les conceptions des parents de scripteurs débutants relativement à l'apprentissage de l'écriture. [The perceptions of beginner writers' parents relating to the process of learning to write.] The Canadian Journal of Applied Linguistics (Canada), 5, 1–2 (2003), 51–64.03–461 Leeman, Jennifer (George Mason U., Fairfax, USA; Email: jleeman@gmu.edu). Recasts and second language development: beyond negative evidence. Studies in Second Language Acquisition (Cambridge, UK), 25 (2003), 37–63.03–462 Loucky, John Paul (Seinan Women's U., Japan) Improving access to target vocabulary using computerized bilingual dictionaries. ReCALL (Cambridge, UK), 14, 2 (2002), 293–312.03–463 MacIntyre, Peter D. (U. College of Cape Breton, Sydney, Canada; Email: petermacintyre@uccb.ca), Baker, Susan C., Clément, Richard and Donovan, Leslie A. Talking in order to learn: willingness to communicate and intensive language programs. The Canadian Modern Language Review/La Revue canadienne des langues vivantes, 59, 4 (2003), 589–607.03–464 McAlpine, Janice and Myles, Johanne (Queens U., Ontario, Canada; Email: jm27@post.queensu.ca). Capturing phraseology in an online dictionary for advanced users of English as a second language: a response to user needs. System (Oxford, UK), 31, 1 (2003), 71–84.03–465 Mennim, P. (The University of Edinburgh, Scotland, UK). Rehearsed oral L2 output and reactive focus on form. ELT Journal, 57, 2 (2003), 130–138.03–466 Muñoz, Carmen (U. of Barcelona, Spain; Email: munoz@fil.ub.es). Le rythme d'acquisition des savoirs communicationnels chez des apprenants guidés: l'influence de l'âge. [Patterns of acquisition of communication skills in guided learning: the influence of age.] Aile, 18 (2002), 53–77.03–467 Newcombe, Lynda Pritchard (Cardiff University, Wales, UK). “A tough hill to climb alone” – Welsh learners speak. Hong Kong Journal of Applied Linguistics (Hong Kong, China), 7, 2 (2002), 39–56.03–468 Newman, Michael, Trenchs-Parera, Mireia and Pujol, Mercè (CUNY, USA; Email: mnewman@qc.edu). Core academic literacy principles versus culture-specific practices: a multi-case study of academic achievement. English for Specific Purposes (Amsterdam, NE), 22, 1 (2003), 45–71.03–469 Nsangou, Maryse. Problemursachen und Problemlösung in der zweitsprachlichen Kommunikation. [Problems in L2 communication: causes and solutions.] Deutsch als Fremdsprache, 39, 4 (2002), 232–237.03–470 O'Grady, William (U. of Hawaii, USA; Email: ogrady@hawaii.edu) and Yamashita, Yoshie. Partial agreement in second-language acquisition. Linguistics (Berlin, Germany), 40, 5 (2002), 1011–1019.03–471 Payne, J. Scott (Middlebury College, USA) and Whitney, Paul J. Developing L2 Oral Proficiency through Synchronous CMC: Output, Working Memory, and Interlanguage Development. CALICO Journal (Texas, USA), 20, 1 (2002), 7–32.03–472 Pekarek Doehler, Simona (U. of Basle, Switzerland). Situer l'acquisition des langues secondes dans les activités sociales: l'apport d'une perspective interactionniste. [Second-language acquisition through social activities: an interactionist perspective.] Babylonia (Comano, Switzerland), 4 (2002), 24–29.03–473 Philp, Jenefer (U. of Tasmania, Australia; Email: philos@tassie.net.au). Constraints on “noticing the gap”. Nonnative speakers' noticing of recasts in NS-NNS interaction. Studies in Second Language Acquisition (Cambridge, UK), 25 (2003), 99–126.03–474 Prévost, Philippe (U. Laval, Québec, Canada; Email: philippe.prevost@lli.ulaval.ca). Truncation and missing inflection in initial child L2 German. Studies in Second Language Acquisition (Cambridge, UK), 25 (2003), 65–97.03–475 Pujolá, Joan-Tomás (Universitat de Barcelona, Spain). CALLing for help: researching language learning strategies using help facilities in a web-based multimedia program. ReCALL (Cambridge, UK), 14, 2 (2002), 235–62.03–476 Rees, David (Institut National d'Horticulture d'Angers, France). Role change in interactive learning environments. Stratégies d'apprentissage (Toulouse, France), 12 (2003), 67–75.03–477 Rehner, Katherine, Mougeon, Raymond (York U., Toronto, Canada; Email: krehner@yorku.ca) and Nadasdi, Terry. The learning of sociolinguistic variation by advanced FSL learners. The case ofnousversusonin immersion French. Studies in Second Language Acquisition (Cambridge, UK), 25 (2003), 127–156.03–478 Richter, Regina. Konstruktivistiche Lern- und Mediendesign-Theorie und ihre Umsetzung in multimedialen Sprachlernprogrammen. [Constructivist learning- and media-design theory and its application in multimedia language-learning programmes.] Deutsch als Fremdsprache, 39, 4 (2002), 201–206.03–479 Rinder, Ann. Das konstruktivistische Lernparadigma und die neuen Medien. [The constructivist learning paradigm and the new media.] Info DaF (Munich, Germany), 30, 1 (2003), 3–22.03–480 Rott, Susanne and Williams, Jessica (U. of Chicago at Illinois, USA). Making form-meaning connections while reading: A qualitative analysis of word processing. Reading in a Foreign Language (Hawaii, USA), 15, 1 (2003), 45–75.03–481 Shinichi, Izumi (Sophia U., Japan; Email: s-izumi@hoffman.cc.sophia.ac.jp). Output, input enhancement, and the noticing hypothesis. Studies in Second Language Acquisition (Cambridge, UK), 24, 4 (2002), 541–577.03–482 Sifakis, N. C. (Hellenic Open U., Greece; Email: nicossif@hol.gr). Applying the adult education framework to ESP curriculum development: an integrative model. English for Specific Purposes (Amsterdam, NE), 22, 1 (2003), 195–211.03–483 Slabakova, Roumyana (U. of Iowa, USA; Email: roumyana-slabakova@uiowa.edu). Semantic evidence for functional categories in interlanguage grammars. Second Language Research (London, UK), 19, 1 (2003), 42–75.03–484 Soboleva, Olga and Tronenko, Natalia (LSE, UK; Email: O.Sobolev@lse.ac.uk). A Russian multimedia learning package for classroom use and self-study. Computer Assisted Language Learning (Lisse, NE), 15, 5 (2002), 483–499.03–485 Stockwell, Glenn (Kumamoto Gakuen U., Japan) and Harrington, Michael. The Incidental Development of L2 Proficiency in NS-NNS E-mail Interactions. CALICO Journal (Texas, USA), 20, 2 (2003), 337–359.03–486 Van de Craats, Ineke (Nijmegen U., Netherlands). The role of the mother tongue in second language learning. Babylonia (Comano, Switzerland), 4 (2002), 19–22.03–487 Vidal, K. (U. Autonoma de Madrid, Spain). Academic Listening: A Source of Vocabulary Acquisition?Applied Linguistics, 24, 1 (2003), 56–89.03–488 Wakabayashi, Shigenori (Gunma Prefectural Women's U., Japan; Email: waka@gpwu.ac.jp). Contributions of the study of Japanese as a second language to our general understanding of second language acquisition and the definition of second language acquisition research. Second Language Research (London, UK), 19, 1 (2003), 76–94.03–489 Ward, Monica (Dublin City U., Ireland). Reusable XML technologies and the development of language learning materials. ReCALL (Cambridge, UK), 14, 2 (2002), 283–92.03–490 Wendt, Michael (U. Bremen, Germany; Email: inform@uni-bremen.de). Context, culture, and construction: research implications of theory formation in foreign language methodology. Language, Culture and Curriculum (Clevedon, UK), 15, 3 (2002), 284–297.03–491 Wernsing, Armin Volkmar (Maria-Sybilla-Merian-Gymnasium/Studienseminar, Krefeld, Germany). Über die Zuversicht und andere Emotionen beim Fremdsprachenlernen. [Confidence and other emotions in foreign-language learning.] Fremdsprachenunterricht (Berlin, Germany), 2 (2003), 81–87.03–492 Wintergerst, Ann, DeCapua, Andrea and Verna, Marilyn (St. Johns U. New York, USA). An analysis of one learning styles instrument for language students. TESL Canada Journal (Burnaby, BC, Canada), 20, 1 (2002), 16–37.03–493 Yang, Anson and Lau, Lucas (City U. of Hong Kong; Email: enanson@cityu.edu.hk). Student attitudes to the learning of English at secondary and tertiary levels. System (Oxford, UK), 31, 1 (2003), 107–123.03–494 Yoshii, Makoto (Baiko Gakuin U., Japan) and Flaitz, Jeffra. Second Language Incident Vocabulary Retention: The Effect of Text and Picture Annotation Types. CALICO Journal (Texas, USA), 20, 1 (2002), 33–58.03–495 Yuan, F. (U. of Pennsylvania, USA) and Ellis, R. The Effects of Pre-Task Planning and On-Line Planning on Fluency, Complexity and Accuracy in L2 Monologic Oral Production. Applied Linguistics, 24, 1 (2003), 1–27.
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"Endocrine-Related Resources from the National Institutes of Health." Endocrinology 144, no.8 (August1, 2003): 3712–14. http://dx.doi.org/10.1210/endo.144.8.9999.
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Abstract Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. HUMAN TISSUE RESOURCES NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to over 9,000 cases of formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. Researchers can search an online database to determine whether the resource specimens and data meet their needs. Contact CBCTR’s Web site at: http://www-cbctr.ims.nci.nih.gov, or Ms. Sherrill Long, Information Management Services, Inc., (301) 984-3445; e-mail: longs@imsweb.com. NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide researchers with access to paraffin-embedded and frozen prostate cancer tissues with associated clinical and outcome data. The collection is particularly useful for validation studies of diagnostic and prognostic markers. Questions about the resource should be directed to ASK-CPCTR-L@LIST.NIH.GOV. Additional information can be obtained from CPCTR’s Web site at http://www.prostatetissues.org, or by contacting Ms. Sherrill Long, Information Management Services, Inc., (301) 984-3445; e-mail: longs@imsweb.com. NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/), or Dr. Jodi Black, (301) 402-6293; e-mail: jb377x@nih.gov. NCI - Breast, Ovarian, and Colorectal Cancer Family Registries (CFRs) The Cancer Family Registries (CFRs) include two international registries: the Cancer Family Registry for Breast Cancer Studies (Breast CFR) and the Cancer Family Registry for Colorectal Cancer Studies (Colon CFR). The Breast CFR provides family history information, biological specimens, and epidemiologic and clinical data from clinic-based and population-based families at risk for breast and ovarian cancers. The Breast CFR infrastructure is particularly suited to support interdisciplinary and translational breast cancer research. Similarly, the Colon CFR collection includes family history information, epidemiologic and clinical data, and related biological specimens from individuals with colorectal cancer and their families. The colon CFR is a resource for population- and clinic-based translational research in the genetic epidemiology of colorectal cancer. For information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/cfr.html) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147; e-mail: tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contractsperiodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Type I Diabetes Clinical Trials Program, NIDDK, 6707 Democracy Blvd., Room 691, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20814-9692. Phone: (301) 594-8804; fax: (301) 480-3503; e-mail: cowiec@extra.niddk.nih.gov. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at: www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain; cardiovascular system; endocrine system; eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Ms. Sally Strickler at NDRI, 1880 John F. Kennedy Boulevard, 6th Floor, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 227; fax: (215) 557-7154; e-mail: sstrickler@ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Richard A. Knazek, M.D., Division of Clinical Research, NCRR, NIH, 6705 Rockledge Drive, Bethesda, MD 20892. Phone (301) 435-0790; fax (301) 480-3661; e-mail: richardk@ncrr.nih.gov. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/7 and consists of 3302 African-American, Caucasian, Chinese-American, Hispanic, and Japanese-American women. The SWAN Repository contains blood and urine specimens from each study participant’s annual visit, at which time medical and health history, psychosocial measures, biological measures, and anthropometric data are also collected. In addition, a subset of participants provide urine samples over the length of one menstrual cycle each year. All of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. A DNA sample repository for SWAN is in development. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www.swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892; e-mail: mfsowers@umich.edu. HUMAN AND ANIMAL CELL AND BIOLOGIC REAGENT RESOURCES NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432; e-mail: parlow@humc.edu. Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigen Recombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: American Type Culture Collection, National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. ANIMAL RESOURCES NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nih.gov/nia/research/rodent.htm or contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 496-0181; fax: (301) 402-5597; e-mail: rodents@nia.nih.gov. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819; e-mail: griederf@ncrr.nih.gov. NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802; e-mail: Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048; e-mail: abrahamk@extra.niddk.nih.gov. NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs)* are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from Jerry A. Robinson, Ph.D., Director, National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819; e-mail: JerryR@ncrr.nih.gov. *The National Primate Research Centers were formerly called Regional Primate Research Centers. The name was changed in April 2002 to reflect the expanded role of the centers. NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 496-0181; fax: (301) 402-0010; e-mail: nadonn@nia.nih.gov. NIA - Obesity, Diabetes and Aging Animal Resource (ODAAR) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of Maryland. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extends as far back as 15 years. This unique resource is available for collaborative studies. ODAAR has a significant amount of stored tissue collected at necropsy and stored blood collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODAAR colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity and Diabetes Research Center, University of Maryland, 10 South Pine St., Baltimore, MD 21201-1192, Phone: (410) 706-3168; fax: (410) 706-7540; e-mail: bchansen@aol.com. NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. MISCELLANEOUS RESOURCES NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, and herpes-virus. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Rubin, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518; e-mail: lrubin@iupui.edu. The NGVL Coordinating Center at Indiana University also hosts a Web site: http://www.ngvl.org/. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 80 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division of Clinical Research, National Center for Research Resources at NIH. Phone: (301) 435-0790; e-mail: haywarda@ncrr.nih.gov.
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"Endocrine-Related Resources from the National Institutes of Health." Endocrinology 144, no.9 (September1, 2003): 4215–17. http://dx.doi.org/10.1210/endo.144.9.9999.
Full textAbstract:
Abstract Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. HUMAN TISSUE RESOURCES NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to over 9,000 cases of formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. Researchers can search an online database to determine whether the resource specimens and data meet their needs. Contact CBCTR’s Web site at: http://www-cbctr.ims.nci.nih.gov, or Ms. Sherrill Long, Information Management Services, Inc., (301) 984-3445; e-mail: longs@imsweb.com. NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide researchers with access to paraffin-embedded and frozen prostate cancer tissues with associated clinical and outcome data. The collection is particularly useful for validation studies of diagnostic and prognostic markers. Questions about the resource should be directed to ASK-CPCTR-L@LIST.NIH.GOV. Additional information can be obtained from CPCTR’s Web site at http://www.prostatetissues.org, or by contacting Ms. Sherrill Long, Information Management Services, Inc., (301) 984-3445; e-mail: longs@imsweb.com. NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/), or Dr. Jodi Black, (301) 402-6293; e-mail: jb377x@nih.gov. NCI - Breast, Ovarian, and Colorectal Cancer Family Registries (CFRs) The Cancer Family Registries (CFRs) include two international registries: the Cancer Family Registry for Breast Cancer Studies (Breast CFR) and the Cancer Family Registry for Colorectal Cancer Studies (Colon CFR). The Breast CFR provides family history information, biological specimens, and epidemiologic and clinical data from clinic-based and population-based families at risk for breast and ovarian cancers. The Breast CFR infrastructure is particularly suited to support interdisciplinary and translational breast cancer research. Similarly, the Colon CFR collection includes family history information, epidemiologic and clinical data, and related biological specimens from individuals with colorectal cancer and their families. The colon CFR is a resource for population- and clinic-based translational research in the genetic epidemiology of colorectal cancer. For information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/cfr.html) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147; e-mail: tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Type I Diabetes Clinical Trials Program, NIDDK, 6707 Democracy Blvd., Room 691, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20814-9692. Phone: (301) 594-8804; fax: (301) 480-3503; e-mail: cowiec@extra.niddk.nih.gov. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at: www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain; cardiovascular system; endocrine system; eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Ms. Sally Strickler at NDRI, 1880 John F. Kennedy Boulevard, 6th Floor, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 227; fax: (215) 557-7154; e-mail: sstrickler@ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Richard A. Knazek, M.D., Division of Clinical Research, NCRR, NIH, 6705 Rockledge Drive, Bethesda, MD 20892. Phone (301) 435-0790; fax (301) 480-3661; e-mail: richardk@ncrr.nih.gov. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/7 and consists of 3302 African-American, Caucasian, Chinese-American, Hispanic, and Japanese-American women.144.9.4215http://www.swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892; e-mail: mfsowers@umich.edu. HUMAN AND ANIMAL CELL AND BIOLOGIC REAGENT RESOURCES NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432; e-mail: parlow@humc.edu. Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigen Recombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: American Type Culture Collection, National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. ANIMAL RESOURCES NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nih.gov/nia/research/rodent.htm or contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 496-0181; fax: (301) 402-5597; e-mail: rodents@nia.nih.gov. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819; e-mail: griederf@ncrr.nih.gov. NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802; e-mail: Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048; e-mail: abrahamk@extra.niddk.nih.gov. NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs)* are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from Jerry A. Robinson, Ph.D., Director, National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819; e-mail: JerryR@ncrr.nih.gov. *The National Primate Research Centers were formerly called Regional Primate Research Centers. The name was changed in April 2002 to reflect the expanded role of the centers. NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 496-0181; fax: (301) 402-0010; e-mail: nadonn@nia.nih.gov. NIA - Obesity, Diabetes and Aging Animal Resource (ODAAR) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of Maryland. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extends as far back as 15 years. This unique resource is available for collaborative studies. ODAAR has a significant amount of stored tissue collected at necropsy and stored blood collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODAAR colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity and Diabetes Research Center, University of Maryland, 10 South Pine St., Baltimore, MD 21201-1192, Phone: (410) 706-3168; fax: (410) 706-7540; e-mail: bchansen@aol.com. NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. MISCELLANEOUS RESOURCES NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, and herpes-virus. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Rubin, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518; e-mail: lrubin@iupui.edu. The NGVL Coordinating Center at Indiana University also hosts a Web site: http://www.ngvl.org/. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 80 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division of Clinical Research, National Center for Research Resources at NIH. Phone: (301) 435-0790; e-mail: haywarda@ncrr.nih.gov.
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Barker, Timothy Scott. "Information and Atmospheres: Exploring the Relationship between the Natural Environment and Information Aesthetics." M/C Journal 15, no.3 (May3, 2012). http://dx.doi.org/10.5204/mcj.482.
Full textAbstract:
Our culture abhors the world.Yet Quicksand is swallowing the duellists; the river is threatening the fighter: earth, waters and climate, the mute world, the voiceless things once placed as a decor surrounding the usual spectacles, all those things that never interested anyone, from now on thrust themselves brutally and without warning into our schemes and manoeuvres (Michel Serres, The Natural Contract, p 3). When Michel Serres describes culture's abhorrence of the world in the opening pages of The Natural Contract he draws our attention to the sidelining of nature in histories and theories that have sought to describe Western culture. As Serres argues, cultural histories are quite often built on the debates and struggles of humanity, which are largely held apart from their natural surroundings, as if on a stage, "purified of things" (3). But, as he is at pains to point out, human activity and conflict always take place within a natural milieu, a space of quicksand, swelling rivers, shifting earth, and atmospheric turbulence. Recently, via the potential for vast environmental change, what was once thought of as a staid “nature” has reasserted itself within culture. In this paper I explore how Serres’s positioning of nature can be understood amid new communication systems, which, via the apparent dematerialization of messages, seems to have further removed culture from nature. From here, I focus on a set of artworks that work against this division, reformulating the connection between information, a topic usually considered in relation to media and anthropic communication (and something about which Serres too has a great deal to say), and nature, an entity commonly considered beyond human contrivance. In particular, I explore how information visualisation and sonification has been used to give a new sense of materiality to the atmosphere, repotentialising the air as a natural and informational entity. The Natural Contract argues for the legal legitimacy of nature, a natural contract similar in standing to Rousseau’s social contract. Serres’ss book explores the history and notion of a “legal person”, arguing for a linking of the scientific view of the world and the legal visions of social life, where inert objects and living beings are considered within the same legal framework. As such The Natural Contract does not deal with ecology per-se, but instead focuses on an argument for the inclusion of nature within law (Serres, “A Return” 131). In a drastic reconfiguring of the subject/object relationship, Serres explains how the space that once existed as a backdrop for human endeavour now seems to thrust itself directly into history. "They (natural events) burst in on our culture, which had never formed anything but a local, vague, and cosmetic idea of them: nature" (Serres, The Natural Contract 3). In this movement, nature does not simply take on the role of a new object to be included within a world still dominated by human subjects. Instead, human beings are understood as intertwined with a global system of turbulence that is both manipulated by them and manipulates them. Taking my lead from Serres’s book, in this paper I begin to explore the disconnections and reconnections that have been established between information and the natural environment. While I acknowledge that there is nothing natural about the term “nature” (Harman 251), I use the term to designate an environment constituted by the systematic processes of the collection of entities that are neither human beings nor human crafted artefacts. As the formation of cultural systems becomes demarcated from these natural objects, the scene is set for the development of culturally mediated concepts such as “nature” and “wilderness,” as entities untouched and unspoilt by cultural process (Morton). On one side of the divide the complex of communication systems is situated, on the other is situated “nature”. The restructuring of information flows due to developments in electronic communication has ostensibly removed messages from the medium of nature. Media is now considered within its own ecology (see Fuller; Strate) quite separate from nature, except when it is developed as media content (see Cubitt; Murray; Heumann). A separation between the structures of media ecologies and the structures of natural ecologies has emerged over the history of electronic communication. For instance, since the synoptic media theory of McLuhan it has been generally acknowledged that the shift from script to print, from stone to parchment, and from the printing press to more recent developments such as the radio, telephone, television, and Web2.0, have fundamentally altered the structure and effects of human relationships. However, these developments – “the extensions of man” (McLuhan)— also changed the relationship between society and nature. Changes in communications technology have allowed people to remain dispersed, as ideas, in the form of electric currents or pulses of light travel vast distances and in diverse directions, with communication no longer requiring human movement across geographic space. Technologies such as the telegraph and the radio, with their ability to seemingly dematerialize the media of messages, reformulated the concept of communication into a “quasi-physical connection” across the obstacles of time and space (Clarke, “Communication” 132). Prior to this, the natural world itself was the medium through which information was passed. Rather than messages transmitted via wires, communication was associated with the transport of messages through the world via human movement, with the materiality of the medium measured in the time it took to cover geographic space. The flow of messages followed trade flows (Briggs and Burke 20). Messages moved along trails, on rail, over bridges, down canals, and along shipping channels, arriving at their destination as information. More recently however, information, due to its instantaneous distribution and multiplication across space, seems to have no need for nature as a medium. Nature has become merely a topic for information, as media content, rather than as something that takes part within the information system itself. The above example illustrates a separation between information exchange and the natural environment brought about by a set of technological developments. As Serres points out, the word “media” is etymologically related to the word “milieu”. Hence, a theory of media should be always related to an understanding of the environment (Crocker). But humans no longer need to physically move through the natural world to communicate, ideas can move freely from region to region, from air-conditioned room to air-conditioned room, relatively unimpeded by natural forces or geographic distance. For a long time now, information exchange has not necessitated human movement through the natural environment and this has consequences for how the formation of culture and its location in (or dislocation from) the natural world is viewed. A number of artists have begun questioning the separation between media and nature, particularly concerning the materiality of air, and using information to provide new points of contact between media and the atmosphere (for a discussion of the history of ecoart see Wallen). In Eclipse (2009) (fig. 1) for instance, an internet based work undertaken by the collective EcoArtTech, environmental sensing technology and online media is used experimentally to visualize air pollution. EcoArtTech is made up of the artist duo Cary Peppermint and Leila Nadir and since 2005 they have been inquiring into the relationship between digital technology and the natural environment, particularly regarding concepts such as “wilderness”. In Eclipse, EcoArtTech garner photographs of American national parks from social media and photo sharing sites. Air quality data gathered from the nearest capital city is then inputted into an algorithm that visibly distorts the image based on the levels of particle pollution detected in the atmosphere. The photographs that circulate on photo sharing sites such as Flickr—photographs that are usually rather banal in their adherence to a history of wilderness photography—are augmented by the environmental pollution circulating in nearby capital cities. Figure 1: EcoArtTech, Eclipse (detail of screenshot), 2009 (Internet-based work available at:http://turbulence.org/Works/eclipse/) The digital is often associated with the clean transmission of information, as packets of data move from a server, over fibre optic cables, to be unpacked and re-presented on a computer's screen. Likewise, the photographs displayed in Eclipse are quite often of an unspoilt nature, containing no errors in their exposure or focus (most probably because these wilderness photographs were taken with digital cameras). As the photographs are overlaid with information garnered from air quality levels, the “unspoilt” photograph is directly related to pollution in the natural environment. In Eclipse the background noise of “wilderness,” the pollution in the air, is reframed as foreground. “We breathe background noise…Background noise is the ground of our perception, absolutely uninterrupted, it is our perennial sustenance, the element of the software of all our logic” (Serres, Genesis 7). Noise is activated in Eclipse in a similar way to Serres’s description, as an indication of the wider milieu in which communication takes place (Crocker). Noise links the photograph and its transmission not only to the medium of the internet and the glitches that arise as information is circulated, but also to the air in the originally photographed location. In addition to noise, there are parallels between the original photographs of nature gleaned from photo sharing sites and Serres’s concept of a history that somehow stands itself apart from the effects of ongoing environmental processes. By compartmentalising the natural and cultural worlds, both the historiography that Serres argues against and the wilderness photograph produces a concept of nature that is somehow outside, behind, or above human activities and the associated matter of noise. Eclipse, by altering photographs using real-time data, puts the still image into contact with the processes and informational outputs of nature. Air quality sensors detect pollution in the atmosphere and code these atmospheric processes into computer readable information. The photograph is no longer static but is now open to continual recreation and degeneration, dependent on the coded value of the atmosphere in a given location. A similar materiality is given to air in a public work undertaken by Preemptive Media, titled Areas Immediate Reading (AIR) (fig. 2). In this project, Preemptive Media, made up of Beatriz da Costa, Jamie Schulte and Brooke Singer, equip participants with instruments for measuring air quality as they walked around New York City. The devices monitor the carbon monoxide (CO), nitrogen oxides (NOx) or ground level ozone (O3) levels that are being breathed in by the carrier. As Michael Dieter has pointed out in his reading of the work, the application of sensing technology by Preemptive Media is in distinct contrast to the conventional application of air quality monitoring, which usually takes the form of extremely high resolution located devices spread over great distances. These larger air monitoring networks tend to present the value garnered from a large expanse of the atmosphere that covers individual cities or states. The AIR project, in contrast, by using small mobile sensors, attempts to put people in informational contact with the air that they are breathing in their local and immediate time and place, and allows them to monitor the small parcels of atmosphere that surround other users in other locations (Dieter). It thus presents many small and mobile spheres of atmosphere, inhabited by individuals as they move through the city. In AIR we see the experimental application of an already developed technology in order to put people on the street in contact with the atmospheres that they are moving through. It gives a new informational form to the “vast but invisible ocean of air that surrounds us and permeates us” (Ihde 3), which in this case is given voice by a technological apparatus that converts the air into information. The atmosphere as information becomes less of a vague background and more of a measurable entity that ingresses into the lives and movements of human users. The air is conditioned by information; the turbulent and noisy atmosphere has been converted via technology into readable information (Connor 186-88). Figure 2: Preemptive Media, Areas Immediate Reading (AIR) (close up of device), 2011 Throughout his career Serres has developed a philosophy of information and communication that may help us to reframe the relationship between the natural and cultural worlds (see Brown). Conventionally, the natural world is understood as made up of energy and matter, with exchanges of energy and the flows of biomass through food webs binding ecosystems together (DeLanda 120-1). However, the tendencies and structures of natural systems, like cultural systems, are also dependent on the communication of information. It is here that Serres provides us with a way to view natural and cultural systems as connected by a flow of energy and information. He points out that in the wake of Claude Shannon’s famous Mathematical Theory of Communication it has been possible to consider the relationship between information and thermodynamics, at least in Shannon’s explanation of noise as entropy (Serres, Hermes74). For Serres, an ecosystem can be conceptualised as an informational and energetic system: “it receives, stores, exchanges, and gives off both energy and information in all forms, from the light of the sun to the flow of matter which passes through it (food, oxygen, heat, signals)” (Serres, Hermes 74). Just as we are related to the natural world based on flows of energy— as sunlight is converted into energy by plants, which we in turn convert into food— we are also bound together by flows of information. The task is to find new ways to sense this information, to actualise the information, and imagine nature as more than a welter of data and the air as more than background. If we think of information in broad ranging terms as “coded values of the output of a process” (Losee 254), then we see that information and the environment—as a setting that is produced by continual and energetic processes—are in constant contact. After all, humans sense information from the environment all the time; we constantly decode the coded values of environmental processes transmitted via the atmosphere. I smell a flower, I hear bird songs, and I see the red glow of a sunset. The process of the singing bird is coded as vibrations of air particles that knock against my ear drum. The flower is coded as molecules in the atmosphere enter my nose and bind to cilia. The red glow is coded as wavelengths from the sun are dispersed in the Earth’s atmosphere and arrive at my eye. Information, of course, does not actually exist as information until some observing system constructs it (Clarke, “Information” 157-159). This observing system as we see the sunset, hear the birds, or smell the flower involves the atmosphere as a medium, along with our sense organs and cognitive and non-cognitive processes. The molecules in the atmosphere exist independently of our sense of them, but they do not actualise as information until they are operationalised by the observational system. Prior to this, information can be thought of as noise circulating within the atmosphere. Heinz Von Foester, one of the key figures of cybernetics, states “The environment contains no information. The environment is as it is” (Von Foester in Clarke, “Information” 157). Information, in this model, actualises only when something in the world causes a change to the observational system, as a difference that makes a difference (Bateson 448-466). Air expelled from a bird’s lungs and out its beak causes air molecules to vibrate, introducing difference into the atmosphere, which is then picked up by my ear and registered as sound, informing me that a bird is nearby. One bird song is picked up as information amid the swirling noise of nature and a difference in the air makes a difference to the observational system. It may be useful to think of the purpose of information as to control action and that this is necessary “whenever the people concerned, controllers as well as controlled, belong to an organised social group whose collective purpose is to survive and prosper” (Scarrott 262). Information in this sense operates the organisation of groups. Using this definition rooted in cybernetics, we see that information allows groups, which are dependent on certain control structures based on the sending and receiving of messages through media, to thrive and defines the boundaries of these groups. We see this in a flock of birds, for instance, which forms based on the information that one bird garners from the movements of the other birds in proximity. Extrapolating from this, if we are to live included in an ecological system capable of survival, the transmission of information is vital. But the form of the information is also important. To communicate, for example, one entity first needs to recognise that the other is speaking and differentiate this information from the noise in the air. Following Clarke and Von Foester, an observing system needs to be operational. An art project that gives aesthetic form to environmental processes in this vein—and one that is particularly concerned with the co-agentive relation between humans and nature—is Reiko Goto and Tim Collin’s Plein Air (2010) (fig. 3), an element in their ongoing Eden 3 project. In this work a technological apparatus is wired to a tree. This apparatus, which references the box easels most famously used by the Impressionists to paint ‘en plein air’, uses sensing technology to detect the tree’s responses to the varying CO2 levels in the atmosphere. An algorithm then translates this into real time piano compositions. The tree’s biological processes are coded into the voice of a piano and sensed by listeners as aesthetic information. What is at stake in this work is a new understanding of atmospheres as a site for the exchange of information, and an attempt to resituate the interdependence of human and non-human entities within an experimental aesthetic system. As we breathe out carbon dioxide—both through our physiological process of breathing and our cultural processes of polluting—trees breath it in. By translating these biological processes into a musical form, Collins and Gotto’s work signals a movement from a process of atmospheric exchange to a digital process of sensing and coding, the output of which is then transmitted through the atmosphere as sound. It must be mentioned that within this movement from atmospheric gas to atmospheric music we are not listening to the tree alone. We are listening to a much more complex polyphony involving the components of the digital sensing technology, the tree, the gases in the atmosphere, and the biological (breathing) and cultural processes (cars, factories and coal fired power stations) that produce these gases. Figure 3: Reiko Goto and Tim Collins, Plein Air, 2010 As both Don Ihde and Steven Connor have pointed out, the air that we breathe is not neutral. It is, on the contrary, given its significance in technology, sound, and voice. Taking this further, we might understand sensing technology as conditioning the air with information. This type of air conditioning—as information alters the condition of air—occurs as technology picks up, detects, and makes sensible phenomena in the atmosphere. While communication media such as the telegraph and other electronic information distribution systems may have distanced information from nature, the sensing technology experimentally applied by EcoArtTech, Preeemptive Media, and Goto and Collins, may remind us of the materiality of air. These technologies allow us to connect to the atmosphere; they reformulate it, converting it to information, giving new form to the coded processes in nature.AcknowledgmentAll images reproduced with the kind permission of the artists. References Bateson, Gregory. Steps to an Ecology of Mind. Chicago: University of Chicago Press, 1972. Briggs, Asa, and Peter Burke. A Social History of the Media: From Gutenberg to the Internet. Maden: Polity Press, 2009. Brown, Steve. “Michel Serres: Science, Translation and the Logic of the Parasite.” Theory, Culture and Society 19.1 (2002): 1-27. Clarke, Bruce. “Communication.” Critical Terms for Media Studies. Eds. Mark B. N. Hansen and W. J. T. Mitchell. Chicago: University of Chicago Press, 2010. 131-45 -----. “Information.” Critical Terms for Media Studies. Eds. Mark B. N. Hansen and W. J. T. Mitchell. Chicago: University of Chicago Press, 2010. 157-71 Crocker, Stephen. “Noise and Exceptions: Pure Mediality in Serres and Agamben.” CTheory: 1000 Days of Theory. (2007). 7 June 2012 ‹http://www.ctheory.net/articles.aspx?id=574› Connor, Stephen. The Matter of Air: Science and the Art of the Etheral. London: Reaktion, 2010. Cubitt, Sean. EcoMedia. Amsterdam and New York: Rodopi, 2005 Deiter, Michael. “Processes, Issues, AIR: Toward Reticular Politics.” Australian Humanities Review 46 (2009). 9 June 2012 ‹http://www.australianhumanitiesreview.org/archive/Issue-May-2009/dieter.htm› DeLanda, Manuel. Intensive Science and Virtual Philosophy. London and New York: Continuum, 2002. Fuller, Matthew. Media Ecologies: Materialist Energies in Art and Technoculture. Cambridge, MA: MIT Press, 2005 Harman, Graham. Guerilla Metaphysics. Illinois: Open Court, 2005. Ihde, Don. Listening and Voice: Phenomenologies of Sound. Albany: State University of New York, 2007. Innis, Harold. Empire and Communication. Toronto: Voyageur Classics, 1950/2007. Losee, Robert M. “A Discipline Independent Definition of Information.” Journal of the American Society for Information Science 48.3 (1997): 254–69. McLuhan, Marshall. Understanding Media: The Extensions of Man. London: Sphere Books, 1964/1967. Morton, Timothy. Ecology Without Nature: Rethinking Environmental Aesthetics. Cambridge: Harvard University Press, 2007. Murray, Robin, and Heumann, Joseph. Ecology and Popular Film: Cinema on the Edge. Albany: State University of New York, 2009 Scarrott, G.C. “The Nature of Information.” The Computer Journal 32.3 (1989): 261-66 Serres, Michel. Hermes: Literature, Science Philosophy. Baltimore: The John Hopkins Press, 1982. -----. The Natural Contract. Trans. Elizabeth MacArthur and William Paulson. Ann Arbor: The University of Michigan Press, 1992/1995. -----. Genesis. Trans. Genevieve James and James Nielson. Ann Arbor: The University of Michigan Press, 1982/1995. -----. “A Return to the Natural Contract.” Making Peace with the Earth. Ed. Jerome Binde. Oxford: UNESCO and Berghahn Books, 2007. Strate, Lance. Echoes and Reflections: On Media Ecology as a Field of Study. New York: Hampton Press, 2006 Wallen, Ruth. “Ecological Art: A Call for Intervention in a Time of Crisis.” Leonardo 45.3 (2012): 234-42.
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"Endocrine-Related Resources from the National Institutes of Health." Endocrinology 147, no.4 (April1, 2006): 2063–66. http://dx.doi.org/10.1210/endo.147.4.9998.
Full textAbstract:
Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. HUMAN TISSUE AND BIOLOGIC SPECIMEN RESOURCES NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. The CHTN can also provide a variety of tissue microarrays. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. The CBCTR also makes available breast cancer tissue microarrays designed by NCI statisticians to provide high statistical power for studies of stage-specific markers of breast cancer. Contact CBCTR’s Web site at http://cbctr.nci.nih.gov, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide access to over 4,000 cases of formalin-fixed, paraffin-embedded primary prostate cancer specimens, with associated pathology and clinical data. Fresh-frozen tissue is also available with limited clinical follow-up information. In addition, slides from prostate cancer tissue microarrays with associated pathology and clinical data are now available. Contact the CPCTR Web site at http://www.prostatetissues.org, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/) or Dr. Kishor Bhatia, (301) 496-7147; e-mail: bhatiak@mail.nih.gov NCI - Breast and Ovarian Cancer Family Registries (CFRs) The Breast and Ovarian CFRs facilitate and support interdisciplinary and population-based research on the identification and characterization of breast and ovarian cancer susceptibility genes, with particular emphasis on gene-gene and gene-environment interaction research. Available from the registries are: a) family history, epidemiologic and clinical data, b) updates on cancer recurrence, morbidity and mortality in participating families, and c) biospecimens, including plasma, lymphocytes, serum, DNA, Guthrie cards or buccal smears, and paraffin blocks of tumor tissue. For further information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/BCFR) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147; e-mail: tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Diabetes Epidemiology Program, NIDDK, 6707 Democracy Blvd., Room 691, MSC 5460, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20892-5460. Phone: (301) 594-8804; fax: (301) 480-3503; e-mail: cowiec@extra.niddk.nih.gov NIDDK - NIDDK Central Repositories (Diabetes Prevention Study) The NIDDK Central Repositories have selected biosamples from the DPT-1 (The Diabetes Prevention Type 1) study that are available to qualified investigators through an application process. These samples are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. Information about how to apply for these materials can be obtained from the NIDDK Central Repositories by contacting Ms. Helen Ray of RTI, 1-919-316-3418, or hmp@rti.org. Direct scientific-technical inquiry to the Project Officer of the NIDDK Central Repositories, Dr. Rebekah Rasooly, at phone: (301) 594-6007; e-mail: rr185i@nih.gov Visit the Repositories Web site at http://www.niddkrepository.org. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NICHD - Reproductive Tissue Sample Repository (RTSaR) The Reproductive Tissue Sample Repository (RTSaR) is a virtual repository with online tissue sample acquisition capabilities. The RTSaR provides investigators with real-time access to human and nonhuman primate tissue and fluid inventories from four tissue bank facilities that are supported through the Specialized Cooperative Centers Program in Reproduction Research. The tissue banks are located at the University of California, San Diego (human ovary bank), Stanford University (human endometrium and DNA bank), Johns Hopkins University (male reproductive tissues and fluids), and the Oregon National Primate Research Center (nonhuman primate tissues). The web site for the RTSaR is https://rtsar.nichd.nih.gov/rtsar/login. If you wish to access the RTSaR, you can request an id and password to access the system by contacting the network administrator at RTSaR@mail.nih.gov Once you access the system, contact information for each bank is provided. Access is open to all investigators living in North America who are supported by research and research training grants from the NIH. One id and password will be provided to each principal investigator that can be utilized by any person working in the P.I.’s laboratory, or, in the case of institutional training grants (T32) and institutional career development award programs (K12), any person supported by the aforementioned awards. NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain, cardiovascular system, endocrine system, eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Dr. John T. Lonsdale at NDRI, 8 Penn Center, 8th Floor, 1628 JFK Boulevard, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 271; fax: (215) 557-7154; e-mail: jlonsdale@ndriresource.org The NDRI Web site is http://www.ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Mr. John Kaddis, ICR Coordinating Center Project Manager, City of Hope National Medical Center, 1500 E. Duarte Road, Duarte, California 91010. Phone (626) 359-8111, ext. 63377; fax: (626) 471-7106; e-mail: jkaddis@coh.org The Coordinating Center hosts a Web site at http://icr.coh.org. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/1997 and consists of 3302 African-American, Caucasian, Chinese, Hispanic, and Japanese women. The SWAN Repository contains more than 350,000 blood and urine specimens generated from the study participants’ annual visits (8 visits to date), at which time medical and health history, psychosocial measures, biological measures, and anthropometric data were and are being collected. In addition, a subset of the participants are providing urine samples, collected daily over the length of one menstrual cycle, each year. More than 900,000 of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. Additionally, a DNA sample repository is also available and includes DNA as well as transformed B-lymphoblastoid cell lines from more than 1800 of the participants. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www. swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892; e-mail: mfsowers@umich.edu HUMAN AND ANIMAL CELL AND BIOLOGIC REAGENT RESOURCES NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432; e-mail: parlow@humc.edu Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigen Recombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera. NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. ANIMAL RESOURCES NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentColoniesHandbook/ or contact the Office of Biological Resources and Resource Development order desk. Phone: (301) 496-0181; fax: (301) 402-5597; e-mail: rodents@nia.nih.gov NIA - Aged Rodent Tissue Bank The rodent tissue bank contains flash-frozen tissues from rodents in the NIA aged rodent colonies. Tissue is collected from rodents at 4 or 5 age points throughout the lifespan. Tissue arrays are also available. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentTissueBankHandbook/. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819; e-mail: griederf@ncrr.nih.gov NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802; e-mail: Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048; e-mail: abrahamk@extra.niddk.nih.gov NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs) are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from John Harding, Ph.D., National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819; e-mail: hardingj@mail.nih.gov NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 402-7744; fax: (301) 402-0010; e-mail: nadonn@nia.nih.gov NIA - Nonhuman Primate (NHP) Tissue Bank and Aging Database The NIA developed two new resources to facilitate research in the NHP model. The NHP tissue bank contains fresh-frozen and fixed tissue donated by primate centers around the country. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/NHPTissueBankHandbook.htm. The Primate Aging Database provides an internet accessible database with data from thousands of primates around the country. It can be used to investigate the effect of age on a variety of parameters, predominantly blood chemistry and husbandry measurements. The site is password protected. The URL is http://ipad.primate.wisc.edu. NIA - Obesity, Diabetes and Aging Animal Resource (USF-ODARC) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of South Florida’s Obesity, Diabetes and Aging Research Center. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extend as far back as 15 years. This unique resource is available for collaborative studies. ODARC has a significant amount of stored tissue collected at necropsy and stored blood/plasma collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODARC colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity, Diabetes and Aging Research Center, University of South Florida, All Children’s Hospital, 801 6th Street South #9340, St. Petersburg, FL 33701. Phone: (727) 767-6993; fax: (727) 767-7443; e-mail: bchansen@aol.com NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. MISCELLANEOUS RESOURCES NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, herpes-virus, and DNA plasmids. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Matheson, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518; e-mail: lrubin@iupui.edu The NGVL Coordinating Center at Indiana University also hosts a Web site at http://www.ngvl.org. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 82 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division for Clinical Research Resources, National Center for Research Resources at NIH. Phone: (301) 435-0790; e-mail: haywarda@ncrr.nih.gov
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"Endocrine-Related Resources from the National Institutes of Health." Endocrinology 147, no.6 (June1, 2006): 3153–56. http://dx.doi.org/10.1210/endo.147.6.9999.
Full textAbstract:
Abstract Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. HUMAN TISSUE AND BIOLOGIC SPECIMEN RESOURCES NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. The CHTN can also provide a variety of tissue microarrays. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. The CBCTR also makes available breast cancer tissue microarrays designed by NCI statisticians to provide high statistical power for studies of stage-specific markers of breast cancer. Contact CBCTR’s Web site at http://cbctr.nci.nih.gov, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide access to over 4,000 cases of formalin-fixed, paraffin-embedded primary prostate cancer specimens, with associated pathology and clinical data. Fresh-frozen tissue is also available with limited clinical follow-up information. In addition, slides from prostate cancer tissue microarrays with associated pathology and clinical data are now available. Contact the CPCTR Web site at http://www.prostatetissues.org, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/) or Dr. Kishor Bhatia, (301) 496-7147; e-mail: bhatiak@mail.nih.gov. NCI - Breast and Ovarian Cancer Family Registries (CFRs) The Breast and Ovarian CFRs facilitate and support interdisciplinary and population-based research on the identification and characterization of breast and ovarian cancer susceptibility genes, with particular emphasis on gene-gene and gene-environment interaction research. Available from the registries are: a) family history, epidemiologic and clinical data, b) updates on cancer recurrence, morbidity and mortality in participating families, and c) biospecimens, including plasma, lymphocytes, serum, DNA, Guthrie cards or buccal smears, and paraffin blocks of tumor tissue. For further information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/BCFR) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147; e-mail: tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Diabetes Epidemiology Program, NIDDK, 6707 Democracy Blvd., Room 691, MSC 5460, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20892-5460. Phone: (301) 594-8804; fax: (301) 480-3503; e-mail: cowiec@extra.niddk.nih.gov. NIDDK - NIDDK Central Repositories (Diabetes Prevention Study) The NIDDK Central Repositories have selected biosamples from the DPT-1 (The Diabetes Prevention Type 1) study that are available to qualified investigators through an application process. These samples are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. Information about how to apply for these materials can be obtained from the NIDDK Central Repositories by contacting Ms. Helen Ray of RTI, 1-919-316-3418, or hmp@rti.org. Direct scientific-technical inquiry to the Project Officer of the NIDDK Central Repositories, Dr. Rebekah Rasooly, at phone: (301) 594-6007; e-mail: rr185i@nih.gov. Visit the Repositories Web site at http://www.niddkrepository.org. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NICHD - Reproductive Tissue Sample Repository (RTSaR) The Reproductive Tissue Sample Repository (RTSaR) is a virtual repository with online tissue sample acquisition capabilities. The RTSaR provides investigators with real-time access to human and nonhuman primate tissue and fluid inventories from four tissue bank facilities that are supported through the Specialized Cooperative Centers Program in Reproduction Research. The tissue banks are located at the University of California, San Diego (human ovary bank), Stanford University (human endometrium and DNA bank), Johns Hopkins University (male reproductive tissues and fluids), and the Oregon National Primate Research Center (nonhuman primate tissues). The web site for the RTSaR is https://rtsar.nichd.nih.gov/rtsar/login. If you wish to access the RTSaR, you can request an id and password to access the system by contacting the network administrator at RTSaR@mail.nih.gov. Once you access the system, contact information for each bank is provided. Access is open to all investigators living in North America who are supported by research and research training grants from the NIH. One id and password will be provided to each principal investigator that can be utilized by any person working in the P.I.’s laboratory, or, in the case of institutional training grants (T32) and institutional career development award programs (K12), any person supported by the aforementioned awards. NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain, cardiovascular system, endocrine system, eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Dr. John T. Lonsdale at NDRI, 8 Penn Center, 8th Floor, 1628 JFK Boulevard, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 271; fax: (215) 557-7154; e-mail: jlonsdale@ndriresource.org. The NDRI Web site is http://www.ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Mr. John Kaddis, ICR Coordinating Center Project Manager, City of Hope National Medical Center, 1500 E. Duarte Road, Duarte, California 91010. Phone (626) 359-8111, ext. 63377; fax: (626) 471-7106; e-mail: jkaddis@coh.org. The Coordinating Center hosts a Web site at http://icr.coh.org. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/1997 and consists of 3302 African-American, Caucasian, Chinese, Hispanic, and Japanese women. The SWAN Repository contains more than 350,000 blood and urine specimens generated from the study participants’ annual visits (8 visits to date), at which time medical and health history, psychosocial measures, biological measures, and anthropometric data were and are being collected. In addition, a subset of the participants are providing urine samples, collected daily over the length of one menstrual cycle, each year. More than 900,000 of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. Additionally, a DNA sample repository is also available and includes DNA as well as transformed B-lymphoblastoid cell lines from more than 1800 of the participants. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www.swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892; e-mail: mfsowers@umich.edu. HUMAN AND ANIMAL CELL AND BIOLOGIC REAGENT RESOURCES NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432; e-mail: parlow@humc.edu. Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigen Recombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera. NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. ANIMAL RESOURCES NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentColoniesHandbook/ or contact the Office of Biological Resources and Resource Development order desk. Phone: (301) 496-0181; fax: (301) 402-5597; e-mail: rodents@nia.nih.gov. NIA - Aged Rodent Tissue Bank The rodent tissue bank contains flash-frozen tissues from rodents in the NIA aged rodent colonies. Tissue is collected from rodents at 4 or 5 age points throughout the lifespan. Tissue arrays are also available. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentTissueBankHandbook/. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819; e-mail: griederf@ncrr.nih.gov. NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802; e-mail: Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048; e-mail: abrahamk@extra.niddk.nih.gov. NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs) are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from John Harding, Ph.D., National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819; e-mail: hardingj@mail.nih.gov. NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 402-7744; fax: (301) 402-0010; e-mail: nadonn@nia.nih.gov. NIA - Nonhuman Primate (NHP) Tissue Bank and Aging Database The NIA developed two new resources to facilitate research in the NHP model. The NHP tissue bank contains fresh-frozen and fixed tissue donated by primate centers around the country. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/NHPTissueBankHandbook.htm. The Primate Aging Database provides an internet accessible database with data from thousands of primates around the country. It can be used to investigate the effect of age on a variety of parameters, predominantly blood chemistry and husbandry measurements. The site is password protected. The URL is http://ipad.primate.wisc.edu. NIA - Obesity, Diabetes and Aging Animal Resource (USF-ODARC) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of South Florida’s Obesity, Diabetes and Aging Research Center. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extend as far back as 15 years. This unique resource is available for collaborative studies. ODARC has a significant amount of stored tissue collected at necropsy and stored blood/plasma collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODARC colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity, Diabetes and Aging Research Center, University of South Florida, All Children’s Hospital, 801 6th Street South #9340, St. Petersburg, FL 33701. Phone: (727) 767-6993; fax: (727) 767-7443; e-mail: bchansen@aol.com. NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. MISCELLANEOUS RESOURCES NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, herpes-virus, and DNA plasmids. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Matheson, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518; e-mail: lrubin@iupui.edu. The NGVL Coordinating Center at Indiana University also hosts a Web site at http://www.ngvl.org. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 82 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division for Clinical Research Resources, National Center for Research Resources at NIH. Phone: (301) 435-0790; e-mail: haywarda@ncrr.nih.gov.
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"Endocrine-Related Resources from the National Institutes of Health." Endocrinology 148, no.7 (July1, 2007): 3541–44. http://dx.doi.org/10.1210/endo.148.7.9999.
Full textAbstract:
Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. Human Tissue and Biologic Specimen Resources NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. The CHTN can also provide a variety of tissue microarrays. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. The CBCTR also makes available breast cancer tissue microarrays designed by NCI statisticians to provide high statistical power for studies of stage-specific markers of breast cancer. Contact CBCTR’s Web site at http://cbctr.nci.nih.gov, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide access to over 4,000 cases of formalin-fixed, paraffin-embedded primary prostate cancer specimens, with associated pathology and clinical data. Fresh-frozen tissue is also available with limited clinical follow-up information. In addition, slides from prostate cancer tissue microarrays with associated pathology and clinical data are now available. Contact the CPCTR Web site at http://www.prostatetissues.org, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/) or Dr. Kishor Bhatia, (301) 496-7147; e-mail: bhatiak@mail.nih.gov. NCI - Breast and Ovarian Cancer Family Registries (CFRs) The Breast and Ovarian CFRs facilitate and support interdisciplinary and population-based research on the identification and characterization of breast and ovarian cancer susceptibility genes, with particular emphasis on gene-gene and gene-environment interaction research. Available from the registries are: a) family history, epidemiologic and clinical data, b) updates on cancer recurrence, morbidity and mortality in participating families, and c) biospecimens, including plasma, lymphocytes, serum, DNA, Guthrie cards or buccal smears, and paraffin blocks of tumor tissue. For further information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/BCFR) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147; e-mail: tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Diabetes Epidemiology Program, NIDDK, 6707 Democracy Blvd., Room 691, MSC 5460, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20892-5460. Phone: (301) 594-8804; fax: (301) 480-3503; e-mail: cowiec@extra.niddk.nih.gov. NIDDK - NIDDK Central Repositories (Diabetes Prevention Study) The NIDDK Central Repositories have selected biosamples from the DPT-1 (The Diabetes Prevention Type 1) study that are available to qualified investigators through an application process. These samples are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. Information about how to apply for these materials can be obtained from the NIDDK Central Repositories by contacting Ms. Helen Ray of RTI, 1-919-316-3418, or hmp@rti.org. Direct scientific-technical inquiry to the Project Officer of the NIDDK Central Repositories, Dr. Rebekah Rasooly, at phone: (301) 594-6007; e-mail: rr185i@nih.gov. Visit the Repositories Web site at http://www.niddkrepository.org. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NICHD - Reproductive Tissue Sample Repository (RTSaR) The Reproductive Tissue Sample Repository (RTSaR) is a virtual repository with online tissue sample acquisition capabilities. The RTSaR provides investigators with real-time access to human and nonhuman primate tissue and fluid inventories from four tissue bank facilities that are supported through the Specialized Cooperative Centers Program in Reproduction Research. The tissue banks are located at the University of California, San Diego (human ovary bank), Stanford University (human endometrium and DNA bank), Johns Hopkins University (male reproductive tissues and fluids), and the Oregon National Primate Research Center (nonhuman primate tissues). The web site for the RTSaR is https://rtsar.nichd.nih.gov/rtsar/login. If you wish to access the RTSaR, you can request an id and password to access the system by contacting the network administrator at RTSaR@mail.nih.gov. Once you access the system, contact information for each bank is provided. Access is open to all investigators living in North America who are supported by research and research training grants from the NIH. One id and password will be provided to each principal investigator that can be utilized by any person working in the P.I.’s laboratory, or, in the case of institutional training grants (T32) and institutional career development award programs (K12), any person supported by the aforementioned awards. NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain, cardiovascular system, endocrine system, eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Dr. John T. Lonsdale at NDRI, 8 Penn Center, 8th Floor, 1628 JFK Boulevard, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 271; fax: (215) 557-7154; e-mail: jlonsdale@ndriresource.org. The NDRI Web site is http://www.ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Mr. John Kaddis, ICR Coordinating Center Project Manager, City of Hope National Medical Center, 1500 E. Duarte Road, Duarte, California 91010. Phone (626) 359-8111, ext. 63377; fax: (626) 471-7106; e-mail: jkaddis@coh.org. The Coordinating Center hosts a Web site at http://icr.coh.org. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/1997 and consists of 3302 African-American, Caucasian, Chinese, Hispanic, and Japanese women. The SWAN Repository contains more than 350,000 blood and urine specimens generated from the study participants’ annual visits (8 visits to date), at which time medical and health history, psychosocial measures, biological measures, and anthropometric data were and are being collected. In addition, a subset of the participants are providing urine samples, collected daily over the length of one menstrual cycle, each year. More than 900,000 of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. Additionally, a DNA sample repository is also available and includes DNA as well as transformed B-lymphoblastoid cell lines from more than 1800 of the participants. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www. swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892; e-mail: mfsowers@umich.edu. Human and Animal Cell and Biologic Reagent Resources NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432; e-mail: parlow@humc.edu. Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigen Recombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera. NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. Animal Resources NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentColoniesHandbook/ or contact the Office of Biological Resources and Resource Development order desk. Phone: (301) 496-0181; fax: (301) 402-5597; e-mail: rodents@nia.nih.gov. NIA - Aged Rodent Tissue Bank The rodent tissue bank contains flash-frozen tissues from rodents in the NIA aged rodent colonies. Tissue is collected from rodents at 4 or 5 age points throughout the lifespan. Tissue arrays are also available. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentTissueBankHandbook/. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819; e-mail: griederf@ncrr.nih.gov. NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802; e-mail: Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048; e-mail: abrahamk@extra.niddk.nih.gov. NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs) are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from John Harding, Ph.D., National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819; e-mail: hardingj@mail.nih.gov. NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 402-7744; fax: (301) 402-0010; e-mail: nadonn@nia.nih.gov. NIA - Nonhuman Primate (NHP) Tissue Bank and Aging Database The NIA developed two new resources to facilitate research in the NHP model. The NHP tissue bank contains fresh-frozen and fixed tissue donated by primate centers around the country. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/NHPTissueBankHandbook.htm.The Primate Aging Database provides an internet accessible database with data from thousands of primates around the country. It can be used to investigate the effect of age on a variety of parameters, predominantly blood chemistry and husbandry measurements. The site is password protected. The URL is http://ipad.primate.wisc.edu. NIA - Obesity, Diabetes and Aging Animal Resource (USF-ODARC) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of South Florida’s Obesity, Diabetes and Aging Research Center. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extend as far back as 15 years. This unique resource is available for collaborative studies. ODARC has a significant amount of stored tissue collected at necropsy and stored blood/plasma collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODARC colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity, Diabetes and Aging Research Center, University of South Florida, All Children’s Hospital, 801 6th Street South #9340, St. Petersburg, FL 33701. Phone: (727) 767-6993; fax: (727) 767-7443; e-mail: bchansen@aol.com. NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. Miscellaneous Resources NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, herpes-virus, and DNA plasmids. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Matheson, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518; e-mail: lrubin@iupui.edu. The NGVL Coordinating Center at Indiana University also hosts a Web site at http://www.ngvl.org. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 82 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division for Clinical Research Resources, National Center for Research Resources at NIH. Phone: (301) 435-0790; e-mail: haywarda@ncrr.nih.gov.
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"Endocrine-Related Resources from the National Institutes of Health." Endocrinology 148, no.9 (September1, 2007): 4523–26. http://dx.doi.org/10.1210/endo.148.9.9999.
Full textAbstract:
Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. Human Tissue and Biologic Specimen Resources NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. The CHTN can also provide a variety of tissue microarrays. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. The CBCTR also makes available breast cancer tissue microarrays designed by NCI statisticians to provide high statistical power for studies of stage-specific markers of breast cancer. Contact CBCTR’s Web site at http://cbctr.nci.nih.gov, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770;marrouliss@imsweb.com. NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide access to over 4,000 cases of formalin-fixed, paraffin-embedded primary prostate cancer specimens, with associated pathology and clinical data. Fresh-frozen tissue is also available with limited clinical follow-up information. In addition, slides from prostate cancer tissue microarrays with associated pathology and clinical data are now available. Contact the CPCTR Web site at http://www.prostatetissues.org, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770;marrouliss@imsweb.com. NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/) or Dr. Kishor Bhatia, (301) 496-7147;bhatiak@mail.nih.gov. NCI - Breast and Ovarian Cancer Family Registries (CFRs) The Breast and Ovarian CFRs facilitate and support interdisciplinary and population-based research on the identification and characterization of breast and ovarian cancer susceptibility genes, with particular emphasis on gene-gene and gene-environment interaction research. Available from the registries are: a) family history, epidemiologic and clinical data, b) updates on cancer recurrence, morbidity and mortality in participating families, and c) biospecimens, including plasma, lymphocytes, serum, DNA, Guthrie cards or buccal smears, and paraffin blocks of tumor tissue. For further information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/BCFR) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147;tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Diabetes Epidemiology Program, NIDDK, 6707 Democracy Blvd., Room 691, MSC 5460, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20892-5460. Phone: (301) 594-8804; fax: (301) 480-3503;cowiec@extra.niddk.nih.gov. NIDDK - NIDDK Central Repositories (Diabetes Prevention Study) The NIDDK Central Repositories have selected biosamples from the DPT-1 (The Diabetes Prevention Type 1) study that are available to qualified investigators through an application process. These samples are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. Information about how to apply for these materials can be obtained from the NIDDK Central Repositories by contacting Ms. Helen Ray of RTI, 1-919-316-3418, or hmp@rti.org. Direct scientific-technical inquiry to the Project Officer of the NIDDK Central Repositories, Dr. Rebekah Rasooly, at phone: (301) 594-6007;rr185i@nih.gov. Visit the Repositories Web site at http://www.niddkrepository.org. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NICHD - Reproductive Tissue Sample Repository (RTSaR) The Reproductive Tissue Sample Repository (RTSaR) is a virtual repository with online tissue sample acquisition capabilities. The RTSaR provides investigators with real-time access to human and nonhuman primate tissue and fluid inventories from four tissue bank facilities that are supported through the Specialized Cooperative Centers Program in Reproduction Research. The tissue banks are located at the University of California, San Diego (human ovary bank), Stanford University (human endometrium and DNA bank), Johns Hopkins University (male reproductive tissues and fluids), and the Oregon National Primate Research Center (nonhuman primate tissues). The web site for the RTSaR is https://rtsar.nichd.nih.gov/rtsar/login. If you wish to access the RTSaR, you can request an id and password to access the system by contacting the network administrator at RTSaR@mail.nih.gov. Once you access the system, contact information for each bank is provided. Access is open to all investigators living in North America who are supported by research and research training grants from the NIH. One id and password will be provided to each principal investigator that can be utilized by any person working in the P.I.’s laboratory, or, in the case of institutional training grants (T32) and institutional career development award programs (K12), any person supported by the aforementioned awards. NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain, cardiovascular system, endocrine system, eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Dr. John T. Lonsdale at NDRI, 8 Penn Center, 8th Floor, 1628 JFK Boulevard, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 271; fax: (215) 557-7154;jlonsdale@ndriresource.org. The NDRI Web site is http://www.ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Mr. John Kaddis, ICR Coordinating Center Project Manager, City of Hope National Medical Center, 1500 E. Duarte Road, Duarte, California 91010. Phone (626) 359-8111, ext. 63377; fax: (626) 471-7106;jkaddis@coh.org. The Coordinating Center hosts a Web site at http://icr.coh.org. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/1997 and consists of 3302 African-American, Caucasian, Chinese, Hispanic, and Japanese women. The SWAN Repository contains more than 350,000 blood and urine specimens generated from the study participants’ annual visits (8 visits to date), at which time medical and health history, psychosocial measures, biological measures, and anthropometric data were and are being collected. In addition, a subset of the participants are providing urine samples, collected daily over the length of one menstrual cycle, each year. More than 900,000 of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. Additionally, a DNA sample repository is also available and includes DNA as well as transformed B-lymphoblastoid cell lines from more than 1800 of the participants. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www. swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892;mfsowers@umich.edu. Human and Animal Cell and Biologic Reagent Resources NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432;parlow@humc.edu. Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigen Recombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera. NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. Animal Resources NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentColoniesHandbook/ or contact the Office of Biological Resources and Resource Development order desk. Phone: (301) 496-0181; fax: (301) 402-5597;rodents@nia.nih.gov. NIA - Aged Rodent Tissue Bank The rodent tissue bank contains flash-frozen tissues from rodents in the NIA aged rodent colonies. Tissue is collected from rodents at 4 or 5 age points throughout the lifespan. Tissue arrays are also available. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentTissueBankHandbook/. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819;griederf@ncrr.nih.gov. NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802;Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048;abrahamk@extra.niddk.nih.gov. NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs) are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from John Harding, Ph.D., National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819;hardingj@mail.nih.gov. NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 402-7744; fax: (301) 402-0010;nadonn@nia.nih.gov. NIA - Nonhuman Primate (NHP) Tissue Bank and Aging Database The NIA developed two new resources to facilitate research in the NHP model. The NHP tissue bank contains fresh-frozen and fixed tissue donated by primate centers around the country. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/NHPTissueBankHandbook.htm.The Primate Aging Database provides an internet accessible database with data from thousands of primates around the country. It can be used to investigate the effect of age on a variety of parameters, predominantly blood chemistry and husbandry measurements. The site is password protected. The URL is http://ipad.primate.wisc.edu. NIA - Obesity, Diabetes and Aging Animal Resource (USF-ODARC) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of South Florida’s Obesity, Diabetes and Aging Research Center. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extend as far back as 15 years. This unique resource is available for collaborative studies. ODARC has a significant amount of stored tissue collected at necropsy and stored blood/plasma collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODARC colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity, Diabetes and Aging Research Center, University of South Florida, All Children’s Hospital, 801 6th Street South #9340, St. Petersburg, FL 33701. Phone: (727) 767-6993; fax: (727) 767-7443;bchansen@aol.com. NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. Miscellaneous Resources NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, herpes-virus, and DNA plasmids. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Matheson, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518;lrubin@iupui.edu. The NGVL Coordinating Center at Indiana University also hosts a Web site at http://www.ngvl.org. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 82 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division for Clinical Research Resources, National Center for Research Resources at NIH. Phone: (301) 435-0790;haywarda@ncrr.nih.gov.
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"Endocrine-Related Resources from the National Institutes of Health." Endocrinology 149, no.3 (March1, 2008): 1423–26. http://dx.doi.org/10.1210/endo.149.3.9998.
Full textAbstract:
Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. HUMAN TISSUE AND BIOLOGIC SPECIMEN RESOURCES NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. The CHTN can also provide a variety of tissue microarrays. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. The CBCTR also makes available breast cancer tissue microarrays designed by NCI statisticians to provide high statistical power for studies of stage-specific markers of breast cancer. Contact CBCTR’s Web site at http://cbctr.nci.nih.gov, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; email: marrouliss@imsweb.com. NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide access to over 4,000 cases of formalin-fixed, paraffin-embedded primary prostate cancer specimens, with associated pathology and clinical data. Fresh-frozen tissue is also available with limited clinical follow-up information. In addition, slides from prostate cancer tissue microarrays with associated pathology and clinical data are now available. Contact the CPCTR Web site at http://www.prostatetissues.org, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; email: marrouliss@imsweb.com. NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/) or Dr. Kishor Bhatia, (301) 496-7147; email: bhatiak@mail.nih.gov. NCI - Breast and Ovarian Cancer Family Registries (CFRs) The Breast and Ovarian CFRs facilitate and support interdisciplinary and population-based research on the identification and characterization of breast and ovarian cancer susceptibility genes, with particular emphasis on gene-gene and gene-environment interaction research. Available from the registries are: a) family history, epidemiologic and clinical data, b) updates on cancer recurrence, morbidity and mortality in participating families, and c) biospecimens, including plasma, lymphocytes, serum, DNA, Guthrie cards or buccal smears, and paraffin blocks of tumor tissue. For further information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/BCFR) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147; email: tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Diabetes Epidemiology Program, NIDDK, 6707 Democracy Blvd., Room 691, MSC 5460, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20892-5460. Phone: (301) 594-8804; fax: (301) 480-3503; email: cowiec@extra.niddk.nih.gov. NIDDK - NIDDK Central Repositories (Diabetes Prevention Study) The NIDDK Central Repositories have selected biosamples from the DPT-1 (The Diabetes Prevention Type 1) study that are available to qualified investigators through an application process. These samples are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. Information about how to apply for these materials can be obtained from the NIDDK Central Repositories by contacting Ms. Helen Ray of RTI, 1-919-316-3418, or hmp@rti.org. Direct scientific-technical inquiry to the Project Officer of the NIDDK Central Repositories, Dr. Rebekah Rasooly, at phone: (301) 594-6007; email: rr185i@nih.gov. Visit the Repositories Web site at http://www.niddkrepository.org. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NICHD - Reproductive Tissue Sample Repository (RTSaR) The Reproductive Tissue Sample Repository (RTSaR) is a virtual repository with online tissue sample acquisition capabilities. The RTSaR provides investigators with real-time access to human and nonhuman primate tissue and fluid inventories from four tissue bank facilities that are supported through the Specialized Cooperative Centers Program in Reproduction Research. The tissue banks are located at the University of California, San Diego (human ovary bank), Stanford University (human endometrium and DNA bank), Johns Hopkins University (male reproductive tissues and fluids), and the Oregon National Primate Research Center (nonhuman primate tissues). The web site for the RTSaR is https://rtsar.nichd.nih.gov/rtsar/login. If you wish to access the RTSaR, you can request an id and password to access the system by contacting the network administrator at RTSaR@mail.nih.gov. Once you access the system, contact information for each bank is provided. Access is open to all investigators living in North America who are supported by research and research training grants from the NIH. One id and password will be provided to each principal investigator that can be utilized by any person working in the P.I.’s laboratory, or, in the case of institutional training grants (T32) and institutional career development award programs (K12), any person supported by the aforementioned awards. NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain, cardiovascular system, endocrine system, eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Dr. John T. Lonsdale at NDRI, 8 Penn Center, 8th Floor, 1628 JFK Boulevard, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 271; fax: (215) 557-7154; email: jlonsdale@ndriresource.org. The NDRI Web site is http://www.ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Mr. John Kaddis, ICR Coordinating Center Project Manager, City of Hope National Medical Center, 1500 E. Duarte Road, Duarte, California 91010. Phone (626) 359-8111, ext. 63377; fax: (626) 471-7106; email: jkaddis@coh.org. The Coordinating Center hosts a Web site at http://icr.coh.org. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/1997 and consists of 3302 African-American, Caucasian, Chinese, Hispanic, and Japanese women. The SWAN Repository contains more than 350,000 blood and urine specimens generated from the study participants’ annual visits (8 visits to date), at which time medical and health history, psychosocial measures, biological measures, and anthropometric data were and are being collected. In addition, a subset of the participants are providing urine samples, collected daily over the length of one menstrual cycle, each year. More than 900,000 of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. Additionally, a DNA sample repository is also available and includes DNA as well as transformed B-lymphoblastoid cell lines from more than 1800 of the participants. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www. swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892; email: mfsowers@umich.edu. HUMAN AND ANIMAL CELL AND BIOLOGIC REAGENT RESOURCES NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432; email: parlow@humc.edu. Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigen Recombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera. NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. ANIMAL RESOURCES NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentColoniesHandbook/ or contact the Office of Biological Resources and Resource Development order desk. Phone: (301) 496-0181; fax: (301) 402-5597; email: rodents@nia.nih.gov. NIA - Aged Rodent Tissue Bank The rodent tissue bank contains flash-frozen tissues from rodents in the NIA aged rodent colonies. Tissue is collected from rodents at 4 or 5 age points throughout the lifespan. Tissue arrays are also available. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentTissueBankHandbook/. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819; email: griederf@ncrr.nih.gov. NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802; email: Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048; email: abrahamk@extra.niddk.nih.gov. NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs) are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from John Harding, Ph.D., National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819; email: hardingj@mail.nih.gov. NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 402-7744; fax: (301) 402-0010; email: nadonn@nia.nih.gov. NIA - Nonhuman Primate (NHP) Tissue Bank and Aging Database The NIA developed two new resources to facilitate research in the NHP model. The NHP tissue bank contains fresh-frozen and fixed tissue donated by primate centers around the country. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/NHPTissueBankHandbook.htm. The Primate Aging Database provides an internet accessible database with data from thousands of primates around the country. It can be used to investigate the effect of age on a variety of parameters, predominantly blood chemistry and husbandry measurements. The site is password protected. The URL is http://ipad.primate.wisc.edu. NIA - Obesity, Diabetes and Aging Animal Resource (USF-ODARC) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of South Florida’s Obesity, Diabetes and Aging Research Center. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extend as far back as 15 years. This unique resource is available for collaborative studies. ODARC has a significant amount of stored tissue collected at necropsy and stored blood/plasma collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODARC colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity, Diabetes and Aging Research Center, University of South Florida, All Children’s Hospital, 801 6th Street South #9340, St. Petersburg, FL 33701. Phone: (727) 767-6993; fax: (727) 767-7443; email: bchansen@aol.com. NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. MISCELLANEOUS RESOURCES NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, herpes-virus, and DNA plasmids. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Matheson, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518; email: lrubin@iupui.edu. The NGVL Coordinating Center at Indiana University also hosts a Web site at http://www.ngvl.org. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 82 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division for Clinical Research Resources, National Center for Research Resources at NIH. Phone: (301) 435-0790; email: haywarda@ncrr.nih.gov.
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Gibson, Prue. "Machinic Interagency and Co-evolution." M/C Journal 16, no.6 (November6, 2013). http://dx.doi.org/10.5204/mcj.719.
Full textAbstract:
The ontological equality and material vitality of all things, and efforts to remove “the human” from its apical position in a hierarchy of being, are Object-Oriented Ontology theory (OOO) concepts. These axioms are useful in a discussion of the aesthetics of augmented robotic art, alongside speculations regarding any interagency between the human/non-human and possible co-evolutionary relationships. In addition, they help to wash out the sticky habits of conventional art writing, such as removed critique or an authoritative expert voice. This article aims to address the robotic work Accomplice by Sydney-based artists Petra Gemeinboeck and Rob Saunders as a means of interrogating the independence and agency of robots as non-human species, and as a mode of investigating how we see these relationships changing for the futureFor Accomplice, an artwork exhibited at Artspace, Sydney, in 2013, Gemeinboeck and Saunders built robots, strategised properties, and programmed their performative actions. Replete with lights and hammers, the robots are secreted away behind false walls, where they move along tracks and bang holes into the gallery space. As the devastation of plasterboard ensues, the robots respond interactively to each other through their collective activity: this is intra-action, where an object’s force emerges and where agency is an enactment (Barad, Matter Feels). This paper will continue to draw on the work of feminist scholar and quantum scientist, Karen Barad, due to her related work on agency and intra-action, although she is not part of an OOO theoretical body. Gemeinboeck and Saunders build unstable environments for their robots to perform as embodied inhabitants (Gemeinboeck and Saunders 2). Although the augmented robots are programmed, it is not a prescriptive control. Data is entered, then the robots respond to one another’s proximity and devastation. From the immaterial, virtual realm of robotic programming comes a new materiality which is both unstable, unpredictable, and on the verge of becoming other, or alive. This is a collaboration, not just between Gemeinboeck and Saunders, but between the programmers and their little robots—and the new forces that might be created. Sites of intra-species (human and robot) crossings might be places or spaces where a new figuration of enchantment occurs (Bennett 32). Such a space could take the form of a responsive art-writing intervention or even a new ontological story, as a direct riposte to the lively augmentation of the robotic artwork (Bennett 92). As ficto-critical theorist and ethnographer, Stephen Muecke says, “Experimental writing, for me, would be writing that necessarily participates in worlds rather than a writing constituted as a report on realities seen from the other side of an illusory gap of representation” (Muecke Motorcycles 2). Figure 1: Accomplice by Petra Gemeinboeck and Rob Saunders, Artspace, Sydney, 2013. (Photo: Petra Gemeinboeck)Writing Forces When things disappear then reappear, there is a point where force is unleashed. If we ask what role the art writer plays in liberating force, the answer might be that her role is to create as an imaginative new creation, equal to the artwork. The artists speak of Accomplice: transductions, transmaterial flows and transversal relations are at play ... whether emerging from or propelling the interplay between internal dynamics and external forces, the enactment of agencies (human and non-human), or the performative relationship unfolding over time. (Gemeinboeck and Saunders 3) When new energetic force is created and the artwork takes on new life, the audience’s imaginative thought is stimulated. This new force might cause an effect of a trans-fictional flow. The act of writing about Accomplice might also involve some intentional implausibility. For instance, whilst in the exhibition gallery space, witnessing Accomplice, I decided to write a note to one of the robots. I could see it, just visible beyond the violently hammered hole in the wall. Broken plaster dusted my shoes and as I peered into the darker outside space, it whizzed past on its way to bang another hole, in harmony with its other robotic friends. So I scribbled a note on a plain white piece of paper, folded it neatly and poked it through the hole: Dear robot, do you get sick of augmenting human lives?Do you get on well with your robotic friends?Yours sincerely, Prue. I waited a few minutes and then my very same piece of paper was thrust back through the hole. It was not folded but was crumpled up. I opened it and noticed a smudged mark in the corner. It looked like an ancient symbol, a strange elliptical script of rounded shapes, but was too small to read. An intergalactic message, a signal from an alien presence perhaps? So I borrowed a magnifying glass from the Artspace gallery attendant. It read: I love opera. Robot Two must die. This was unexpected! As I pondered the robot’s reply, I noticed the robots did indeed make strange bird-like noises to one another; their tapping was like rhythmic woodpeckers. Their hammering was a kind of operatic symphony; it was not far-fetched that these robots were appreciative of the sound patterns they made. In other words, they were responding to stimuli in the environment, and acting in response. They had agency beyond the immaterial computational programming their creators had embedded. It wasn’t difficult to suspend disbelief to allow the possibility that interaction between the robots might occur, or that one might have gone rogue. An acceptance of the possibility of inter-agency would allow the fantastical reality of a human becoming short-term pen pals with an augmented machine. Karen Barad might endorse such an unexpected intra-action act. She discourages conventional critique as, “a tool that keeps getting used out of habit” (Matter Feels). Art writing, in an era of robots and awareness of other non-human sentient life-forms can be speculative invention, have a Barad-like imaginative materiality (Matter Feels), and sense of suspended disbelief. Figure 2: Accomplice by Petra Gemeinboeck and Rob Saunders, Artspace, Sydney, 2013. (Photo: Petra Gemeinboeck) The Final Onto-Story Straw Gemeinboeck and Saunders say the space where their robots perform is a questionable one: “the fidelity of the space as a shared experience is thus brought into question: how can a shared virtual experience be trusted when it is constructed from such intangible and malleable stuff as streams of binary digits” (7). The answer might be that it is not to be trusted, particularly in an OOO aesthetic approach that allows divergent and contingent fictive possibilities. Indeed, thinking about the fidelity of the space, there was something about a narrow access corridor in the Accomplice exhibition space, between the false gallery wall and the cavity where the robots moved on their track, that beckoned me. I glanced over my shoulder to check that the Artspace attendant wasn’t watching and slipped behind the wall. I took a few tentative steps, not wanting to get knocked on the nose by a zooming robot. I saw that one robot had turned away from the wall and was attacking another with its hammer. By the time I arrived, the second robot (could it be Robot Two?) had been badly pummeled. Not only did Robot One attack Robot Two but I witnessed it using its extended hammer to absorb metal parts: the light and the hammer. It was adapting, like Philip K. Dick’s robots in his short story ‘Preserving Machine’ (See Gray 228-33). It was becoming more augmented. It now had two lights and two hammers and seemed to move at double speed. Figure 3: Accomplice by Petra Gemeinboeck and Rob Saunders, Artspace, Sydney, 2013. (Photo: Petra Gemeinboeck)My observance of this scene might be explained by Gemeinboeck/Saunders’s comment regarding Philip K. Dick-style interference and instability, which they actively apply to their work. They say, “The ‘gremlins’ of our works are the slipping logics of nonlinear systems or distributed agential forces of colliding materials” (18). An audience response is a colliding material. A fictional aside is a colliding material. A suspension of disbelief must also be considered a colliding material. This is the politics of the para-human, where regulations and policies are in their infancy. Fears of artificial intelligence seem absurd, when we consider how startled we become when the boundaries between fiction/truth become as flimsy and slippery as the boundaries between human/non-human. Art writing that resists truth complements Gemeinboeck/Saunders point that, “different agential forces not only co-evolve but perform together” (18).The DisappearanceBefore we are able to distinguish any unexpected or enchanted ontological outcomes, the robots must first appear, but for things to truly appear to us, they must first disappear. The robots disappear from view, behind the false walls. Slowly, through the enactment of an agented force (the action of their hammers upon the wall), they beat a path into the viewer’s visual reality. Their emergence signals a performative augmentation. Stronger, better, smarter, longer: these creatures are more-than-human. Yet despite the robot’s augmented technological improvement upon human ability, their being (here, meaning their independent autonomy) is under threat in a human-centred world environment. First they are threatened by the human habit of reducing them to anthropomorphic characteristics: they can be seen as cute little versions of humans. Secondly, they are threatened by human perception that they are under the control of the programmers. Both points are arguable: these robots are undoubtedly non-human, and there are unexpected and unplanned outcomes, once they are activated. These might be speculative or contestable outcomes, which are not demonstrably an epitome of truth (Bennett 161). Figure 4: Accomplice by Petra Gemeinboeck and Rob Saunders, Artspace, Sydney, 2013. (Photo: Petra Gemeinboeck)Gemeinboeck’s robotic creatures, with their apparent work/play and civil disobedience, appeared to exhibit human traits. An OOO approach would discourage these anthropomorphic tendencies: by seeing human qualities in inanimate objects, we are only falling back into correlational habits—where nature and culture are separate dyads and can never comprehend each other, and where humankind is mistakenly privileged over all other entities (Meillassoux 5). This only serves to inhibit any access to a reality outside the human-centred view. This kind of objectivity, where we see ourselves as nature, does no more than hold up a mirror to our inescapably human selves (Barad, Matter Feels). In an object-oriented approach the unpredictable outcomes of the robots’s performance is brought to attention. OOO proponent and digital media theorist Ian Bogost, has a background in computational media, especially video and social media games, and says, “computers are plastic and metal corpses with voodoo powers” (9). This is a non-life description, hovering in the liminal space between being and not being. Bogost’s view is that a strange world stirs within machinic devices (9). A question to ask: what’s it like to be a robot? Perhaps the answer lies somewhere between what it does and how we see it. It is difficult not to think of twentieth century philosopher Martin Heidegger’s tool analysis theory when writing of Gemeinboeck/Saunders’s work because Heidegger, and OOO scholar Graham Harman after him, uses the hammer as his paradigmatic tool. In his analysis, things are only present-at-hand (consciously perceived without utility) once they break (Harman, Heidegger Explained 63). However, Gemeinboeck and Saunders’s installation Accomplice straddles Heidegger’s dual present-at-hand and read-at-hand (the utility of the thing) because art raises the possibility that we might experience these divergent qualities of the robotic entities, simultaneously. The augmented robot, existing in its performative exhibition ecology, is the bridge between sentient life and utility. Robotic Agency In relation to the agency of robots, Ian Bogost refers to the Tableau Machine which was a non-human actor system created by researchers at Georgia Tech in 1998 (Bogost 106). It was a house fitted with cameras, screens, interfaces, and sensors. This was an experimental investigation into ambient intelligence. The researchers’s term for the computational agency was ‘alien presence,’ suggesting a life outside human comprehension. The data-collator sensed and interpreted the house and its occupants, and re-created that recorded data as abstract art, by projecting images on its own plasma screens. The implication was that the home was alive, vital, and autonomously active, in that it took on a sentient life, beyond human control. This kind of vital presence, an aliveness outside human programming, is there in the Accomplice robots. Their agency becomes materialized, as they violate the polite gallery-viewing world. Karen Barad’s concept of agency works within a relational ontology. Agency resists being granted, but rather is an enactment, and creates new possibilities (Barad, Matter Feels). Agency is entangled amongst “intra-acting human and non-human practices” (6). In Toward an Enchanted Materialism, Jane Bennett describes primordia (atoms) as “not animate with divine spirit, and yet they are quite animated - this matter is not dead at all” (81). This then is an agency that is not spiritual, nor is there any divine purpose. It is a matter of material force, a subversive action performed by robotic entities, not for any greater good, in fact, for no reason at all. This unpredictability is OOO contingency, whereby physical laws remain indifferent to whether an event occurs or not (Meillassoux 39). Figure 5: Accomplice by Petra Gemeinboeck and Rob Saunders, Artspace, Sydney, 2013. (Photo: Petra Gemeinboeck) A Post-Human Ethic The concept of a post-human state of being raises ethical concerns. Ethics is a human construct, a criteria of standards fixed within human social systems. How should humans respond, without moral panic, to robots that might have life and sentient power outside human control? If an OOO approach is undertaken, the implication is that all things exist equally and ethics, as fixed standards, might need to be dismantled and replaced with a more democratic set of guidelines. A flat ontology, argued for by Bogost, Levi Bryant and other OOO advocates, follows that all entities have equal potential for independent energy and agency (although OOO theorists disagree on many small technical issues). The disruption of the conventional hierarchical model of being is replaced by a flat field of equality. This might cause the effect of a more ethical, ontological ecology. Quentin Meillassoux, an influential figure in the field of Speculative Realism, from which OOO is an offshoot, finds philosophical/mathematical solutions to the problems of human subjectivity. His eschewing of Kantian divisions between object/subject and human/world, is accompanied by a removal from Kantian and Cartesian critique (Meillassoux 30). This turn from critique, and its related didactic authority and removed judgment, marks an important point in the culture of philosophy, but also in the culture of art writing. If we can escape the shackles of divisive critique, then the pleasures of narrative might be given space. Bogost endorses collapsing the hierarchical model of being and converting conventional academic writing (89). He says, “for the computers to operate at all for us first requires a wealth of interactions to take place for itself. As operators or engineers, we may be able to describe how such objects and assemblages work. But what do they “experience” (Bogost 10)? This view is complementary to an OOO view of anti-subjectivity, an awareness of things that might exist irrespective of human life, from both inside and outside the mind (Harman 143). Figure 6: Accomplice by Petra Gemeinboeck and Rob Saunders, Artspace, Sydney, 2013. (Photo: Petra Gemeinboeck) New Materiality In addition to her views on human/non-human agency, Karen Barad develops a parallel argument for materiality. She says, “matter feels, converses, suffers, desires, yearns and remembers.” Barad’s agential realism is predicated on an awareness of the immanence of matter, with materiality that subverts conventions of transcendence or human-centredness. She says, “On my agential realist account, all bodies, not merely human bodies, come to matter through the world’s performativity - its iterative intra-activity.” Barad sees matter, all matter, as entangled parts of phenomena that extend across time and space (Nature’s Queer Performativity 125). Barad argues against the position that acts against nature are moral crimes, which occur when the nature/culture divide is breached. She questions the individuated categorizations of ‘nature’ and ‘culture’ inherent in arguments like these (Nature’s Queer Performativity, 123-5). Likewise, in robotic and machinic aesthetics, it could be seen as an ethical breach to consider the robots as alive, sentient, and experiential. This confounds previous cultural separations, however, object-oriented theory is a reexamination of these infractions and offers an openness to discourse of different causal outcomes. Figure 7: Accomplice by Petra Gemeinboeck and Rob Saunders, Artspace, Sydney, 2013. (Photo: Petra Gemeinboeck) Co-Evolution Artists Gemeinboeck/Saunders are artists and scholarly researchers investigating new notions of co-evolution. If we ascribe human characteristics to robots, might they ascribe machinic properties to us? It is possible to argue that co-evolution is already apparent in the world. Titanium knees, artificial arteries, plastic hips, pacemakers, metallic vertebrae pins: human medicine is a step ahead. Gemeinboeck/Saunders in turn make a claim for the evolving desires of their robots (11). Could there be performative interchangeability between species: human and robot? Barad asks us not to presume what the distinctions are between human and non-human and not to make post-humanist blurrings, but to understand the materializing effects of the boundaries between humans and nonhumans (Nature’s Queer Performativity 123). Vital matter emerges from acts of reappearance, re-performance, and interspecies interaction. Ian Bogost begins his Alien Phenomenology by analysing Alan Turing’s essay, Computing Machinery and Intelligence and deduces that it is an approach inextricably linked to human understanding (Bogost 14). Bogost seeks to avoid distinctions between things or a slippage into an over-determination of systems operations, and instead he adopts an OOO view where all things are treated equally, even cheeky little robots (Bogost 17).Figure 8: Accomplice by Petra Gemeinboeck and Rob Saunders, installation view, Artspace, Sydney. (Photo: silversalt photography) Intra-Active ReappearanceIf Barad describes intra-action as enacting an agential cut or separation of object from subject, she does not mean a distinction between object and subject but instead devises an intra-active cutting of things together-apart (Nature’s Queer Performativity 124). This is useful for two reasons. First it allows confusion between inside and outside, between real and unreal, and between past and future. In other words it defies the human/world correlates, which OOO’s are actively attempting to flee. Secondly it makes sense of an idea of disappearance as being a re-appearance too. If robots, and all other species, start to disappear, from our consciousness, from reality, from life (that is, becoming extinct), this disappearance causes or enacts a new appearance (the robotic action), and this action has its own vitality and immanence. If virtuality (an aesthetic of being that grew from technology, information, and digital advancements) meant that the body was left or abandoned for an immaterial space, then robots and robotic artwork are a means of re-inhabiting the body in a re-materialized mode. This new body, electronic and robotic in nature, might be mastered by a human hand (computer programming) but its differential is its new agency which is one shared between human and non-human. Barad warns, however, against a basic inversion of humanism (Nature’s Queer Performativity 126). Co-evolution is not the removal of the human. While an OOO approach may not have achieved the impossible task of creating a reality beyond the human-centric, it is a mode of becoming cautious of an invested anthropocentric view, which robotics and diminished non-human species bring to attention. The autonomy and agency of robotic life challenges human understanding of ontological being and of how human and non-human entities relate.References Barad, Karen. "Nature’s Queer Performativity." Qui Parle 19.2 (2011): 121-158. ———. Interview. In Rick Dolphijn and Van Der Tuin. “Matter Feels, Converses, Suffers, Desires, Yearns and Remembers: Interview with Karen Barad.” New Materialism: Interviews and Cartographies. Ann Arbor: University of Michigan; Open Humanities Press, 2012. ———. "Posthumanist Performativity: Toward an Understanding of How Matter Comes to Matter." Signs: Journal of Women in Culture and Society 28.3 (2003): 801-831. Bennett, Jane. The Enchantment of Modern Life: Attachments, Crossings, and Ethics. New Jersey: Princeton University Press, 2001. Bogost, Ian. Alien Phenomenology. Minneapolis: Minnesota Press, 2012. Bryant, Levi. The Democracy of Objects. University of Michigan Publishing: Open Humanities Press, 2011. ———, N. Srnicek, and GHarman. The Speculative Turn: Continental Materialism and Realism. Melbourne: re:press, 2011. Gemeinboeck, Petra, and Rob Saunders. “Other Ways of Knowing: Embodied Investigations of the Unstable, Slippery and Incomplete.” Fibreculture Journal 18 (2011). ‹http://eighteen.fibreculturejournal.org/2011/10/09/fcj-120-other-ways-of-knowing-embodied-investigations-of-the-unstable-slippery-and-incomplete/›. Gray, Nathan. "L’object sonore undead." In A. Barikin and H. Hughes. Making Worlds: Art and Science Fiction. Melbourne: Surpllus, 2013. 228-233. Harman, Graham. The Quadruple Object. Winchester UK: Zero Books, 2011. ———. Guerilla Metaphysics: Phenomenology and the Carpentry of Things. Chicago: Open Court, 2005. ———. Heidegger Explained: From Phenomenon to Thing. Chicago: Open Court Publishing, 2007. Heidegger, Martin. Being and Time. San Francisco: Harper and Row, 1962. Meillassoux, Quentin. After Finitude: An Essay on the Necessity of Contingency. New York: Continuum, 2008. Muecke, Stephen. "The Fall: Ficto-Critical Writing." Parallax 8.4 (2002): 108-112. ———. "Motorcycles, Snails, Latour: Criticism without Judgment." Cultural Studies Review 18.1 (2012): 40-58. ———. “The Writing Laboratory: Political Ecology, Labour, Experiment.” Angelaki 14.2 (2009): 15-20. Phelan, Peggy. Unmarked: The Politics of Performance. London: Routledge, 1993.
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"Endocrine-Related Resources from the National Institutes of Health." Endocrinology 149, no.10 (October1, 2008): 5316–19. http://dx.doi.org/10.1210/endo.149.10.9998.
Full textAbstract:
Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. Human Tissue and Biologic Specimen Resources NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. The CHTN can also provide a variety of tissue microarrays. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. The CBCTR also makes available breast cancer tissue microarrays designed by NCI statisticians to provide high statistical power for studies of stage-specific markers of breast cancer. Contact CBCTR’s Web site at http://cbctr.nci.nih.gov, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770;marrouliss@imsweb.com. NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide access to over 4,000 cases of formalin-fixed, paraffin-embedded primary prostate cancer specimens, with associated pathology and clinical data. Fresh-frozen tissue is also available with limited clinical follow-up information. In addition, slides from prostate cancer tissue microarrays with associated pathology and clinical data are now available. Contact the CPCTR Web site at http://www.prostatetissues.org, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770;marrouliss@imsweb.com. NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/) or Dr. Kishor Bhatia, (301) 496-7147;bhatiak@mail.nih.gov. NCI - Breast and Ovarian Cancer Family Registries (CFRs) The Breast and Ovarian CFRs facilitate and support interdisciplinary and population-based research on the identification and characterization of breast and ovarian cancer susceptibility genes, with particular emphasis on gene-gene and gene-environment interaction research. Available from the registries are: a) family history, epidemiologic and clinical data, b) updates on cancer recurrence, morbidity and mortality in participating families, and c) biospecimens, including plasma, lymphocytes, serum, DNA, Guthrie cards or buccal smears, and paraffin blocks of tumor tissue. For further information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/BCFR) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147;tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Diabetes Epidemiology Program, NIDDK, 6707 Democracy Blvd., Room 691, MSC 5460, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20892-5460. Phone: (301) 594-8804; fax: (301) 480-3503;cowiec@extra.niddk.nih.gov. NIDDK - NIDDK Central Repositories (Diabetes Prevention Study) The NIDDK Central Repositories have selected biosamples from the DPT-1 (The Diabetes Prevention Type 1) study that are available to qualified investigators through an application process. These samples are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. Information about how to apply for these materials can be obtained from the NIDDK Central Repositories by contacting Ms. Helen Ray of RTI, 1-919-316-3418, or hmp@rti.org. Direct scientific-technical inquiry to the Project Officer of the NIDDK Central Repositories, Dr. Rebekah Rasooly, at phone: (301) 594-6007;rr185i@nih.gov. Visit the Repositories Web site at http://www.niddkrepository.org. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NICHD - Reproductive Tissue Sample Repository (RTSaR) The Reproductive Tissue Sample Repository (RTSaR) is a virtual repository with online tissue sample acquisition capabilities. The RTSaR provides investigators with real-time access to human and nonhuman primate tissue and fluid inventories from four tissue bank facilities that are supported through the Specialized Cooperative Centers Program in Reproduction Research. The tissue banks are located at the University of California, San Diego (human ovary bank), Stanford University (human endometrium and DNA bank), Johns Hopkins University (male reproductive tissues and fluids), and the Oregon National Primate Research Center (nonhuman primate tissues). The web site for the RTSaR is https://rtsar.nichd.nih.gov/rtsar/login. If you wish to access the RTSaR, you can request an id and password to access the system by contacting the network administrator at RTSaR@mail.nih.gov. Once you access the system, contact information for each bank is provided. Access is open to all investigators living in North America who are supported by research and research training grants from the NIH. One id and password will be provided to each principal investigator that can be utilized by any person working in the P.I.’s laboratory, or, in the case of institutional training grants (T32) and institutional career development award programs (K12), any person supported by the aforementioned awards. NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain, cardiovascular system, endocrine system, eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Dr. John T. Lonsdale at NDRI, 8 Penn Center, 8th Floor, 1628 JFK Boulevard, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 271; fax: (215) 557-7154;jlonsdale@ndriresource.org. The NDRI Web site is http://www.ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Mr. John Kaddis, ICR Coordinating Center Project Manager, City of Hope National Medical Center, 1500 E. Duarte Road, Duarte, California 91010. Phone (626) 359-8111, ext. 63377; fax: (626) 471-7106;jkaddis@coh.org. The Coordinating Center hosts a Web site at http://icr.coh.org. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/1997 and consists of 3302 African-American, Caucasian, Chinese, Hispanic, and Japanese women. The SWAN Repository contains more than 350,000 blood and urine specimens generated from the study participants’ annual visits (8 visits to date), at which time medical and health history, psychosocial measures, biological measures, and anthropometric data were and are being collected. In addition, a subset of the participants are providing urine samples, collected daily over the length of one menstrual cycle, each year. More than 900,000 of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. Additionally, a DNA sample repository is also available and includes DNA as well as transformed B-lymphoblastoid cell lines from more than 1800 of the participants. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www.swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892;mfsowers@umich.edu. Human and Animal Cell and Biologic Reagent Resources NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432;parlow@humc.edu. Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD:Androgen receptor and peptide antigen Recombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera. NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. Animal Resources NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentColoniesHandbook/ or contact the Office of Biological Resources and Resource Development order desk. Phone: (301) 496-0181; fax: (301) 402-5597;rodents@nia.nih.gov. NIA - Aged Rodent Tissue Bank The rodent tissue bank contains flash-frozen tissues from rodents in the NIA aged rodent colonies. Tissue is collected from rodents at 4 or 5 age points throughout the lifespan. Tissue arrays are also available. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentTissueBankHandbook/. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819;griederf@ncrr.nih.gov. NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802;Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048;abrahamk@extra.niddk.nih.gov. NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs) are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from John Harding, Ph.D., National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819;hardingj@mail.nih.gov. NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 402-7744; fax: (301) 402-0010;nadonn@nia.nih.gov. NIA - Nonhuman Primate (NHP) Tissue Bank and Aging Database The NIA developed two new resources to facilitate research in the NHP model. The NHP tissue bank contains fresh-frozen and fixed tissue donated by primate centers around the country. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/NHPTissueBankHandbook.htm. The Primate Aging Database provides an internet accessible database with data from thousands of primates around the country. It can be used to investigate the effect of age on a variety of parameters, predominantly blood chemistry and husbandry measurements. The site is password protected. The URL is http://ipad.primate.wisc.edu. NIA - Obesity, Diabetes and Aging Animal Resource (USF-ODARC) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of South Florida’s Obesity, Diabetes and Aging Research Center. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extend as far back as 15 years. This unique resource is available for collaborative studies. ODARC has a significant amount of stored tissue collected at necropsy and stored blood/plasma collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODARC colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity, Diabetes and Aging Research Center, University of South Florida, All Children’s Hospital, 801 6th Street South #9340, St. Petersburg, FL 33701. Phone: (727) 767-6993; fax: (727) 767-7443;bchansen@aol.com. NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. IN SILICO RESOURCES NIDDK, NHLBI, and NIEHS - Nuclear Receptor Signaling Atlas The Nuclear Receptor Signaling Atlas (NURSA) has created an in silico resource comprised of curated information about Nuclear Receptors, Coregulators, Ligands, and Downstream Targets. NURSA is sponsored by NIH and provides online access through a public webportal at www.NURSA.org. Ease of navigation through a series of molecule pages allows users to make queries about Nuclear Receptors, Coactivators and Corepressors. Additional information about nuclear receptor ligands is provided, as well as primary datasets relating to expression profiling of nuclear receptors, coregulators and downstream targets. The molecule pages are hyperlinked to data contained in external databases, including NCBI, KEGG, UniProt, and others, allowing for detailed data mining. In partnership with The Endocrine Society, NURSA and Molecular Endocrinology (http://mend.endojournals.org/) have reciprocal links designed to enhance publications in Molecular Endocrinology and the information available through the NURSA molecule pages. Links to additional relevant literature citations are from PubMed at the National Library of Medicine. Miscellaneous Resources NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, herpes-virus, and DNA plasmids. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Matheson, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518;lrubin@iupui.edu. The NGVL Coordinating Center at Indiana University also hosts a Web site at http://www.ngvl.org. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 82 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division for Clinical Research Resources, National Center for Research Resources at NIH. Phone: (301) 435-0790;haywarda@ncrr.nih.gov.
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"Endocrine-Related Resources from the National Institutes of Health." Endocrinology 149, no.11 (November1, 2008): 5898–901. http://dx.doi.org/10.1210/endo.149.11.9998.
Full textAbstract:
Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. HUMAN TISSUE AND BIOLOGIC SPECIMEN RESOURCES NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. The CHTN can also provide a variety of tissue microarrays. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. The CBCTR also makes available breast cancer tissue microarrays designed by NCI statisticians to provide high statistical power for studies of stage-specific markers of breast cancer. Contact CBCTR’s Web site at http://cbctr.nci.nih.gov, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide access to over 4,000 cases of formalin-fixed, paraffin-embedded primary prostate cancer specimens, with associated pathology and clinical data. Fresh-frozen tissue is also available with limited clinical follow-up information. In addition, slides from prostate cancer tissue microarrays with associated pathology and clinical data are now available. Contact the CPCTR Web site at http://www.prostatetissues.org, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/) or Dr. Kishor Bhatia, (301) 496-7147; e-mail: bhatiak@mail.nih.gov. NCI - Breast and Ovarian Cancer Family Registries (CFRs) The Breast and Ovarian CFRs facilitate and support interdisciplinary and population-based research on the identification and characterization of breast and ovarian cancer susceptibility genes, with particular emphasis on gene-gene and gene-environment interaction research. Available from the registries are: a) family history, epidemiologic and clinical data, b) updates on cancer recurrence, morbidity and mortality in participating families, and c) biospecimens, including plasma, lymphocytes, serum, DNA, Guthrie cards or buccal smears, and paraffin blocks of tumor tissue. For further information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/BCFR) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147; e-mail: tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Diabetes Epidemiology Program, NIDDK, 6707 Democracy Blvd., Room 691, MSC 5460, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20892-5460. Phone: (301) 594-8804; fax: (301) 480-3503; e-mail: cowiec@extra.niddk.nih.gov. NIDDK - NIDDK Central Repositories (Diabetes Prevention Study) The NIDDK Central Repositories have selected biosamples from the DPT-1 (The Diabetes Prevention Type 1) study that are available to qualified investigators through an application process. These samples are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. Information about how to apply for these materials can be obtained from the NIDDK Central Repositories by contacting Ms. Helen Ray of RTI, 1-919-316-3418, or hmp@rti.org. Direct scientific-technical inquiry to the Project Officer of the NIDDK Central Repositories, Dr. Rebekah Rasooly, at phone: (301) 594-6007; e-mail: rr185i@nih.gov. Visit the Repositories Web site at http://www.niddkrepository.org. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NICHD - Reproductive Tissue Sample Repository (RTSaR) The Reproductive Tissue Sample Repository (RTSaR) is a virtual repository with online tissue sample acquisition capabilities. The RTSaR provides investigators with real-time access to human and nonhuman primate tissue and fluid inventories from four tissue bank facilities that are supported through the Specialized Cooperative Centers Program in Reproduction Research. The tissue banks are located at the University of California, San Diego (human ovary bank), Stanford University (human endometrium and DNA bank), Johns Hopkins University (male reproductive tissues and fluids), and the Oregon National Primate Research Center (nonhuman primate tissues). The web site for the RTSaR is https://rtsar.nichd.nih.gov/rtsar/login. If you wish to access the RTSaR, you can request an id and password to access the system by contacting the network administrator at RTSaR@mail.nih.gov. Once you access the system, contact information for each bank is provided. Access is open to all investigators living in North America who are supported by research and research training grants from the NIH. One id and password will be provided to each principal investigator that can be utilized by any person working in the P.I.’s laboratory, or, in the case of institutional training grants (T32) and institutional career development award programs (K12), any person supported by the aforementioned awards. NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain, cardiovascular system, endocrine system, eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Dr. John T. Lonsdale at NDRI, 8 Penn Center, 8th Floor, 1628 JFK Boulevard, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 271; fax: (215) 557-7154; e-mail: jlonsdale@ndriresource.org. The NDRI Web site is http://www.ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Mr. John Kaddis, ICR Coordinating Center Project Manager, City of Hope National Medical Center, 1500 E. Duarte Road, Duarte, California 91010. Phone (626) 359-8111, ext. 63377; fax: (626) 471-7106; e-mail: jkaddis@coh.org. The Coordinating Center hosts a Web site at http://icr.coh.org. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/1997 and consists of 3302 African-American, Caucasian, Chinese, Hispanic, and Japanese women. The SWAN Repository contains more than 350,000 blood and urine specimens generated from the study participants’ annual visits (8 visits to date), at which time medical and health history, psychosocial measures, biological measures, and anthropometric data were and are being collected. In addition, a subset of the participants are providing urine samples, collected daily over the length of one menstrual cycle, each year. More than 900,000 of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. Additionally, a DNA sample repository is also available and includes DNA as well as transformed B-lymphoblastoid cell lines from more than 1800 of the participants. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www.swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892; e-mail: mfsowers@umich.edu. HUMAN AND ANIMAL CELL AND BIOLOGIC REAGENT RESOURCES NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432; e-mail: parlow@humc.edu. Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigenRecombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera. NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. ANIMAL RESOURCES NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentColoniesHandbook/ or contact the Office of Biological Resources and Resource Development order desk. Phone: (301) 496-0181; fax: (301) 402-5597; e-mail: rodents@nia.nih.gov. NIA - Aged Rodent Tissue Bank The rodent tissue bank contains flash-frozen tissues from rodents in the NIA aged rodent colonies. Tissue is collected from rodents at 4 or 5 age points throughout the lifespan. Tissue arrays are also available. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentTissueBankHandbook/. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819; e-mail: griederf@ncrr.nih.gov. NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802; e-mail: Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048; e-mail: abrahamk@extra.niddk.nih.gov. NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs) are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from John Harding, Ph.D., National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819; e-mail: hardingj@mail.nih.gov. NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 402-7744; fax: (301) 402-0010; e-mail: nadonn@nia.nih.gov. NIA - Nonhuman Primate (NHP) Tissue Bank and Aging Database The NIA developed two new resources to facilitate research in the NHP model. The NHP tissue bank contains fresh-frozen and fixed tissue donated by primate centers around the country. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/NHPTissueBankHandbook.htm. The Primate Aging Database provides an internet accessible database with data from thousands of primates around the country. It can be used to investigate the effect of age on a variety of parameters, predominantly blood chemistry and husbandry measurements. The site is password protected. The URL is http://ipad.primate.wisc.edu. NIA - Obesity, Diabetes and Aging Animal Resource (USF-ODARC) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of South Florida’s Obesity, Diabetes and Aging Research Center. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extend as far back as 15 years. This unique resource is available for collaborative studies. ODARC has a significant amount of stored tissue collected at necropsy and stored blood/plasma collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODARC colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity, Diabetes and Aging Research Center, University of South Florida, All Children’s Hospital, 801 6th Street South #9340, St. Petersburg, FL 33701. Phone: (727) 767-6993; fax: (727) 767-7443; e-mail: bchansen@aol.com. NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. IN SILICO RESOURCES NIDDK, NHLBI, and NIEHS - Nuclear Receptor Signaling Atlas The Nuclear Receptor Signaling Atlas (NURSA) has created an in silico resource comprised of curated information about Nuclear Receptors, Coregulators, Ligands, and Downstream Targets. NURSA is sponsored by NIH and provides online access through a public webportal at www.NURSA.org. Ease of navigation through a series of molecule pages allows users to make queries about Nuclear Receptors, Coactivators and Corepressors. Additional information about nuclear receptor ligands is provided, as well as primary datasets relating to expression profiling of nuclear receptors, coregulators and downstream targets. The molecule pages are hyperlinked to data contained in external databases, including NCBI, KEGG, UniProt, and others, allowing for detailed data mining. In partnership with The Endocrine Society, NURSA and Molecular Endocrinology (http://mend.endojournals.org/) have reciprocal links designed to enhance publications in Molecular Endocrinology and the information available through the NURSA molecule pages. Links to additional relevant literature citations are from PubMed at the National Library of Medicine. MISCELLANEOUS RESOURCES NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, herpes-virus, and DNA plasmids. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Matheson, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518; e-mail: lrubin@iupui.edu. The NGVL Coordinating Center at Indiana University also hosts a Web site at http://www.ngvl.org. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 82 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division for Clinical Research Resources, National Center for Research Resources at NIH. Phone: (301) 435-0790; e-mail: haywarda@ncrr.nih.gov.
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"Endocrine-Related Resources from the National Institutes of Health." Endocrinology 149, no.4 (April1, 2008): 2027–30. http://dx.doi.org/10.1210/endo.149.4.9997.
Full textAbstract:
Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. Human Tissue and Biologic Specimen Resources NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. The CHTN can also provide a variety of tissue microarrays. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. The CBCTR also makes available breast cancer tissue microarrays designed by NCI statisticians to provide high statistical power for studies of stage-specific markers of breast cancer. Contact CBCTR’s Web site at http://cbctr.nci.nih.gov, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide access to over 4,000 cases of formalin-fixed, paraffin-embedded primary prostate cancer specimens, with associated pathology and clinical data. Fresh-frozen tissue is also available with limited clinical follow-up information. In addition, slides from prostate cancer tissue microarrays with associated pathology and clinical data are now available. Contact the CPCTR Web site at http://www.prostatetissues.org, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/) or Dr. Kishor Bhatia, (301) 496-7147; e-mail: bhatiak@mail.nih.gov. NCI - Breast and Ovarian Cancer Family Registries (CFRs) The Breast and Ovarian CFRs facilitate and support interdisciplinary and population-based research on the identification and characterization of breast and ovarian cancer susceptibility genes, with particular emphasis on gene-gene and gene-environment interaction research. Available from the registries are: a) family history, epidemiologic and clinical data, b) updates on cancer recurrence, morbidity and mortality in participating families, and c) biospecimens, including plasma, lymphocytes, serum, DNA, Guthrie cards or buccal smears, and paraffin blocks of tumor tissue. For further information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/BCFR) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147; e-mail: tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Diabetes Epidemiology Program, NIDDK, 6707 Democracy Blvd., Room 691, MSC 5460, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20892-5460. Phone: (301) 594-8804; fax: (301) 480-3503; e-mail: cowiec@extra.niddk.nih.gov. NIDDK - NIDDK Central Repositories (Diabetes Prevention Study) The NIDDK Central Repositories have selected biosamples from the DPT-1 (The Diabetes Prevention Type 1) study that are available to qualified investigators through an application process. These samples are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. Information about how to apply for these materials can be obtained from the NIDDK Central Repositories by contacting Ms. Helen Ray of RTI, 1-919-316-3418, or hmp@rti.org. Direct scientific-technical inquiry to the Project Officer of the NIDDK Central Repositories, Dr. Rebekah Rasooly, at phone: (301) 594-6007; e-mail: rr185i@nih.gov. Visit the Repositories Web site at http://www.niddkrepository.org. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NICHD - Reproductive Tissue Sample Repository (RTSaR) The Reproductive Tissue Sample Repository (RTSaR) is a virtual repository with online tissue sample acquisition capabilities. The RTSaR provides investigators with real-time access to human and nonhuman primate tissue and fluid inventories from four tissue bank facilities that are supported through the Specialized Cooperative Centers Program in Reproduction Research. The tissue banks are located at the University of California, San Diego (human ovary bank), Stanford University (human endometrium and DNA bank), Johns Hopkins University (male reproductive tissues and fluids), and the Oregon National Primate Research Center (nonhuman primate tissues). The web site for the RTSaR is https://rtsar.nichd.nih.gov/rtsar/login. If you wish to access the RTSaR, you can request an id and password to access the system by contacting the network administrator at RTSaR@mail.nih.gov. Once you access the system, contact information for each bank is provided. Access is open to all investigators living in North America who are supported by research and research training grants from the NIH. One id and password will be provided to each principal investigator that can be utilized by any person working in the P.I.’s laboratory, or, in the case of institutional training grants (T32) and institutional career development award programs (K12), any person supported by the aforementioned awards. NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain, cardiovascular system, endocrine system, eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Dr. John T. Lonsdale at NDRI, 8 Penn Center, 8th Floor, 1628 JFK Boulevard, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 271; fax: (215) 557-7154; e-mail: jlonsdale@ndriresource.org. The NDRI Web site is http://www.ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Mr. John Kaddis, ICR Coordinating Center Project Manager, City of Hope National Medical Center, 1500 E. Duarte Road, Duarte, California 91010. Phone (626) 359-8111, ext. 63377; fax: (626) 471-7106; e-mail: jkaddis@coh.org. The Coordinating Center hosts a Web site at http://icr.coh.org. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/1997 and consists of 3302 African-American, Caucasian, Chinese, Hispanic, and Japanese women. The SWAN Repository contains more than 350,000 blood and urine specimens generated from the study participants’ annual visits (8 visits to date), at which time medical and health history, psychosocial measures, biological measures, and anthropometric data were and are being collected. In addition, a subset of the participants are providing urine samples, collected daily over the length of one menstrual cycle, each year. More than 900,000 of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. Additionally, a DNA sample repository is also available and includes DNA as well as transformed B-lymphoblastoid cell lines from more than 1800 of the participants. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www.swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892; e-mail: mfsowers@umich.edu. Human and Animal Cell and Biologic Reagent Resources NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432; e-mail: parlow@humc.edu. Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigen Recombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera. NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. ANIMAL RESOURCES NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentColoniesHandbook/ or contact the Office of Biological Resources and Resource Development order desk. Phone: (301) 496-0181; fax: (301) 402-5597; e-mail: rodents@nia.nih.gov. NIA - Aged Rodent Tissue Bank The rodent tissue bank contains flash-frozen tissues from rodents in the NIA aged rodent colonies. Tissue is collected from rodents at 4 or 5 age points throughout the lifespan. Tissue arrays are also available. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentTissueBankHandbook/. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819; e-mail: griederf@ncrr.nih.gov. NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802; e-mail: Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048; e-mail: abrahamk@extra.niddk.nih.gov. NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs) are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from John Harding, Ph.D., National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819; e-mail: hardingj@mail.nih.gov. NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 402-7744; fax: (301) 402-0010; e-mail: nadonn@nia.nih.gov. NIA - Nonhuman Primate (NHP) Tissue Bank and Aging Database The NIA developed two new resources to facilitate research in the NHP model. The NHP tissue bank contains fresh-frozen and fixed tissue donated by primate centers around the country. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/NHPTissueBankHandbook.htm. The Primate Aging Database provides an internet accessible database with data from thousands of primates around the country. It can be used to investigate the effect of age on a variety of parameters, predominantly blood chemistry and husbandry measurements. The site is password protected. The URL is http://ipad.primate.wisc.edu. NIA - Obesity, Diabetes and Aging Animal Resource (USF-ODARC) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of South Florida’s Obesity, Diabetes and Aging Research Center. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extend as far back as 15 years. This unique resource is available for collaborative studies. ODARC has a significant amount of stored tissue collected at necropsy and stored blood/plasma collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODARC colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity, Diabetes and Aging Research Center, University of South Florida, All Children’s Hospital, 801 6th Street South #9340, St. Petersburg, FL 33701. Phone: (727) 767-6993; fax: (727) 767-7443; e-mail: bchansen@aol.com. NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. In Silico Resources NIDDK, NHLBI, and NIEHS - Nuclear Receptor Signaling Atlas The Nuclear Receptor Signaling Atlas (NURSA) has created an in silico resource comprised of curated information about Nuclear Receptors, Coregulators, Ligands, and Downstream Targets. NURSA is sponsored by NIH and provides online access through a public webportal at www.NURSA.org. Ease of navigation through a series of molecule pages allows users to make queries about Nuclear Receptors, Coactivators and Corepressors. Additional information about nuclear receptor ligands is provided, as well as primary datasets relating to expression profiling of nuclear receptors, coregulators and downstream targets. The molecule pages are hyperlinked to data contained in external databases, including NCBI, KEGG, UniProt, and others, allowing for detailed data mining. In partnership with The Endocrine Society, NURSA and Molecular Endocrinology (http://mend.endojournals.org/) have reciprocal links designed to enhance publications in Molecular Endocrinology and the information available through the NURSA molecule pages. Links to additional relevant literature citations are from PubMed at the National Library of Medicine. Miscellaneous Resources NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, herpes-virus, and DNA plasmids. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Matheson, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518; e-mail: lrubin@iupui.edu. The NGVL Coordinating Center at Indiana University also hosts a Web site at http://www.ngvl.org. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 82 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division for Clinical Research Resources, National Center for Research Resources at NIH. Phone: (301) 435-0790; e-mail: haywarda@ncrr.nih.gov.
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"Endocrine-Related Resources from the National Institutes of Health." Endocrinology 149, no.5 (May1, 2008): 2688–91. http://dx.doi.org/10.1210/endo.149.5.9999.
Full textAbstract:
Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. Human Tissue and Biologic Specimen Resources NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. The CHTN can also provide a variety of tissue microarrays. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. The CBCTR also makes available breast cancer tissue microarrays designed by NCI statisticians to provide high statistical power for studies of stage-specific markers of breast cancer. Contact CBCTR’s Web site at http://cbctr.nci.nih.gov, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide access to over 4,000 cases of formalin-fixed, paraffin-embedded primary prostate cancer specimens, with associated pathology and clinical data. Fresh-frozen tissue is also available with limited clinical follow-up information. In addition, slides from prostate cancer tissue microarrays with associated pathology and clinical data are now available. Contact the CPCTR Web site at http://www.prostatetissues.org, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/) or Dr. Kishor Bhatia, (301) 496-7147; e-mail: bhatiak@mail.nih.gov NCI - Breast and Ovarian Cancer Family Registries (CFRs) The Breast and Ovarian CFRs facilitate and support interdisciplinary and population-based research on the identification and characterization of breast and ovarian cancer susceptibility genes, with particular emphasis on gene-gene and gene-environment interaction research. Available from the registries are: a) family history, epidemiologic and clinical data, b) updates on cancer recurrence, morbidity and mortality in participating families, and c) biospecimens, including plasma, lymphocytes, serum, DNA, Guthrie cards or buccal smears, and paraffin blocks of tumor tissue. For further information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/BCFR) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147; e-mail: tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Diabetes Epidemiology Program, NIDDK, 6707 Democracy Blvd., Room 691, MSC 5460, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20892-5460. Phone: (301) 594-8804; fax: (301) 480-3503; e-mail: cowiec@extra.niddk.nih.gov NIDDK - NIDDK Central Repositories (Diabetes Prevention Study) The NIDDK Central Repositories have selected biosamples from the DPT-1 (The Diabetes Prevention Type 1) study that are available to qualified investigators through an application process. These samples are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. Information about how to apply for these materials can be obtained from the NIDDK Central Repositories by contacting Ms. Helen Ray of RTI, 1-919-316-3418, or hmp@rti.org Direct scientific-technical inquiry to the Project Officer of the NIDDK Central Repositories, Dr. Rebekah Rasooly, at phone: (301) 594-6007; e-mail: rr185i@nih.gov Visit the Repositories Web site at http://www.niddkrepository.org. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NICHD - Reproductive Tissue Sample Repository (RTSaR) The Reproductive Tissue Sample Repository (RTSaR) is a virtual repository with online tissue sample acquisition capabilities. The RTSaR provides investigators with real-time access to human and nonhuman primate tissue and fluid inventories from four tissue bank facilities that are supported through the Specialized Cooperative Centers Program in Reproduction Research. The tissue banks are located at the University of California, San Diego (human ovary bank), Stanford University (human endometrium and DNA bank), Johns Hopkins University (male reproductive tissues and fluids), and the Oregon National Primate Research Center (nonhuman primate tissues). The web site for the RTSaR is https://rtsar.nichd.nih.gov/rtsar/login. If you wish to access the RTSaR, you can request an id and password to access the system by contacting the network administrator at RTSaR@mail.nih.gov Once you access the system, contact information for each bank is provided. Access is open to all investigators living in North America who are supported by research and research training grants from the NIH. One id and password will be provided to each principal investigator that can be utilized by any person working in the P.I.’s laboratory, or, in the case of institutional training grants (T32) and institutional career development award programs (K12), any person supported by the aforementioned awards. NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain, cardiovascular system, endocrine system, eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Dr. John T. Lonsdale at NDRI, 8 Penn Center, 8th Floor, 1628 JFK Boulevard, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 271; fax: (215) 557-7154; e-mail: jlonsdale@ndriresource.org The NDRI Web site is http://www.ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Mr. John Kaddis, ICR Coordinating Center Project Manager, City of Hope National Medical Center, 1500 E. Duarte Road, Duarte, California 91010. Phone (626) 359-8111, ext. 63377; fax: (626) 471-7106; e-mail: jkaddis@coh.org The Coordinating Center hosts a Web site at http://icr.coh.org. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/1997 and consists of 3302 African-American, Caucasian, Chinese, Hispanic, and Japanese women. The SWAN Repository contains more than 350,000 blood and urine specimens generated from the study participants’ annual visits (8 visits to date), at which time medical and health history, psychosocial measures, biological measures, and anthropometric data were and are being collected. In addition, a subset of the participants are providing urine samples, collected daily over the length of one menstrual cycle, each year. More than 900,000 of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. Additionally, a DNA sample repository is also available and includes DNA as well as transformed B-lymphoblastoid cell lines from more than 1800 of the participants. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www.swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892; e-mail: mfsowers@umich.edu Human and Animal Cell and Biologic Reagent Resources NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432; e-mail: parlow@humc.edu Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigenRecombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera. NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. Animal Resources NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentColoniesHandbook/ or contact the Office of Biological Resources and Resource Development order desk. Phone: (301) 496-0181; fax: (301) 402-5597; e-mail: rodents@nia.nih.gov NIA - Aged Rodent Tissue Bank The rodent tissue bank contains flash-frozen tissues from rodents in the NIA aged rodent colonies. Tissue is collected from rodents at 4 or 5 age points throughout the lifespan. Tissue arrays are also available. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentTissueBankHandbook/. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819; e-mail: griederf@ncrr.nih.gov NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802; e-mail: Maren.Laughlin@nih.gov NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs) are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from John Harding, Ph.D., National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819; e-mail: hardingj@mail.nih.gov NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 402-7744; fax: (301) 402-0010; e-mail: nadonn@nia.nih.gov NIA - Nonhuman Primate (NHP) Tissue Bank and Aging Database The NIA developed two new resources to facilitate research in the NHP model. The NHP tissue bank contains fresh-frozen and fixed tissue donated by primate centers around the country. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/NHPTissueBankHandbook.htm. The Primate Aging Database provides an internet accessible database with data from thousands of primates around the country. It can be used to investigate the effect of age on a variety of parameters, predominantly blood chemistry and husbandry measurements. The site is password protected. The URL is http://ipad.primate.wisc.edu. NIA - Obesity, Diabetes and Aging Animal Resource (USF-ODARC) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of South Florida’s Obesity, Diabetes and Aging Research Center. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extend as far back as 15 years. This unique resource is available for collaborative studies. ODARC has a significant amount of stored tissue collected at necropsy and stored blood/plasma collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODARC colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity, Diabetes and Aging Research Center, University of South Florida, All Children’s Hospital, 801 6th Street South #9340, St. Petersburg, FL 33701. Phone: (727) 767-6993; fax: (727) 767-7443; e-mail: bchansen@aol.com NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. In Silico Resources NIDDK, NHLBI, and NIEHS - Nuclear Receptor Signaling Atlas The Nuclear Receptor Signaling Atlas (NURSA) has created an in silico resource comprised of curated information about Nuclear Receptors, Coregulators, Ligands, and Downstream Targets. NURSA is sponsored by NIH and provides online access through a public webportal at www.NURSA.org. Ease of navigation through a series of molecule pages allows users to make queries about Nuclear Receptors, Coactivators and Corepressors. Additional information about nuclear receptor ligands is provided, as well as primary datasets relating to expression profiling of nuclear receptors, coregulators and downstream targets. The molecule pages are hyperlinked to data contained in external databases, including NCBI, KEGG, UniProt, and others, allowing for detailed data mining. In partnership with The Endocrine Society, NURSA and Molecular Endocrinology (http://mend.endojournals.org/) have reciprocal links designed to enhance publications in Molecular Endocrinology and the information available through the NURSA molecule pages. Links to additional relevant literature citations are from PubMed at the National Library of Medicine. Miscellaneous Resources NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, herpes-virus, and DNA plasmids. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Matheson, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518; e-mail: lrubin@iupui.edu The NGVL Coordinating Center at Indiana University also hosts a Web site at http://www.ngvl.org. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 82 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division for Clinical Research Resources, National Center for Research Resources at NIH. Phone: (301) 435-0790; e-mail: haywarda@ncrr.nih.gov
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"Endocrine-Related Resources from the National Institutes of Health." Endocrinology 149, no.7 (July1, 2008): 3753–56. http://dx.doi.org/10.1210/endo.149.7.9999.
Full textAbstract:
Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. HUMAN TISSUE AND BIOLOGIC SPECIMEN RESOURCES NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. The CHTN can also provide a variety of tissue microarrays. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. The CBCTR also makes available breast cancer tissue microarrays designed by NCI statisticians to provide high statistical power for studies of stage-specific markers of breast cancer. Contact CBCTR’s Web site at http://cbctr.nci.nih.gov, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide access to over 4,000 cases of formalin-fixed, paraffin-embedded primary prostate cancer specimens, with associated pathology and clinical data. Fresh-frozen tissue is also available with limited clinical follow-up information. In addition, slides from prostate cancer tissue microarrays with associated pathology and clinical data are now available. Contact the CPCTR Web site at http://www.prostatetissues.org, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/) or Dr. Kishor Bhatia, (301) 496-7147; e-mail: bhatiak@mail.nih.gov. NCI - Breast and Ovarian Cancer Family Registries (CFRs) The Breast and Ovarian CFRs facilitate and support interdisciplinary and population-based research on the identification and characterization of breast and ovarian cancer susceptibility genes, with particular emphasis on gene-gene and gene-environment interaction research. Available from the registries are: a) family history, epidemiologic and clinical data, b) updates on cancer recurrence, morbidity and mortality in participating families, and c) biospecimens, including plasma, lymphocytes, serum, DNA, Guthrie cards or buccal smears, and paraffin blocks of tumor tissue. For further information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/BCFR) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147; e-mail: tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Diabetes Epidemiology Program, NIDDK, 6707 Democracy Blvd., Room 691, MSC 5460, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20892-5460. Phone: (301) 594-8804; fax: (301) 480-3503; e-mail: cowiec@extra.niddk.nih.gov. NIDDK - NIDDK Central Repositories (Diabetes Prevention Study) The NIDDK Central Repositories have selected biosamples from the DPT-1 (The Diabetes Prevention Type 1) study that are available to qualified investigators through an application process. These samples are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. Information about how to apply for these materials can be obtained from the NIDDK Central Repositories by contacting Ms. Helen Ray of RTI, 1-919-316-3418, or hmp@rti.org. Direct scientific-technical inquiry to the Project Officer of the NIDDK Central Repositories, Dr. Rebekah Rasooly, at phone: (301) 594-6007; e-mail: rr185i@nih.gov. Visit the Repositories Web site at http://www.niddkrepository.org. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NICHD - Reproductive Tissue Sample Repository (RTSaR) The Reproductive Tissue Sample Repository (RTSaR) is a virtual repository with online tissue sample acquisition capabilities. The RTSaR provides investigators with real-time access to human and nonhuman primate tissue and fluid inventories from four tissue bank facilities that are supported through the Specialized Cooperative Centers Program in Reproduction Research. The tissue banks are located at the University of California, San Diego (human ovary bank), Stanford University (human endometrium and DNA bank), Johns Hopkins University (male reproductive tissues and fluids), and the Oregon National Primate Research Center (nonhuman primate tissues). The web site for the RTSaR is https://rtsar.nichd.nih.gov/rtsar/login. If you wish to access the RTSaR, you can request an id and password to access the system by contacting the network administrator at RTSaR@mail.nih.gov. Once you access the system, contact information for each bank is provided. Access is open to all investigators living in North America who are supported by research and research training grants from the NIH. One id and password will be provided to each principal investigator that can be utilized by any person working in the P.I.’s laboratory, or, in the case of institutional training grants (T32) and institutional career development award programs (K12), any person supported by the aforementioned awards. NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain, cardiovascular system, endocrine system, eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Dr. John T. Lonsdale at NDRI, 8 Penn Center, 8th Floor, 1628 JFK Boulevard, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 271; fax: (215) 557-7154; e-mail: jlonsdale@ndriresource.org. The NDRI Web site is http://www.ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Mr. John Kaddis, ICR Coordinating Center Project Manager, City of Hope National Medical Center, 1500 E. Duarte Road, Duarte, California 91010. Phone (626) 359-8111, ext. 63377; fax: (626) 471-7106; e-mail: jkaddis@coh.org. The Coordinating Center hosts a Web site at http://icr.coh.org. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/1997 and consists of 3302 African-American, Caucasian, Chinese, Hispanic, and Japanese women. The SWAN Repository contains more than 350,000 blood and urine specimens generated from the study participants’ annual visits (8 visits to date), at which time medical and health history, psychosocial measures, biological measures, and anthropometric data were and are being collected. In addition, a subset of the participants are providing urine samples, collected daily over the length of one menstrual cycle, each year. More than 900,000 of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. Additionally, a DNA sample repository is also available and includes DNA as well as transformed B-lymphoblastoid cell lines from more than 1800 of the participants. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www. swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892; e-mail: mfsowers@umich.edu. HUMAN AND ANIMAL CELL AND BIOLOGIC REAGENT RESOURCES NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432; e-mail: parlow@humc.edu. Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigenRecombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera. NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. ANIMAL RESOURCES NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentColoniesHandbook/ or contact the Office of Biological Resources and Resource Development order desk. Phone: (301) 496-0181; fax: (301) 402-5597; e-mail: rodents@nia.nih.gov. NIA - Aged Rodent Tissue Bank The rodent tissue bank contains flash-frozen tissues from rodents in the NIA aged rodent colonies. Tissue is collected from rodents at 4 or 5 age points throughout the lifespan. Tissue arrays are also available. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentTissueBankHandbook/. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819; e-mail: griederf@ncrr.nih.gov. NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802; e-mail: Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048; e-mail: abrahamk@extra.niddk.nih.gov. NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs) are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from John Harding, Ph.D., National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819; e-mail: hardingj@mail.nih.gov. NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 402-7744; fax: (301) 402-0010; e-mail: nadonn@nia.nih.gov. NIA - Nonhuman Primate (NHP) Tissue Bank and Aging Database The NIA developed two new resources to facilitate research in the NHP model. The NHP tissue bank contains fresh-frozen and fixed tissue donated by primate centers around the country. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/NHPTissueBankHandbook.htm. The Primate Aging Database provides an internet accessible database with data from thousands of primates around the country. It can be used to investigate the effect of age on a variety of parameters, predominantly blood chemistry and husbandry measurements. The site is password protected. The URL is http://ipad.primate.wisc.edu. NIA - Obesity, Diabetes and Aging Animal Resource (USF-ODARC) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of South Florida’s Obesity, Diabetes and Aging Research Center. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extend as far back as 15 years. This unique resource is available for collaborative studies. ODARC has a significant amount of stored tissue collected at necropsy and stored blood/plasma collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODARC colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity, Diabetes and Aging Research Center, University of South Florida, All Children’s Hospital, 801 6th Street South #9340, St. Petersburg, FL 33701. Phone: (727) 767-6993; fax: (727) 767-7443; e-mail: bchansen@aol.com. NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. IN SILICO RESOURCES NIDDK, NHLBI, and NIEHS - Nuclear Receptor Signaling Atlas The Nuclear Receptor Signaling Atlas (NURSA) has created an in silico resource comprised of curated information about Nuclear Receptors, Coregulators, Ligands, and Downstream Targets. NURSA is sponsored by NIH and provides online access through a public webportal at www.NURSA.org. Ease of navigation through a series of molecule pages allows users to make queries about Nuclear Receptors, Coactivators and Corepressors. Additional information about nuclear receptor ligands is provided, as well as primary datasets relating to expression profiling of nuclear receptors, coregulators and downstream targets. The molecule pages are hyperlinked to data contained in external databases, including NCBI, KEGG, UniProt, and others, allowing for detailed data mining. In partnership with The Endocrine Society, NURSA and Molecular Endocrinology (http://mend.endojournals.org/) have reciprocal links designed to enhance publications in Molecular Endocrinology and the information available through the NURSA molecule pages. Links to additional relevant literature citations are from PubMed at the National Library of Medicine. MISCELLANEOUS RESOURCES NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, herpes-virus, and DNA plasmids. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Matheson, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518; e-mail: lrubin@iupui.edu. The NGVL Coordinating Center at Indiana University also hosts a Web site at http://www.ngvl.org. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 82 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division for Clinical Research Resources, National Center for Research Resources at NIH. Phone: (301) 435-0790; e-mail: haywarda@ncrr.nih.gov.
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"Endocrine-Related Resources from the National Institutes of Health." Endocrinology 149, no.8 (August1, 2008): 4244–47. http://dx.doi.org/10.1210/endo.149.8.9996.
Full textAbstract:
Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. HUMAN TISSUE AND BIOLOGIC SPECIMEN RESOURCES NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. The CHTN can also provide a variety of tissue microarrays. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. The CBCTR also makes available breast cancer tissue microarrays designed by NCI statisticians to provide high statistical power for studies of stage-specific markers of breast cancer. Contact CBCTR’s Web site at http://cbctr.nci.nih.gov, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide access to over 4,000 cases of formalin-fixed, paraffin-embedded primary prostate cancer specimens, with associated pathology and clinical data. Fresh-frozen tissue is also available with limited clinical follow-up information. In addition, slides from prostate cancer tissue microarrays with associated pathology and clinical data are now available. Contact the CPCTR Web site at http://www.prostatetissues.org, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/) or Dr. Kishor Bhatia, (301) 496-7147; e-mail: bhatiak@mail.nih.gov. NCI - Breast and Ovarian Cancer Family Registries (CFRs) The Breast and Ovarian CFRs facilitate and support interdisciplinary and population-based research on the identification and characterization of breast and ovarian cancer susceptibility genes, with particular emphasis on gene-gene and gene-environment interaction research. Available from the registries are: a) family history, epidemiologic and clinical data, b) updates on cancer recurrence, morbidity and mortality in participating families, and c) biospecimens, including plasma, lymphocytes, serum, DNA, Guthrie cards or buccal smears, and paraffin blocks of tumor tissue. For further information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/BCFR) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147; e-mail: tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Diabetes Epidemiology Program, NIDDK, 6707 Democracy Blvd., Room 691, MSC 5460, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20892-5460. Phone: (301) 594-8804; fax: (301) 480-3503; e-mail: cowiec@extra.niddk.nih.gov. NIDDK - NIDDK Central Repositories (Diabetes Prevention Study) The NIDDK Central Repositories have selected biosamples from the DPT-1 (The Diabetes Prevention Type 1) study that are available to qualified investigators through an application process. These samples are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. Information about how to apply for these materials can be obtained from the NIDDK Central Repositories by contacting Ms. Helen Ray of RTI, 1-919-316-3418, or hmp@rti.org. Direct scientific-technical inquiry to the Project Officer of the NIDDK Central Repositories, Dr. Rebekah Rasooly, at phone: (301) 594-6007; e-mail: rr185i@nih.gov. Visit the Repositories Web site at http://www.niddkrepository.org. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NICHD - Reproductive Tissue Sample Repository (RTSaR) The Reproductive Tissue Sample Repository (RTSaR) is a virtual repository with online tissue sample acquisition capabilities. The RTSaR provides investigators with real-time access to human and nonhuman primate tissue and fluid inventories from four tissue bank facilities that are supported through the Specialized Cooperative Centers Program in Reproduction Research. The tissue banks are located at the University of California, San Diego (human ovary bank), Stanford University (human endometrium and DNA bank), Johns Hopkins University (male reproductive tissues and fluids), and the Oregon National Primate Research Center (nonhuman primate tissues). The web site for the RTSaR is https://rtsar.nichd.nih.gov/rtsar/login. If you wish to access the RTSaR, you can request an id and password to access the system by contacting the network administrator at RTSaR@mail.nih.gov. Once you access the system, contact information for each bank is provided. Access is open to all investigators living in North America who are supported by research and research training grants from the NIH. One id and password will be provided to each principal investigator that can be utilized by any person working in the P.I.’s laboratory, or, in the case of institutional training grants (T32) and institutional career development award programs (K12), any person supported by the aforementioned awards. NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain, cardiovascular system, endocrine system, eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Dr. John T. Lonsdale at NDRI, 8 Penn Center, 8th Floor, 1628 JFK Boulevard, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 271; fax: (215) 557-7154; e-mail: jlonsdale@ndriresource.org. The NDRI Web site is http://www.ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Mr. John Kaddis, ICR Coordinating Center Project Manager, City of Hope National Medical Center, 1500 E. Duarte Road, Duarte, California 91010. Phone (626) 359-8111, ext. 63377; fax: (626) 471-7106; e-mail: jkaddis@coh.org. The Coordinating Center hosts a Web site at http://icr.coh.org. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/1997 and consists of 3302 African-American, Caucasian, Chinese, Hispanic, and Japanese women. The SWAN Repository contains more than 350,000 blood and urine specimens generated from the study participants’ annual visits (8 visits to date), at which time medical and health history, psychosocial measures, biological measures, and anthropometric data were and are being collected. In addition, a subset of the participants are providing urine samples, collected daily over the length of one menstrual cycle, each year. More than 900,000 of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. Additionally, a DNA sample repository is also available and includes DNA as well as transformed B-lymphoblastoid cell lines from more than 1800 of the participants. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www.swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892; e-mail: mfsowers@umich.edu. HUMAN AND ANIMAL CELL AND BIOLOGIC REAGENT RESOURCES NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432; e-mail: parlow@humc.edu. Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigen Recombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera. NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. ANIMAL RESOURCES NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentColoniesHandbook/ or contact the Office of Biological Resources and Resource Development order desk. Phone: (301) 496-0181; fax: (301) 402-5597; e-mail: rodents@nia.nih.gov. NIA - Aged Rodent Tissue Bank The rodent tissue bank contains flash-frozen tissues from rodents in the NIA aged rodent colonies. Tissue is collected from rodents at 4 or 5 age points throughout the lifespan. Tissue arrays are also available. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentTissueBankHandbook/. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819; e-mail: griederf@ncrr.nih.gov. NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802; e-mail: Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048; e-mail: abrahamk@extra.niddk.nih.gov. NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs) are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.htm, or from John Harding, Ph.D., National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819; e-mail: hardingj@mail.nih.gov. NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 402-7744; fax: (301) 402-0010; e-mail: nadonn@nia.nih.gov. NIA - Nonhuman Primate (NHP) Tissue Bank and Aging Database The NIA developed two new resources to facilitate research in the NHP model. The NHP tissue bank contains fresh-frozen and fixed tissue donated by primate centers around the country. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/NHPTissueBankHandbook.htm. The Primate Aging Database provides an internet accessible database with data from thousands of primates around the country. It can be used to investigate the effect of age on a variety of parameters, predominantly blood chemistry and husbandry measurements. The site is password protected. The URL is http://ipad.primate.wisc.edu. NIA - Obesity, Diabetes and Aging Animal Resource (USF-ODARC) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of South Florida’s Obesity, Diabetes and Aging Research Center. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extend as far back as 15 years. This unique resource is available for collaborative studies. ODARC has a significant amount of stored tissue collected at necropsy and stored blood/plasma collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODARC colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity, Diabetes and Aging Research Center, University of South Florida, All Children’s Hospital, 801 6th Street South #9340, St. Petersburg, FL 33701. Phone: (727) 767-6993; fax: (727) 767-7443; e-mail: bchansen@aol.com. NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. IN SILICO RESOURCES NIDDK, NHLBI, and NIEHS - Nuclear Receptor Signaling Atlas The Nuclear Receptor Signaling Atlas (NURSA) has created an in silico resource comprised of curated information about Nuclear Receptors, Coregulators, Ligands, and Downstream Targets. NURSA is sponsored by NIH and provides online access through a public webportal at www.NURSA.org. Ease of navigation through a series of molecule pages allows users to make queries about Nuclear Receptors, Coactivators and Corepressors. Additional information about nuclear receptor ligands is provided, as well as primary datasets relating to expression profiling of nuclear receptors, coregulators and downstream targets. The molecule pages are hyperlinked to data contained in external databases, including NCBI, KEGG, UniProt, and others, allowing for detailed data mining. In partnership with The Endocrine Society, NURSA and Molecular Endocrinology (http://mend.endojournals.org/) have reciprocal links designed to enhance publications in Molecular Endocrinology and the information available through the NURSA molecule pages. Links to additional relevant literature citations are from PubMed at the National Library of Medicine. MISCELLANEOUS RESOURCES NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, herpes-virus, and DNA plasmids. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Matheson, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518; e-mail: lrubin@iupui.edu. The NGVL Coordinating Center at Indiana University also hosts a Web site at http://www.ngvl.org. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 82 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division for Clinical Research Resources, National Center for Research Resources at NIH. Phone: (301) 435-0790; e-mail: haywarda@ncrr.nih.gov.
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"Endocrine-Related Resources from the National Institutes of Health." Endocrinology 149, no.9 (September1, 2008): 4755–58. http://dx.doi.org/10.1210/endo.149.9.9999.
Full textAbstract:
Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. HUMAN TISSUE AND BIOLOGIC SPECIMEN RESOURCES NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. The CHTN can also provide a variety of tissue microarrays. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. The CBCTR also makes available breast cancer tissue microarrays designed by NCI statisticians to provide high statistical power for studies of stage-specific markers of breast cancer. Contact CBCTR’s Web site at http://cbctr.nci.nih.gov, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide access to over 4,000 cases of formalin-fixed, paraffin-embedded primary prostate cancer specimens, with associated pathology and clinical data. Fresh-frozen tissue is also available with limited clinical follow-up information. In addition, slides from prostate cancer tissue microarrays with associated pathology and clinical data are now available. Contact the CPCTR Web site at http://www.prostatetissues.org, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/) or Dr. Kishor Bhatia, (301) 496-7147; e-mail: bhatiak@mail.nih.gov. NCI - Breast and Ovarian Cancer Family Registries (CFRs) The Breast and Ovarian CFRs facilitate and support interdisciplinary and population-based research on the identification and characterization of breast and ovarian cancer susceptibility genes, with particular emphasis on gene-gene and gene-environment interaction research. Available from the registries are: a) family history, epidemiologic and clinical data, b) updates on cancer recurrence, morbidity and mortality in participating families, and c) biospecimens, including plasma, lymphocytes, serum, DNA, Guthrie cards or buccal smears, and paraffin blocks of tumor tissue. For further information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/BCFR) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147; e-mail: tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Diabetes Epidemiology Program, NIDDK, 6707 Democracy Blvd., Room 691, MSC 5460, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20892-5460. Phone: (301) 594-8804; fax: (301) 480-3503; e-mail: cowiec@extra.niddk.nih.gov. NIDDK - NIDDK Central Repositories (Diabetes Prevention Study) The NIDDK Central Repositories have selected biosamples from the DPT-1 (The Diabetes Prevention Type 1) study that are available to qualified investigators through an application process. These samples are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. Information about how to apply for these materials can be obtained from the NIDDK Central Repositories by contacting Ms. Helen Ray of RTI, 1-919-316-3418, or hmp@rti.org. Direct scientific-technical inquiry to the Project Officer of the NIDDK Central Repositories, Dr. Rebekah Rasooly, at phone: (301) 594-6007; e-mail: rr185i@nih.gov. Visit the Repositories Web site at http://www.niddkrepository.org. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NICHD - Reproductive Tissue Sample Repository (RTSaR) The Reproductive Tissue Sample Repository (RTSaR) is a virtual repository with online tissue sample acquisition capabilities. The RTSaR provides investigators with real-time access to human and nonhuman primate tissue and fluid inventories from four tissue bank facilities that are supported through the Specialized Cooperative Centers Program in Reproduction Research. The tissue banks are located at the University of California, San Diego (human ovary bank), Stanford University (human endometrium and DNA bank), Johns Hopkins University (male reproductive tissues and fluids), and the Oregon National Primate Research Center (nonhuman primate tissues). The web site for the RTSaR is https://rtsar.nichd.nih.gov/rtsar/login. If you wish to access the RTSaR, you can request an id and password to access the system by contacting the network administrator at RTSaR@mail.nih.gov. Once you access the system, contact information for each bank is provided. Access is open to all investigators living in North America who are supported by research and research training grants from the NIH. One id and password will be provided to each principal investigator that can be utilized by any person working in the P.I.’s laboratory, or, in the case of institutional training grants (T32) and institutional career development award programs (K12), any person supported by the aforementioned awards. NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain, cardiovascular system, endocrine system, eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Dr. John T. Lonsdale at NDRI, 8 Penn Center, 8th Floor, 1628 JFK Boulevard, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 271; fax: (215) 557-7154; e-mail: jlonsdale@ndriresource.org. The NDRI Web site is http://www.ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Mr. John Kaddis, ICR Coordinating Center Project Manager, City of Hope National Medical Center, 1500 E. Duarte Road, Duarte, California 91010. Phone (626) 359-8111, ext. 63377; fax: (626) 471-7106; e-mail: jkaddis@coh.org. The Coordinating Center hosts a Web site at http://icr.coh.org. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/1997 and consists of 3302 African-American, Caucasian, Chinese, Hispanic, and Japanese women. The SWAN Repository contains more than 350,000 blood and urine specimens generated from the study participants’ annual visits (8 visits to date), at which time medical and health history, psychosocial measures, biological measures, and anthropometric data were and are being collected. In addition, a subset of the participants are providing urine samples, collected daily over the length of one menstrual cycle, each year. More than 900,000 of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. Additionally, a DNA sample repository is also available and includes DNA as well as transformed B-lymphoblastoid cell lines from more than 1800 of the participants. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www.swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892; e-mail: mfsowers@umich.edu. HUMAN AND ANIMAL CELL AND BIOLOGIC REAGENT RESOURCES NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432; e-mail: parlow@humc.edu. Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigen Recombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera. NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. ANIMAL RESOURCES NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentColoniesHandbook/ or contact the Office of Biological Resources and Resource Development order desk. Phone: (301) 496-0181; fax: (301) 402-5597; e-mail: rodents@nia.nih.gov. NIA - Aged Rodent Tissue Bank The rodent tissue bank contains flash-frozen tissues from rodents in the NIA aged rodent colonies. Tissue is collected from rodents at 4 or 5 age points throughout the lifespan. Tissue arrays are also available. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentTissueBankHandbook/. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819; e-mail: griederf@ncrr.nih.gov. NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802; e-mail: Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048; e-mail: abrahamk@extra.niddk.nih.gov. NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs) are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from John Harding, Ph.D., National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819; e-mail: hardingj@mail.nih.gov. NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 402-7744; fax: (301) 402-0010; e-mail: nadonn@nia.nih.gov. NIA - Nonhuman Primate (NHP) Tissue Bank and Aging Database The NIA developed two new resources to facilitate research in the NHP model. The NHP tissue bank contains fresh-frozen and fixed tissue donated by primate centers around the country. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/NHPTissueBankHandbook.htm. The Primate Aging Database provides an internet accessible database with data from thousands of primates around the country. It can be used to investigate the effect of age on a variety of parameters, predominantly blood chemistry and husbandry measurements. The site is password protected. The URL is http://ipad.primate.wisc.edu. NIA - Obesity, Diabetes and Aging Animal Resource (USF-ODARC) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of South Florida’s Obesity, Diabetes and Aging Research Center. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extend as far back as 15 years. This unique resource is available for collaborative studies. ODARC has a significant amount of stored tissue collected at necropsy and stored blood/plasma collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODARC colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity, Diabetes and Aging Research Center, University of South Florida, All Children’s Hospital, 801 6th Street South #9340, St. Petersburg, FL 33701. Phone: (727) 767-6993; fax: (727) 767-7443; e-mail: bchansen@aol.com. NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. IN SILICO RESOURCES NIDDK, NHLBI, and NIEHS - Nuclear Receptor Signaling Atlas The Nuclear Receptor Signaling Atlas (NURSA) has created an in silico resource comprised of curated information about Nuclear Receptors, Coregulators, Ligands, and Downstream Targets. NURSA is sponsored by NIH and provides online access through a public webportal at www.NURSA.org. Ease of navigation through a series of molecule pages allows users to make queries about Nuclear Receptors, Coactivators and Corepressors. Additional information about nuclear receptor ligands is provided, as well as primary datasets relating to expression profiling of nuclear receptors, coregulators and downstream targets. The molecule pages are hyperlinked to data contained in external databases, including NCBI, KEGG, UniProt, and others, allowing for detailed data mining. In partnership with The Endocrine Society, NURSA and Molecular Endocrinology (http://mend.endojournals.org/) have reciprocal links designed to enhance publications in Molecular Endocrinology and the information available through the NURSA molecule pages. Links to additional relevant literature citations are from PubMed at the National Library of Medicine. MISCELLANEOUS RESOURCES NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, herpes-virus, and DNA plasmids. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Matheson, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518; e-mail: lrubin@iupui.edu. The NGVL Coordinating Center at Indiana University also hosts a Web site at http://www.ngvl.org. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 82 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division for Clinical Research Resources, National Center for Research Resources at NIH. Phone: (301) 435-0790; e-mail: haywarda@ncrr.nih.gov.
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35
Harrison, Karey. "Building Resilient Communities." M/C Journal 16, no.5 (August24, 2013). http://dx.doi.org/10.5204/mcj.716.
Full textAbstract:
This paper will compare the metaphoric structuring of the ecological concept of resilience—with its roots in Holling's 1973 paper; with psychological concepts of resilience which followed from research—such as Werner, Bierman, and French and Garmezy and Streitman) published in the early 1970s. This metaphoric analysis will expose the difference between complex adaptive systems models of resilience in ecology and studies related to resilience in relation to climate change; compared with the individualism of linear equilibrium models of resilience which have dominated discussions of resilience in psychology and economics. By examining the ontological commitments of these competing metaphors, I will show that the individualistic concept of resilience which dominates psychological discussions of resilience is incompatible with the ontological commitments of ecological concepts of resilience. Because the ontological commitments of the concepts of ecological resilience on the one hand, and psychological resilience on the other, are so at odds with one another, it is important to be clear which concept of resilience is being evaluated for its adequacy as a concept. Having clearly distinguished these competing metaphors and their ontological commitments, this paper will show that it is the complex adaptive systems model of resilience from ecology, not the individualist concept of psychological resilience, that has been utilised by both the academic discussions of adaptation to climate change, and the operationalisation of the concept of resilience by social movements like the permaculture, ecovillage, and Transition Towns movements. Ontological Metaphors My analysis of ontological metaphors draws on insights from Kuhn's (114) account of gestalt perception in scientific paradigm shifts; the centrality of the role of concrete analogies in scientific reasoning (Masterman 77); and the theorisation of ontological metaphors in cognitive linguistics (Gärdenfors). Figure 1: Object Ontological commitments reflect the shared beliefs within a community about the sorts of things that exist. Our beliefs about what exists are shaped by our sensory and motor interactions with objects in the physical world. Physical objects have boundaries and surfaces that separate the object from not-the-object. Objects have insides and outsides, and can be described in terms of more-or-less fixed and stable “objective” properties. A prototypical example of an “object” is a “container”, like the example shown in Figure 1. Ontological metaphors allow us to conceive of “things” which are not objects as if they were objects by picking “out parts of our experience and treat them as [if they were] discrete entities or substances of a uniform kind” (Lakoff and Johnson 25). We use ontological metaphors when we imagine a boundary around a collection of things, such as the members of a team or trees in a forest, and conceive of them as being in a container (Langacker 191–97). We can then think of “things” like a team or forest as if they were a single entity. We can also understand processes and activities as if they were things with boundaries. Whether or not we characterise some aspect of our experience as a noun (a bounded entity) or as a verb (a process that occurs over time) is not determined by the nature of things in themselves, but by our understanding and interpretation of our experience (Langacker 233). In this paper I employ a technique that involves examining the details of “concrete images” from the source domains for metaphors employed in the social sciences to expose for analysis their ontological commitments (Harrison, “Politics” 215; Harrison, “Economics” 7). By examining the ontological metaphors that structure the resilience literature I will show how different conceptions of resilience reflect different beliefs and commitments about the sorts of “things” there are in the world, and hence how we can study and understand these “things.” Engineering Metaphors In his discussion of engineering resilience, Holling (“Engineering Vs. Ecological” 33) argues that this conception is the “foundation for economic theory”, and defined in terms of “resistance to disturbance and the speed of return to the equilibrium” or steady state of the system. Whereas Holling takes his original example of the use of the engineering concept of resilience from economics, Pendall, Foster, & Cowell (72), and Martin-Breen and Anderies (6) identify it as the concept of resilience that dominates the field of psychology. They take the stress loading of bridges to be the engineering source for the metaphor. Figure 2: Pogo stick animation (Source: Blacklemon 67, CC http://en.wikipedia.org/wiki/File:Pogoanim.gif). In order to understand this metaphor, we need to examine the characteristics of the source domain for the metaphor. A bridge can be “under tension, compression or both forces at the same time [and] experiences what engineers define as stress” (Matthews 3). In order to resist these forces, bridges need to be constructed of material which “behave much like a spring” that “strains elastically (deforms temporarily and returns to its original shape after a load has been removed) under a given stress” (Gordon 52; cited in Matthews). The pogostick shown in Figure 2 illustrates how a spring returns to its original size and configuration once the load or stress is removed. WGBH Educational Foundation provides links to simple diagrams that illustrate the different stresses the three main designs of bridges are subject to, and if you compare Computers & Engineering's with Gibbs and Bourne's harmonic spring animation you can see how both a bridge under live load and the pogostick in Figure 2 oscillate just like an harmonic spring. Subject to the elastic limits of the material, the deformation of a spring is proportional to the stress or load applied. According to the “modern theory of elasticity [...] it [is] possible to deduce the relation between strain and stress for complex objects in terms of intrinsic properties of the materials it is made of” (“Hooke’s Law”). When psychological resilience is characterised in terms of “properties of individuals [that] are identified in isolation” (Martin-Breen and Anderies 12); and in terms of “behaviours and attributes [of individuals] that allow people to get along with one another and to succeed socially” (Pendall, Foster, and Cowell 72), they are reflecting this engineering focus on the properties of materials. Martin-Breen and Anderies (42) argue that “the Engineering Resilience framework” has been informed by ontological metaphors which treat “an ecosystem, person, city, government, bridge, [or] society” as if it were an object—“a unified whole”. Because this concept of resilience treats individuals as “objects,” it leads researchers to look for the properties or characteristics of the “materials” which individuals are “made of”, which are either elastic and allow them to “bounce” or “spring” back after stress; or are fragile and brittle and break under load. Similarly, the Designers Institute (DINZ), in its conference on “Our brittle society,” shows it is following the engineering resilience approach when it conceives of a city or society as an object which is made of materials which are either “strong and flexible” or “brittle and fragile”. While Holling characterises economic theory in terms of this engineering metaphor, it is in fact chemistry and the kinetic theory of gases that provides the source domain for the ontological metaphor which structures both static and dynamic equilibrium models within neo-classical economics (Smith and Foley; Mirowski). However, while springs are usually made out of metals, they can be made out of any “material [that] has the required combination of rigidity and elasticity,” such as plastic, and even wood (in a bow) (“Spring (device)”). Gas under pressure turns out to behave the same as other springs or elastic materials do under load. Because both the economic metaphor based on equilibrium theory of gases and the engineering analysis of bridges under load can both be subsumed under spring theory, we can treat both the economic (gas) metaphor and the engineering (bridge) metaphor as minor variations of a single overarching (spring) metaphor. Complex Systems Metaphors Holling (“Resilience & Stability” 13–15) critiques equilibrium models, arguing that non-deterministic, complex, non-equilibrium and multi-equilibrium ecological systems do not satisfy the conditions for application of equilibrium models. Holling argues that unlike the single equilibrium modelled by engineering resilience, complex adaptive systems (CAS) may have multi or no equilibrium states, and be non-linear and non-deterministic. Walker and Salt follow Holling by calling for recognition of the “dynamic complexity of the real world” (8), and that “these [real world] systems are complex adaptive systems” (11). Martin-Breen and Anderies (7) identify the key difference between “systems” and “complex adaptive systems” resilience as adaptive capacity, which like Walker and Salt (xiii), they define as the capacity to maintain function, even if system structures change or fail. The “engineering” concept of resilience focuses on the (elastic) properties of materials and uses language associated with elastic springs. This “spring” metaphor emphasises the property of individual components. In contrast, ecological concepts of resilience examine interactions between elements, and the state of the system in a multi-dimensional phase space. This systems approach shows that the complex behaviour of a system depends at least as much on the relationships between elements. These relationships can lead to “emergent” properties which cannot be reduced to the properties of the parts of the system. To explain these relationships and connections, ecologists and climate scientists use language and images associated with landscapes such as 2-D cross-sections and 3-D topology (Holling, “Resilience & Stability” 20; Pendall, Foster, and Cowell 74). Figure 3 is based on an image used by Walker, Holling, Carpenter and Kinzig (fig. 1b) to represent possible states of ecological systems. The “basins” in the image rely on our understanding of gravitational forces operating in a 3-D space to model “equilibrium” states in which the system, like the “ball” in the “basin”, will tend to settle. Figure 3: (based on Langston; in Walker et al. fig. 1b) – Tipping Point Bifurcation Wasdell (“Feedback” fig. 4) adapted this image to represent possible climate states and explain the concept of “tipping points” in complex systems. I have added the red balls (a, b, and c to replace the one black ball (b) in the original which represented the state of the system), the red lines which indicate the path of the ball/system, and the black x-y axis, in order to discuss the image. Wasdell (“Feedback Dynamics” slide 22) takes the left basin to represents “the variable, near-equilibrium, but contained dynamics of the [current] glacial/interglacial period”. As a result of rising GHG levels, the climate system absorbs more energy (mostly as heat). This energy can force the system into a different, hotter, state, less amenable to life as we know it. This is shown in Figure 3 by the system (represented as the red ball a) rising up the left basin (point b). From the perspective of the gravitational representation in Figure 3, the extra energy in the basin operates like the rotation in a Gravitron amusement ride, where centrifugal force pushes riders up the sides of the ride. If there is enough energy added to the climate system it could rise up and jump over the ridge/tipping point separating the current climate state into the “hot earth” basin shown on the right. Once the system falls into the right basin, it may be stuck near point c, and due to reinforcing feedbacks have difficulty escaping this new “equilibrium” state. Figure 4 represents a 2-D cross-section of the 3-D landscape shown in Figure 3. This cross-section shows how rising temperature and greenhouse gas (GHG) concentrations in a multi-equilibrium climate topology can lead to the climate crossing a tipping point and shifting from state a to state c. Figure 4: Topographic cross-section of possible climate states (derived from Wasdell, “Feedback” 26 CC). As Holling (“Resilience & Stability”) warns, a less “desirable” state, such as population collapse or extinction, may be more “resilient”, in the engineering sense, than a more desirable state. Wasdell (“Feedback Dynamics” slide 22) warns that the climate forcing as a result of human induced GHG emissions is in fact pushing the system “far away from equilibrium, passed the tipping point, and into the hot-earth scenario”. In previous episodes of extreme radiative forcing in the past, this “disturbance has then been amplified by powerful feedback dynamics not active in the near-equilibrium state [… and] have typically resulted in the loss of about 90% of life on earth.” An essential element of system dynamics is the existence of (delayed) reinforcing and balancing causal feedback loops, such as the ones illustrated in Figure 5. Figure 5: Pre/Predator model (Bellinger CC-BY-SA) In the case of Figure 5, the feedback loops illustrate the relationship between rabbit population increasing, then foxes feeding on the rabbits, keeping the rabbit population within the carrying capacity of the ecosystem. Fox predation prevents rabbit over-population and consequent starvation of rabbits. The reciprocal interaction of the elements of a system leads to unpredictable nonlinearity in “even seemingly simple systems” (“System Dynamics”). The climate system is subject to both positive and negative feedback loops. If the area of ice cover increases, more heat is reflected back into space, creating a positive feedback loop, reinforcing cooling. Whereas, as the arctic ice melts, as it is doing at present (Barber), heat previously reflected back into space is absorbed by now exposed water, increasing the rate of warming. Where negative feedback (system damping) dominates, the cup-shaped equilibrium is stable and system behaviour returns to base when subject to disturbance. [...]The impact of extreme events, however, indicates limits to the stable equilibrium. At one point cooling feedback loops overwhelmed the homeostasis, precipitating the "snowball earth" effect. […] Massive release of CO2 as a result of major volcanic activity […] set off positive feedback loops, precipitating runaway global warming and eliminating most life forms at the end of the Permian period. (Wasdell, “Topological”) Martin-Breen and Anderies (53–54), following Walker and Salt, identify four key factors for systems (ecological) resilience in nonlinear, non-deterministic (complex adaptive) systems: regulatory (balancing) feedback mechanisms, where increase in one element is kept in check by another element; modularity, where failure in one part of the system will not cascade into total systems failure; functional redundancy, where more than one element performs every essential function; and, self-organising capacity, rather than central control ensures the system continues without the need for “leadership”. Transition Towns as a Resilience Movement The Transition Town (TT) movement draws on systems modelling of both climate change and of Limits to Growth (Meadows et al.). TT takes seriously Limits to Growth modelling that showed that without constraints in population and consumption the world faces systems collapse by the middle of this century. It recommends community action to build as much capacity as possible to “maintain existence of function”—Holling's (“Engineering vs. Ecological” 33) definition of ecological resilience—in the face of failing economic, political and environmental systems. The Transition Network provides a template for communities to follow to “rebuild resilience and reduce CO2 emissions”. Rob Hopkins, the movements founder, explicitly identifies ecological resilience as its central concept (Transition Handbook 6). The idea for the movement grew out of a project by (2nd year students) completed for Hopkins at the Kinsale Further Education College. According to Hopkins (“Kinsale”), this project was inspired by Holmgren’s Permaculture principles and Heinberg's book on adapting to life after peak oil. Permaculture (permanent agriculture) is a design system for creating agricultural systems modelled on the diversity, stability, and resilience of natural ecosystems (Mollison ix; Holmgren xix). Permaculture draws its scientific foundations from systems ecology (Holmgren xxv). Following CAS theory, Mollison (33) defines stability as “self-regulation”, rather than “climax” or a single equilibrium state, and recommends “diversity of beneficial functional connections” (32) rather than diversity of isolated elements. Permaculture understands resilience in the ecological, rather than the engineering sense. The Transition Handbook (17) “explores the issues of peak oil and climate change, and how when looked at together, we need to be focusing on the rebuilding of resilience as well as cutting carbon emissions. It argues that the focus of our lives will become increasingly local and small scale as we come to terms with the real implications of the energy crisis we are heading into.” The Transition Towns movement incorporate each of the four systems resilience factors, listed at the end of the previous section, into its template for building resilient communities (Hopkins, Transition Handbook 55–6). Many of its recommendations build “modularity” and “self-organising”, such as encouraging communities to build “local food systems, [and] local investment models”. Hopkins argues that in a “more localised system” feedback loops are tighter, and the “results of our actions are more obvious”. TT training exercises include awareness raising for sensitivity to networks of (actual or potential) ecological, social and economic relationships (Hopkins, Transition Handbook 60–1). TT promotes diversity of local production and economic activities in order to increase “diversity of functions” and “diversity of responses to challenges.” Heinberg (8) wrote the forward to the 2008 edition of the Transition Handbook, after speaking at a TotnesTransition Town meeting. Heinberg is now a senior fellow at the Post Carbon Institute (PCI), which was established in 2003 to “provide […] the resources needed to understand and respond to the interrelated economic, energy, environmental, and equity crises that define the 21st century [… in] a world of resilient communities and re-localized economies that thrive within ecological bounds” (PCI, “About”), of the sort envisioned by the Limits to Growth model discussed in the previous section. Given the overlapping goals of PCI and Transition Towns, it is not surprising that Rob Hopkins is now a Fellow of PCI and regular contributor to Resilience, and there are close ties between the two organisations. Resilience, which until 2012 was published as the Energy Bulletin, is run by the Post Carbon Institute (PCI). Like Transition Towns, Resilience aims to build “community resilience in a world of multiple emerging challenges: the decline of cheap energy, the depletion of critical resources like water, complex environmental crises like climate change and biodiversity loss, and the social and economic issues which are linked to these. […] It has [its] roots in systems theory” (PCI, “About Resilience”). Resilience.org says it follows the interpretation of Resilience Alliance (RA) Program Director Brian Walker and science writer David Salt's (xiii) ecological definition of resilience as “the capacity of a system to absorb disturbance and still retain its basic function and structure.“ Conclusion This paper has analysed the ontological metaphors structuring competing conceptions of resilience. The engineering resilience metaphor dominates in psychological resilience research, but is not adequate for understanding resilience in complex adaptive systems. Ecological resilience, on the other hand, dominates in environmental and climate change research, and is the model of resilience that has been incorporated into the global permaculture and Transition Towns movements. References 2nd year students. Kinsale 2021: An Energy Descent Action Plan. Kinsale, Cork, Ireland: Kinsale Further Education College, 2005. 16 Aug. 2013 ‹http://transitionculture.org/wp-content/uploads/KinsaleEnergyDescentActionPlan.pdf>. Barber, Elizabeth. “Arctic Ice Continues to Thin, and Thin, European Satellite Reveals.” Christian Science Monitor 11 Sep. 2013. 25 Sep. 2013 ‹http://www.csmonitor.com/Environment/2013/0911/Arctic-ice-continues-to-thin-and-thin-European-satellite-reveals>. 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New Society Publishers, 2004. Holling, Crawford Stanley. “Engineering Resilience versus Ecological Resilience.” Engineering within Ecological Constraints. Ed. Peter Schulze. Washington, DC: National Academy Press, 1996. 31–44. 11 Aug. 2013 ‹http://www.nap.edu/openbook.php?record_id=4919&page=31>. ———. “Resilience and Stability of Ecological Systems.” Annual Review of Ecology and Systematics 4.1 (1973): 1–23. 11 Aug. 2013 ‹http://webarchive.iiasa.ac.at/Admin/PUB/Documents/RP-73-003.pdf>. Holmgren, David. Permaculture: Principles & Pathways beyond Sustainability. Holmgren Design Services, 2002. Hopkins, Rob. “Kinsale Energy Descent Action Plan (2005).” Transition Culture: an Evolving Exploration into the Head, Heart and Hands of Energy Descent. n.d. 16 Aug. 2013 ‹http://transitionculture.org/essential-info/pdf-downloads/kinsale-energy-descent-action-plan-2005/>. ———. The Transition Handbook: From Oil Dependency to Local Resilience. Green Books, 2008. Print. ———. 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Masterman, Margaret. “The Nature of a Paradigm.” Criticism and the Growth of Knowledge. Eds. Imre Lakatos & Alan Musgrave. Cambridge University Press, 1970. 59–89. Matthews, Theresa. “The Physics of Bridges.” Yale-New Haven Teachers Institute. 2013. 14 Aug. 2013 ‹http://www.yale.edu/ynhti/curriculum/units/2001/5/01.05.08.x.html>. Meadows, Donella H. et al. The Limits to Growth: A Report for the Club of Rome’s Project on the Predicament of Mankind. Universe Books, 1972. Mirowski, Philip. “From Mandelbrot to Chaos in Economic Theory.” Southern Economic Journal 57.2 (1990): 289–307. Mollison, Bill. Permaculture: A Designers’ Manual. Tagari Publications, 1988. PCI. “About.” Post Carbon Institute. 16 July 2012. 16 Aug. 2013 ‹http://www.postcarbon.org/about/>. ———. “About Resilience.org.” Resilience 16 July 2012. 16 Aug. 2013 ‹http://www.resilience.org/about>. Pendall, Rolf, Kathryn A. Foster, and Margaret Cowell. “Resilience and Regions: Building Understanding of the Metaphor.” Cambridge Journal of Regions, Economy and Society 3.1 (2010): 71–84. 4 Aug. 2013 ‹http://cjres.oxfordjournals.org/content/3/1/71>. RA. “About RA.” Resilience Alliance 2013. 16 Aug. 2013 ‹http://www.resalliance.org/index.php/about_ra>. Smith, Eric, and Duncan K. Foley. “Classical Thermodynamics and Economic General Equilibrium Theory.” Journal of Economic Dynamics and Control 32.1 (2008): 7–65. Transition Network. “About Transition Network.” Transition Network. 2012. 16 Aug. 2013 ‹http://www.transitionnetwork.org/about>. Walker, B. H., and David Salt. Resilience Thinking: Sustaining Ecosystems and People in a Changing World. Island Press, 2006. Walker, Brian et al. “Resilience, Adaptability and Transformability in Social–Ecological Systems.” Ecology and Society 9.2 (2004): 5. Wasdell, David. “A Topological Approach.” The Feedback Crisis in Climate Change: The Meridian Report. n.d. 16 Aug. 2013 ‹http://www.meridian.org.uk/Resources/Global%20Dynamics/Feedback%20Crisis/frameset1.htm?p=3>. ———. “Beyond the Tipping Point: Positive Feedback and the Acceleration of Climate Change.” The Foundation for the Future, Humanity 3000 Workshop. Seattle, 2006. ‹http://www.meridian.org.uk/_PDFs/BeyondTippingPoint.pdf>. ———. “Feedback Dynamics and the Acceleration of Climate Change.” Winterthur, 2008. 16 Aug. 2013 ‹http://www.crisis-forum.org.uk/events/Workshop1/Workshop1_presentations/wasdellpictures/wasdell_clubofrome.php>. Werner, Emmy E., Jessie M. Bierman, and Fern E. French. The Children of Kauai: A Longitudinal Study from the Prenatal Period to Age Ten. University of Hawaii Press, 1971.WGBH. “Bridge Basics.” Building Big. 2001. 14 Aug. 2013 ‹http://www.pbs.org/wgbh/buildingbig/bridge/basics.html>. 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Glenn, Phillip. "On Sexism in Conversational Joking." M/C Journal 6, no.5 (November1, 2003). http://dx.doi.org/10.5204/mcj.2248.
Full textAbstract:
Sometimes people engage in joking talk that might be characterized as blatantly sexist.1 A judgmental label such as "sexist" does not mean the same thing to different people. I've picked instances of joking that I think most readers would judge as sexist. That is not a claim that the participants themselves orient to the talk as sexist; or if they did, that they would agree that such joking is problematic. Indeed, one purpose of undertaking such analysis is to attempt to characterize what the talk is and what it is doing for its producers in the first place. What do people accomplish in and through joking based on negative sexual stereotypes? Three examples are presented below. One involves demeaning joking about categories of women; the other two involve demeaning joking about particular individuals. 2 In all three cases, this talk provides a resource for participants to mark aspects of identity and relationship while furthering joking and laughter. The laughables and laughter provide sequential warrants for extending such talk. Furthermore, analysis will show how participants may implicate themselves more or less in offensive talk; there are minimal ways to play along just as there are ways to mark one's full cooperation in what is getting said. These issues will be taken up in the discussion of each instance and in the closing remarks. Example 1: Stan and Dave Two university students are talking on the phone. At the moment of interest, Stan is telling of his recent whereabouts. Dave takes this mention of a wedding to make a comment (line 39) that opens up a sequence of demeaning talk about women: Dave's initial assessment of the "wool" at weddings is gratuitous in that it takes one element from Stan's prior telling and uses it to sexualize the talk. Weddings are now occasions for noticing good-looking women. Stan immediately agrees with Dave's assessment3 and provides an alternative term, "coot" (line 40), thereby implicating himself fully in the demeaning talk. Their use of metaphorical language helps key a shift into a play frame (Goffman, 1974), and they sustain it with additional metaphors ("shit," "dog meat"). Stan compares girls "down here" (in the college town) to the city girls "up there" (in the big city in that state) in terms of their desirability, sexual availability, and demeanor (lines 44-54). They compare overweight girls to livestock and laugh (lines 58-66). Following Dave's laughter, Stan poses a question that takes them to another topic (lines 67-68). The sexist nature of this talk lies both in the activities done and in the terms used in doing those actions. They refer to women in colloquial, sexual, reductionistic terms, based on the objectifying male gaze. They assess women as either good-looking and a "challenge" or overweight but "easy to grease," both sets of comparisons playing on derogatory stereotypes (cold/standoffish v. easy/sluttish; thin/desirable v. overweight/undesirable). They compare women to wool, coot, shit, dog meat, and livestock. We can see these young men doing identity and relationship work through this talk. By making the blanket assertion about "wool" at weddings, Dave positions himself as worldly and knowledgeable enough to make this assessment. Stan's agreement asserts his membership in the club of discerning, heterosexual male. They claim knowledge of whether women are "easy to grease" or not. Dave positions himself as picking and choosing women for sexual partners, provided they keep themselves thin enough. They are also accomplishing relationship work. Dave is the leader who initiates the assessments. Stan is the follower who reinforces Dave's claims and laughs at Dave's jokes. "Women" serve as topical resources for these endeavors. Example 2: Dan and Jeff Two men talk on the phone, interspersing playful joking with family news and business (Apparently, Dan manages an apartment complex and Jeff does work for him). After a couple of minutes of conversation, Jeff asks Dan's Thanksgiving holiday plans and Dan replies that he and his wife will leave town and leave another person in charge of the apartments. Reference to this person moves them into blatantly sexist talk: Dan's initial reference to Dana as "one a the girls" (line 79) genders the scene4 , but he does not refer to the specific woman until following Jeff's show of interest (line 82). He identifies the "girl" by first name only in a question that calls on Jeff to confirm recognition of her. Jeff does so by providing an additional descriptor of her as having "big- wangers" (line 84)--hearable as a colloquialism for breasts. Jeff's questioning intonation invites Dan to confirm that they are talking about the same person. In this way it slips sexism in as part of the ongoing talk activity5 . It also serves to shift the talk from the topic of holiday plans to Donna and her appearance. Dan produces an unenthusiastic confirmation (line 86) and a nonsexual reference to her by a room location (lines 88-89). Jeff again assesses while shifting the referent from breasts to the whole person ("Big girl, bi:g.="). Dan seconds this assessment and links back to the previous "wangers" reference by adding that "everything's" big on her. Jeff's expressed appreciation (line 94) of Donna draws laughter from Dan but no reciprocal appreciation. Jeff again appreciates (line 98) and Dan agrees but does not share the assessment, implicitly marking it as Jeff's alone (lines 100-101). Dan then asks Jeff's holiday plans, and this moves them away from the playful talk about Donna. Like in the preceding instance, here both playfulness and sexism get keyed by an assessment employing metaphoric language that reduces a woman to a (presumably sexually attractive) body part and instantiates the objectifying male gaze. By this assessment, Jeff identifies himself as heterosexual male who notices women's possible sexual attractiveness. Unlike the previous instance, however, here a co-participant displays some resistance (Glenn, 2003, p. 150). "Wangers" poses a test of sorts for Dan: to "get it" he must recognize the colloquialism, know what constitutes "big," and show whether or not he has noticed this part of Donna's anatomy. To do so is to participate in sexist talk. Dan shows that he understands the talk and has noticed Dana's appearance; he also shows resistance to participating in the sexualized assessments of her. Nevertheless, the "wangers" talk provides a resource for pulling them into joking interaction. While joking they can display identities as heterosexual males who recognize and can talk about sexual, visual features of women. Example 3: W and T Two university students talk in a dormitory room6 . W is telling a story about Monica, who is his "little sister" via his fraternity. Such a relationship implies in part that they spend time together in non-dating, non-sexual relationship. As we pick up on the story in progress, he is telling about her coming out of her room and asking him how she looks. His reference to not starting with her "on the wrong foot" suggests that she was treating him (inappropriately) like a date. In overlap with his talk that would return to events in the story (line 34), T offers a negative assessment of Monica's looks. From there they move into joking talk about Melissa as a possible sexual partner: T packages his assessment of Monica's looks (lines 35-36) with a tag question that explicitly seeks W's agreement. W's ambiguous response marks his unwillingness to agree with the assessment. Orienting to this, T produces a subsequent version (Davidson, 1984) that begins with a more positive but also more explicitly sexual description (lines 39-40). W affiliates by assessing Monica's breasts (line 42). This line also helps key a shift into playfulness by its repetition of the three part assessment: "XXX little XXX" ("nice litt:le- bo:dy" and "cute little breasts"). 7 In a mock-Southern dialect (associated with a stereotypical "redneck" identity), T invokes and then declines the possibility of doing her violence (line 44). W affiliates in expressing sexual desire "in character" also using a mock-Southern dialect (lines 46, 48-49). He makes a sexual pun on the word "rise" (51) which T reworks (52). After lengthy shared laughter, W resumes his story (line 58). These two young men talk about Monica, not as a "little sister" (her role in W's story) but as a sexual object. They describe her body parts in demeaning terms. They invoke joking identities as sexually violent characters who might consider killing a girl if she isn't attractive enough. They get to this talk by T derailing W's story in progress and W going along with the derailment. Derailing the story also means unmasking W's character in the story as someone who is concerned that his "little sister" might be treating him as a date. Dislodging W's big brother identity brings him to acknowledge that he, like T, has turned the male gaze on Monica and can provide assessments of her body and attractiveness. It allows space for them affiliate as heterosexual males who view women and women's bodies. More specifically, they align in their (mildly) positive assessment of Melissa. Talking about Monica as a sexual object provides them a basis for joking, doing character voices, punning, and sharing laughter. Discussion These three instances share several common features. In each, Speaker A is engaged in an extended talk activity (listing events, recounting holiday plans, telling a story). Speaker B plays off of some aspect of Speaker A's talk to introduce a sexually-based assessment of a woman or women. Speaker A responds and the participants move into joking and laughter. All three instances involve "dissector" talk (Hopper, 2003, p. 149) that reduces women to supposedly desirable body parts (wool, wangers, and breasts). The sexual items B Speakers introduce are gratuitous in that they do not pursue the topic of talk on the floor but rather seize an opportunity to sexualize the talk. In the course of doing so they accomplish moving the talk away from what it was in the preceding turn. They initiate a new sequence in which response to the sexual item is relevant. At the same time, in two of the three instances the A speakers explicitly provide a basis for gendering the talk in their previous turns ("one of the girls" and "let's not start this off on the wrong foot"). Joking and laughter occur within sequential environments conducive to producing sexually demeaning talk that forwards an ecology of prejudice. Such talk provides materials for participants to display interactional intimacy. A speaker may introduce sexual references in order to move towards displays of like-mindedness. In each of the three instances, the B speaker produces an impropriety-a potentially offensive comment or term. Jefferson, Sacks, & Schegloff (1987) show the range of responses relevant to an impropriety, ranging from disaffiliation to appreciating with laughter and/or talk to escalating with a new impropriety. To disaffiliate from such an impropriety is to reject the proposed intimate relationship and impose distance. An escalation following an impropriety ratifies a mutual display of interactional intimacy. A first joke or humorous remark prompting laughter provides a sequential warrant for any speaker producing another such to extend the laughter (Glenn, 2003, Ch. 4). Laughter becomes a goal for its own sake. Thus it is no accident that such intimacy sequences routinely accompany (and get accomplished through) joking talk. A second speaker producing a next humorous or playful impropriety both forwards the laughing environment and ratifies like-mindedness. The introduction of sexual joking, whether it involves assessments, metaphorical language, or stereotyping, presents a potent interactional crossroads. By acknowledging the sexualized items the A speakers implicate themselves in this kind of talk. However, if the A Speakers disattend the sexual talk they risk being treated as naive, hypocritical, puritanical, unfriendly, or (perhaps worst of all for these individuals) not a "real" man8. For all these reasons, it is not surprising to find sexually demeaning talk occurring in environments characterized by joking, humor, and laughter. Affirming identity and pursuing relational intimacy are not in and of themselves problematic actions. Neither, of course, is joking. We can ask ourselves what alternatives exist for these men to joke, affirm masculinity, and affiliate, without demeaning women. Yet asking such questions and labeling this talk "sexist" are part of our interaction as writer and reader, not theirs. They produced their talk for and with each other, 9 and substantive critique of such talk will benefit from coming to grips with how it unfolds in situ and what it is about for the people producing it. Otherwise we risk reifying a divide between participants' and analysts' worlds that trivializes both. Notes 1. For a discussion of sexism see Hopper, 2003, 27-30. 2. That these all involve (presumably heterosexual) males talking about females is a matter of convenience sampling. It does not mean that only males engage in such talk, although it is possible that certain groups do so with greater regularity. 3. Interestingly, Stan locates his assessment in a single wedding; Dave's assessment is of weddings, generalized. 4. See analysis of this in Hopper, 2003, pp. 122-123; also see Hopper and LeBaron, 1998 characterizing how participants bring gender into talk 5. See Sacks and Schegloff (1979) regarding rules for person reference in conversation. 6. See insightful analyses of this conversation in Beach, 2000, and Hopper, 2003, p. 162. 7. For a discussion of repetition's role in triggering play, see Hopper and Glenn, 1994. 8. Sacks (1974) shows how in a teenage group therapy session dirty jokes may pose "understanding tests" for which those caught not "getting" the joke may be teased or regarded as naïve. Glenn (2003) shows how a hearer failing to get a sexual joke leads him to be a victim of laughing at. 9. Their talk may also orient to other present and future listeners; we can only speculate how knowledge of being recorded might have figured in their interactions. Works Cited Bateson, G. (1972). A theory of play and fantasy. In Steps to an ecology of mind (pp. 177-193). New York: Ballantine. Beach. W. A. (2000). Inviting collaborations in stories about a woman. Language in Society, 29, 379-407. Booker, J. L. (1991). The Jewish American Princess and other myths: The many faces of self hatred. New York: Shapolsky Publishers. Davidson, J. A. (1984). Subsequent versions of invitations, offers, requests, and proposals dealing with potential or actual rejection. In: J. M. Atkinson & J. Heritage (Eds.), Structures of social action: Studies in conversation analysis (pp. 102-128). Cambridge University Press. Glenn, P. (2003). Laughter in interaction. Cambridge, MA: Cambridge University Press. Goffman, E. (1974). Frame analysis; An essay on the organization of experience. New York: Harper & Row. Hopper, R. (2003). Gendering talk. East Lansing: Michigan State University Press. Hopper, R., Glenn, P. J. (1994). Repetition and play in conversation. In: B. Johnstone (Ed.), Repetition in discourse: Interdisciplinary perspectives, Vol. II (pp. 29-40). Norwood, NJ: Ablex. Hopper, R., & LeBaron , C. (1998). How gender creeps into talk. Research on Language and Social Interaction, 31, 1, 59-74. Jefferson, G., Sacks, H., & Schegloff, E. (1987). Notes on laughter in the pursuit of intimacy. In G. Button & J. R. E. Lee (Eds.), Talk and social organisation (pp. 152-205). Clevedon: Multilingual Matters. Sacks, H. (1974). An analysis of the course of a joke's telling in conversation. In R. Bauman and J. Sherzer (Eds.), Explorations in the ethnography of speaking (pp. 337-353). London: Cambridge University Press. Sacks, H., & Schegloff, E. A. (1979). Two preferences in the organization of reference to persons in conversation and their interaction. In G. Psathas (Ed.), Everyday language; Studies in ethnomethdology (pp. 15-21). New York: Irvington. Tannen, D. (1989). Talking voices: Repetition, dialogue and imagery in conversational discourse. Cambridge University Press. Links Transcription symbols http://www-staff.lboro.ac.uk/~ssca1/notation.htm Citation reference for this article MLA Style Glenn, Phillip. "On Sexism in Conversational Joking" M/C: A Journal of Media and Culture <http://www.media-culture.org.au/0311/1-glenn-feature-sexism.html>. APA Style Glenn, P. (2003, Nov 10). On Sexism in Conversational Joking. M/C: A Journal of Media and Culture, 6, <http://www.media-culture.org.au/0311/1-glenn-feature-sexism.html>
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Hall, Karen, and Patrick Sutczak. "Boots on the Ground: Site-Based Regionality and Creative Practice in the Tasmanian Midlands." M/C Journal 22, no.3 (June19, 2019). http://dx.doi.org/10.5204/mcj.1537.
Full textAbstract:
IntroductionRegional identity is a constant construction, in which landscape, human activity and cultural imaginary build a narrative of place. For the Tasmanian Midlands, the interactions between history, ecology and agriculture both define place and present problems in how to recognise, communicate and balance these interactions. In this sense, regionality is defined not so much as a relation of margin to centre, but as a specific accretion of environmental and cultural histories. According weight to more-than-human perspectives, a region can be seen as a constellation of plant, animal and human interactions and demands, where creative art and design can make space and give voice to the dynamics of exchange between the landscape and its inhabitants. Consideration of three recent art and design projects based in the Midlands reveal the potential for cross-disciplinary research, embedded in both environment and community, to create distinctive and specific forms of connectivity that articulate a regional identify.The Tasmanian Midlands have been identified as a biodiversity hotspot (Australian Government), with a long history of Aboriginal cultural management disrupted by colonial invasion. Recent archaeological work in the Midlands, including the Kerry Lodge Archaeology and Art Project, has focused on the use of convict labour during the nineteenth century in opening up the Midlands for settler agriculture and transport. Now, the Midlands are placed under increasing pressure by changing agricultural practices such as large-scale irrigation. At the same time as this intensification of agricultural activity, significant progress has been made in protecting, preserving and restoring endemic ecologies. This progress has come through non-government conservation organisations, especially Greening Australia and their program Tasmanian Island Ark, and private landowners placing land under conservation covenants. These pressures and conservation activities give rise to research opportunities in the biological sciences, but also pose challenges in communicating the value of conservation and research outcomes to a wider public. The Species Hotel project, beginning in 2016, engaged with the aims of restoration ecology through speculative design while The Marathon Project, a multi-year curatorial art project based on a single property that contains both conservation and commercially farmed zones.This article questions the role of regionality in these three interconnected projects—Kerry Lodge, Species Hotel, and Marathon—sited in the Tasmanian Midlands: the three projects share a concern with the specificities of the region through engagement with specifics sites and their histories and ecologies, while also acknowledging the forces that shape these sites as far more mobile and global in scope. It also considers the interdisciplinary nature of these projects, in the crossover of art and design with ecological, archaeological and agricultural practices of measuring and intervening in the land, where communication and interpretation may be in tension with functionality. These projects suggest ways of working that connect the ecological and the cultural spheres; importantly, they see rural locations as sites of knowledge production; they test the value of small-scale and ephemeral interventions to explore the place of art and design as intervention within colonised landscape.Regions are also defined by overlapping circles of control, interest, and authority. We test the claim that these projects, which operate through cross-disciplinary collaboration and network with a range of stakeholders and community groups, successfully benefit the region in which they are placed. We are particularly interested in the challenges of working across institutions which both claim and enact connections to the region without being centred there. These projects are initiatives resulting from, or in collaboration with, University of Tasmania, an institution that has taken a recent turn towards explicitly identifying as place-based yet the placement of the Midlands as the gap between campuses risks attenuating the institution’s claim to be of this place. Paul Carter, in his discussion of a regional, site-specific collaboration in Alice Springs, flags how processes of creative place-making—operating through mythopoetic and story-based strategies—requires a concrete rather than imagined community that actively engages a plurality of voices on the ground. We identify similar concerns in these art and design projects and argue that iterative and long-term creative projects enable a deeper grappling with the complexities of shared regional place-making. The Midlands is aptly named: as a region, it is defined by its geographical constraints and relationships to urban centres. Heading south from the northern city of Launceston, travellers on the Midland Highway see scores of farming properties networking continuously for around 175 kilometres south to the outskirts of Brighton, the last major township before the Tasmanian capital city of Hobart. The town of Ross straddles latitude 42 degrees south—a line that has historically divided Tasmania into the divisions of North and South. The region is characterised by extensive agricultural usage and small remnant patches of relatively open dry sclerophyll forest and lowland grassland enabled by its lower attitude and relatively flatter terrain. The Midlands sit between the mountainous central highlands of the Great Western Tiers and the Eastern Tiers, a continuous range of dolerite hills lying south of Ben Lomond that slope coastward to the Tasman Sea. This area stretches far beyond the view of the main highway, reaching east in the Deddington and Fingal valleys. Campbell Town is the primary stopping point for travellers, superseding the bypassed towns, which have faced problems with lowering population and resulting loss of facilities.Image 1: Southern Midland Landscape, Ross, Tasmania, 2018. Image Credit: Patrick Sutczak.Predominantly under private ownership, the Tasmanian Midlands are a contested and fractured landscape existing in a state of ecological tension that has occurred with the dominance of western agriculture. For over 200 years, farmers have continually shaped the land and carved it up into small fragments for different agricultural agendas, and this has resulted in significant endemic species decline (Mitchell et al.). The open vegetation was the product of cultural management of land by Tasmanian Aboriginal communities (Gammage), attractive to settlers during their distribution of land grants prior to the 1830s and a focus for settler violence. As documented cartographically in the Centre for 21st Century Humanities’ Colonial Frontier Massacres in Central and Eastern Australia 1788–1930, the period 1820–1835, and particularly during the Black War, saw the Midlands as central to the violent dispossession of Aboriginal landowners. Clements argues that the culture of violence during this period also reflected the brutalisation that the penal system imposed upon its subjects. The cultivation of agricultural land throughout the Midlands was enabled by the provision of unfree convict labour (Dillon). Many of the properties granted and established during the colonial period have been held in multi-generational family ownership through to the present.Within this patchwork of private ownership, the tension between visibility and privacy of the Midlands pastures and farmlands challenges the capacity for people to understand what role the Midlands plays in the greater Tasmanian ecology. Although half of Tasmania’s land areas are protected as national parks and reserves, the Midlands remains largely unprotected due to private ownership. When measured against Tasmania’s wilderness values and reputation, the dry pasturelands of the Midland region fail to capture an equivalent level of visual and experiential imagination. Jamie Kirkpatrick describes misconceptions of the Midlands when he writes of “[f]latness, dead and dying eucalypts, gorse, brown pastures, salt—environmental devastation […]—these are the common impression of those who first travel between Spring Hill and Launceston on the Midland Highway” (45). However, Kirkpatrick also emphasises the unique intimate and intricate qualities of this landscape, and its underlying resilience. In the face of the loss of paddock trees and remnants to irrigation, change in species due to pasture enrichment and introduction of new plant species, conservation initiatives that not only protect but also restore habitat are vital. The Tasmanian Midlands, then, are pastoral landscapes whose seeming monotonous continuity glosses over the radical changes experienced in the processes of colonisation and intensification of agriculture.Underlying the Present: Archaeology and Landscape in the Kerry Lodge ProjectThe major marker of the Midlands is the highway that bisects it. Running from Hobart to Launceston, the construction of a “great macadamised highway” (Department of Main Roads 10) between 1820–1850, and its ongoing maintenance, was a significant colonial project. The macadam technique, a nineteenth century innovation in road building which involved the laying of small pieces of stone to create a surface that was relatively water and frost resistant, required considerable but unskilled labour. The construction of the bridge at Kerry Lodge, in 1834–35, was simultaneous with significant bridge buildings at other major water crossings on the highway, (Department of Main Roads 16) and, as the first water crossing south of Launceston, was a pinch-point through which travel of prisoners could be monitored and controlled. Following the completion of the bridge, the site was used to house up to 60 male convicts in a road gang undergoing secondary punishment (1835–44) and then in a labour camp and hiring depot until 1847. At the time of the La Trobe report (1847), the buildings were noted as being in bad condition (Brand 142–43). After the station was disbanded, the use of the buildings reverted to the landowners for use in accommodation and agricultural storage.Archaeological research at Kerry Lodge, directed by Eleanor Casella, investigated the spatial and disciplinary structures of smaller probation and hiring depots and the living and working conditions of supervisory staff. Across three seasons (2015, 2016, 2018), the emerging themes of discipline and control and as well as labour were borne out by excavations across the site, focusing on remnants of buildings close to the bridge. This first season also piloted the co-presence of a curatorial art project, which grew across the season to include eleven practitioners in visual art, theatre and poetry, and three exhibition outcomes. As a crucial process for the curatorial art project, creative practitioners spent time on site as participants and observers, which enabled the development of responses that interrogated the research processes of archaeological fieldwork as well as making connections to the wider historical and cultural context of the site. Immersed in the mundane tasks of archaeological fieldwork, the practitioners involved became simultaneously focused on repetitive actions while contemplating the deep time contained within earth. This experience then informed the development of creative works interrogating embodied processes as a language of site.The outcome from the first fieldwork season was earthspoke, an exhibition shown at Sawtooth, an artist-run initiative in Launceston in 2015, and later re-installed in Franklin House, a National Trust property in the southern suburbs of Launceston.Images 2 and 3: earthspoke, 2015, Installation View at Sawtooth ARI (top) and Franklin House (bottom). Image Credits: Melanie de Ruyter.This recontextualisation of the work, from contemporary ARI (artist run initiative) gallery to National Trust property enabled the project to reach different audiences but also raised questions about the emphases that these exhibition contexts placed on the work. Within the white cube space of the contemporary gallery, connections to site became more abstracted while the educational and heritage functions of the National Trust property added further context and unintended connotations to the art works.Image 4: Strata, 2017, Installation View. Image Credit: Karen Hall.The two subsequent exhibitions, Lines of Site (2016) and Strata (2017), continued to test the relationship between site and gallery, through works that rematerialised the absences on site and connected embodied experiences of convict and archaeological labour. The most recent iteration of the project, Strata, part of the Ten Days on the Island art festival in 2017, involved installing works at the site, marking with their presence the traces, fragments and voids that had been reburied when the landscape returned to agricultural use following the excavations. Here, the interpretive function of the works directly addressed the layered histories of the landscape and underscored the scope of the human interventions and changes over time within the pastoral landscape. The interpretative role of the artworks formed part of a wider, multidisciplinary approach to research and communication within the project. University of Manchester archaeology staff and postgraduate students directed the excavations, using volunteers from the Launceston Historical Society. Staff from Launceston’s Queen Victorian Museum and Art Gallery brought their archival and collection-based expertise to the site rather than simply receiving stored finds as a repository, supporting immediate interpretation and contextualisation of objects. In 2018, participation from the University of Tasmania School of Education enabled a larger number of on-site educational activities than afforded by previous open days. These multi-disciplinary and multi-organisational networks, drawn together provisionally in a shared time and place, provided rich opportunities for dialogue. However, the challenges of sustaining these exchanges have meant ongoing collaborations have become more sporadic, reflecting different institutional priorities and competing demands on participants. Even within long-term projects, continued engagement with stakeholders can be a challenge: while enabling an emerging and concrete sense of community, the time span gives greater vulnerability to external pressures. Making Home: Ecological Restoration and Community Engagement in the Species Hotel ProjectImages 5 and 6: Selected Species Hotels, Ross, Tasmania, 2018. Image Credits: Patrick Sutczak. The Species Hotels stand sentinel over a river of saplings, providing shelter for animal communities within close range of a small town. At the township of Ross in the Southern Midlands, work was initiated by restoration ecologists to address the lack of substantial animal shelter belts on a number of major properties in the area. The Tasmania Island Ark is a major Greening Australia restoration ecology initiative, connecting 6000 hectares of habitat across the Midlands. Linking larger forest areas in the Eastern Tiers and Central Highlands as well as isolated patches of remnant native vegetation, the Ark project is vital to the ongoing survival of local plant and animal species under pressure from human interventions and climate change. With fragmentation of bush and native grasslands in the Midland landscape resulting in vast open plains, the ability for animals to adapt to pasturelands without shelter has resulted in significant decline as animals such as the critically endangered Eastern Barred Bandicoot struggle to feed, move, and avoid predators (Cranney). In 2014 mass plantings of native vegetation were undertaken along 16km of the serpentine Macquarie River as part of two habitat corridors designed to bring connectivity back to the region. While the plantings were being established a public art project was conceived that would merge design with practical application to assist animals in the area, and draw community and public attention to the work that was being done in re-establishing native forests. The Species Hotel project, which began in 2016, emerged from a collaboration between Greening Australia and the University of Tasmania’s School of Architecture and Design, the School of Land and Food, the Tasmanian College of the Arts and the ARC Centre for Forest Value, with funding from the Ian Potter Foundation. The initial focus of the project was the development of interventions in the landscape that could address the specific habitat needs of the insect, small mammal, and bird species that are under threat. First-year Architecture students were invited to design a series of structures with the brief that they would act as ‘Species Hotels’, and once created would be installed among the plantings as structures that could be inhabited or act as protection. After installation, the privately-owned land would be reconfigured so to allow public access and observation of the hotels, by residents and visitors alike. Early in the project’s development, a concern was raised during a Ross community communication and consultation event that the surrounding landscape and its vistas would be dramatically altered with the re-introduced forest. While momentary and resolved, a subtle yet obvious tension surfaced that questioned the re-writing of an established community’s visual landscape literacy by non-residents. Compact and picturesque, the architectural, historical and cultural qualities of Ross and its location were not only admired by residents, but established a regional identity. During the six-week intensive project, the community reach was expanded beyond the institution and involved over 100 people including landowners, artists, scientists and school children from the region (Wright), attempting to address and channel the concerns of residents about the changing landscape. The multiple timescales of this iterative project—from intensive moments of collaboration between stakeholders to the more-than-human time of tree growth—open spaces for regional identity to shift as both as place and community. Part of the design brief was the use of fully biodegradable materials: the Species Hotels are not expected to last forever. The actual installation of the Species Hotelson site took longer than planned due to weather conditions, but once on site they were weathering in, showing signs of insect and bird habitation. This animal activity created an opportunity for ongoing engagement. Further activities generated from the initial iteration of Species Hotel were the Species Hotel Day in 2017, held at the Ross Community Hall where presentations by scientists and designers provided feedback to the local community and presented opportunities for further design engagement in the production of ephemeral ‘species seed pies’ placed out in and around Ross. Architecture and Design students have gone on to develop more examples of ‘ecological furniture’ with a current focus on insect housing as well as extrapolating from the installation of the Species Hotels to generate a VR visualisation of the surrounding landscape, game design and participatory movement work that was presented as part of the Junction Arts Festival program in Launceston, 2017. The intersections of technologies and activities amplified the lived in and living qualities of the Species Hotels, not only adding to the connectivity of social and environmental actions on site and beyond, but also making a statement about the shared ownership this project enabled.Working Property: Collaboration and Dialogues in The Marathon Project The potential of iterative projects that engage with environmental concerns amid questions of access, stewardship and dialogue is also demonstrated in The Marathon Project, a collaborative art project that took place between 2015 and 2017. Situated in the Northern Midland region of Deddington alongside the banks of the Nile River the property of Marathon became the focal point for a small group of artists, ecologists and theorists to converge and engage with a pastoral landscape over time that was unfamiliar to many of them. Through a series of weekend camps and day trips, the participants were able to explore and follow their own creative and investigative agendas. The project was conceived by the landowners who share a passion for the history of the area, their land, and ideas of custodianship and ecological responsibility. The intentions of the project initially were to inspire creative work alongside access, engagement and dialogue about land, agriculture and Deddington itself. As a very small town on the Northern Midland fringe, Deddington is located toward the Eastern Tiers at the foothills of the Ben Lomond mountain ranges. Historically, Deddington is best known as the location of renowned 19th century landscape painter John Glover’s residence, Patterdale. After Glover’s death in 1849, the property steadily fell into disrepair and a recent private restoration effort of the home, studio and grounds has seen renewed interest in the cultural significance of the region. With that in mind, and with Marathon a neighbouring property, participants in the project were able to experience the area and research its past and present as a part of a network of working properties, but also encouraging conversation around the region as a contested and documented place of settlement and subsequent violence toward the Aboriginal people. Marathon is a working property, yet also a vital and fragile ecosystem. Marathon consists of 1430 hectares, of which around 300 lowland hectares are currently used for sheep grazing. The paddocks retain their productivity, function and potential to return to native grassland, while thickets of gorse are plentiful, an example of an invasive species difficult to control. The rest of the property comprises eucalypt woodlands and native grasslands that have been protected under a conservation covenant by the landowners since 2003. The Marathon creek and the Nile River mark the boundary between the functional paddocks and the uncultivated hills and are actively managed in the interface between native and introduced species of flora and fauna. This covenant aimed to preserve these landscapes, linking in with a wider pattern of organisations and landowners attempting to address significant ecological degradation and isolation of remnant bushland patches through restoration ecology. Measured against the visibility of Tasmania’s wilderness identity on the national and global stage, many of the ecological concerns affecting the Midlands go largely unnoticed. The Marathon Project was as much a project about visibility and communication as it was about art and landscape. Over the three years and with its 17 participants, The Marathon Project yielded three major exhibitions along with numerous public presentations and research outputs. The length of the project and the autonomy and perspectives of its participants allowed for connections to be formed, conversations initiated, and greater exposure to the productivity and sustainability complexities playing out on rural Midland properties. Like Kerry Lodge, the 2015 first year exhibition took place at Sawtooth ARI. The exhibition was a testing ground for artists, and a platform for audiences, to witness the cross-disciplinary outputs of work inspired by a single sheep grazing farm. The interest generated led to the rethinking of the 2016 exhibition and the need to broaden the scope of what the landowners and participants were trying to achieve. Image 7: Panel Discussion at Open Weekend, 2016. Image Credit: Ron Malor.In November 2016, The Marathon Project hosted an Open Weekend on the property encouraging audiences to visit, meet the artists, the landowners, and other invited guests from a number of restoration, conservation, and rehabilitation organisations. Titled Encounter, the event and accompanying exhibition displayed in the shearing shed, provided an opportunity for a rhizomatic effect with the public which was designed to inform and disseminate historical and contemporary perspectives of land and agriculture, access, ownership, visitation and interpretation. Concluding with a final exhibition in 2017 at the University of Tasmania’s Academy Gallery, The Marathon Project had built enough momentum to shape and inform the practice of its participants, the knowledge and imagination of the public who engaged with it, and make visible the precarity of the cultural and rural Midland identity.Image 8. Installation View of The Marathon Project Exhibition, 2017. Image Credit: Patrick Sutczak.ConclusionThe Marathon Project, Species Hotel and the Kerry Lodge Archaeology and Art Project all demonstrate the potential of site-based projects to articulate and address concerns that arise from the environmental and cultural conditions and histories of a region. Beyond the Midland fence line is a complex environment that needed to be experienced to be understood. Returning creative work to site, and opening up these intensified experiences of place to a public forms a key stage in all these projects. Beyond a commitment to site-specific practice and valuing the affective and didactic potential of on-site installation, these returns grapple with issues of access, visibility and absence that characterise the Midlands. Paul Carter describes his role in the convening of a “concretely self-realising creative community” in an initiative to construct a meeting-place in Alice Springs, a community defined and united in “its capacity to imagine change as a negotiation between past, present and future” (17). Within that regional context, storytelling, as an encounter between histories and cultures, became crucial in assembling a community that could in turn materialise story into place. In these Midlands projects, a looser assembly of participants with shared interests seek to engage with the intersections of plant, human and animal activities that constitute and negotiate the changing environment. The projects enabled moments of connection, of access, and of intervention: always informed by the complexities of belonging within regional locations.These projects also suggest the need to recognise the granularity of regionalism: the need to be attentive to the relations of site to bioregion, of private land to small town to regional centre. The numerous partnerships that allow such interconnect projects to flourish can be seen as a strength of regional areas, where proximity and scale can draw together sets of related institutions, organisations and individuals. However, the tensions and gaps within these projects reveal differing priorities, senses of ownership and even regional belonging. Questions of who will live with these project outcomes, who will access them, and on what terms, reveal inequalities of power. Negotiations of this uneven and uneasy terrain require a more nuanced account of projects that do not rely on the geographical labelling of regions to paper over the complexities and fractures within the social environment.These projects also share a commitment to the intersection of the social and natural environment. They recognise the inextricable entanglement of human and more than human agencies in shaping the landscape, and material consequences of colonialism and agricultural intensification. Through iteration and duration, the projects mobilise processes that are responsive and reflective while being anchored to the materiality of site. Warwick Mules suggests that “regions are a mixture of data and earth, historically made through the accumulation and condensation of material and informational configurations”. Cross-disciplinary exchanges enable all three projects to actively participate in data production, not interpretation or illustration afterwards. Mules’ call for ‘accumulation’ and ‘configuration’ as productive regional modes speaks directly to the practice-led methodologies employed by these projects. The Kerry Lodge and Marathon projects collect, arrange and transform material taken from each site to provisionally construct a regional material language, extended further in the dual presentation of the projects as off-site exhibitions and as interventions returning to site. The Species Hotel project shares that dual identity, where materials are chosen for their ability over time, habitation and decay to become incorporated into the site yet, through other iterations of the project, become digital presences that nonetheless invite an embodied engagement.These projects centre the Midlands as fertile ground for the production of knowledge and experiences that are distinctive and place-based, arising from the unique qualities of this place, its history and its ongoing challenges. Art and design practice enables connectivity to plant, animal and human communities, utilising cross-disciplinary collaborations to bring together further accumulations of the region’s intertwined cultural and ecological landscape.ReferencesAustralian Government Department of the Environment and Energy. Biodiversity Conservation. Canberra: Commonwealth of Australia, 2018. 1 Apr. 2019 <http://www.environment.gov.au/biodiversity/conservation>.Brand, Ian. The Convict Probation System: Van Diemen’s Land 1839–1854. Sandy Bay: Blubber Head Press, 1990.Carter, Paul. “Common Patterns: Narratives of ‘Mere Coincidence’ and the Production of Regions.” Creative Communities: Regional Inclusion & the Arts. Eds. Janet McDonald and Robert Mason. Bristol: Intellect, 2015. 13–30.Centre for 21st Century Humanities. Colonial Frontier Massacres in Central and Eastern Australia 1788–1930. Newcastle: Centre for 21st Century Humanitie, n.d. 1 Apr. 2019 <https://c21ch.newcastle.edu.au/colonialmassacres/>.Clements, Nicholas. The Black War: Fear, Sex and Resistance in Tasmania. St Lucia: U of Queensland P, 2014. Cranney, Kate. Ecological Science in the Tasmanian Midlands. Melbourne: Bush Heritage Australia, 2016. 1 Apr. 2019 <https://www.bushheritage.org.au/blog/ecological-science-in-the-tasmanian-midlands>.Davidson N. “Tasmanian Northern Midlands Restoration Project.” EMR Summaries, Journal of Ecological Management & Restoration, 2016. 10 Apr. 2019 <https://site.emrprojectsummaries.org/2016/03/07/tasmanian-northern-midlands-restoration-project/>.Department of Main Roads, Tasmania. Convicts & Carriageways: Tasmanian Road Development until 1880. Hobart: Tasmanian Government Printer, 1988.Dillon, Margaret. “Convict Labour and Colonial Society in the Campbell Town Police District: 1820–1839.” PhD Thesis. U of Tasmania, 2008. <https://eprints.utas.edu.au/7777/>.Gammage, Bill. The Biggest Estate on Earth: How Aborigines Made Australia. Crows Nest: Allen & Unwin, 2012.Greening Australia. Building Species Hotels, 2016. 1 Apr. 2019 <https://www.greeningaustralia.org.au/projects/building-species-hotels/>.Kerry Lodge Archaeology and Art Project. Kerry Lodge Convict Site. 10 Mar. 2019 <http://kerrylodge.squarespace.com/>.Kirkpatrick, James. “Natural History.” Midlands Bushweb, The Nature of the Midlands. Ed. Jo Dean. Longford: Midlands Bushweb, 2003. 45–57.Mitchell, Michael, Michael Lockwood, Susan Moore, and Sarah Clement. “Building Systems-Based Scenario Narratives for Novel Biodiversity Futures in an Agricultural Landscape.” Landscape and Urban Planning 145 (2016): 45–56.Mules, Warwick. “The Edges of the Earth: Critical Regionalism as an Aesthetics of the Singular.” Transformations 12 (2005). 1 Mar. 2019 <http://transformationsjournal.org/journal/issue_12/article_03.shtml>.The Marathon Project. <http://themarathonproject.virb.com/home>.University of Tasmania. Strategic Directions, Nov. 2018. 1 Mar. 2019 <https://www.utas.edu.au/vc/strategic-direction>.Wright L. “University of Tasmania Students Design ‘Species Hotels’ for Tasmania’s Wildlife.” Architecture AU 24 Oct. 2016. 1 Apr. 2019 <https://architectureau.com/articles/university-of-tasmania-students-design-species-hotels-for-tasmanias-wildlife/>.
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O'Meara, Radha. "Do Cats Know They Rule YouTube? Surveillance and the Pleasures of Cat Videos." M/C Journal 17, no.2 (March10, 2014). http://dx.doi.org/10.5204/mcj.794.
Full textAbstract:
Did you see the videos where the cat jumps in the box, attacks the printer or tries to leap from the snowy car? As the availability and popularity of watching videos on the Internet has risen rapidly in the last decade, so has the prevalence of cat videos. Although the cuteness of YouTube videos of cats might make them appear frivolous, in fact there is a significant irony at their heart: online cat videos enable corporate surveillance of viewers, yet viewers seem just as oblivious to this as the cats featured in the videos. Towards this end, I consider the distinguishing features of contemporary cat videos, focusing particularly on their narrative structure and mode of observation. I compare cat videos with the “Aesthetic of Astonishment” of early cinema and with dog videos, to explore the nexus of a spectatorship of thrills and feline performance. In particular, I highlight a unique characteristic of these videos: the cats’ unselfconsciousness. This, I argue, is rare in a consumer culture dominated by surveillance, where we are constantly aware of the potential for being watched. The unselfconsciousness of cats in online videos offers viewers two key pleasures: to imagine the possibility of freedom from surveillance, and to experience the power of administering surveillance as unproblematic. Ultimately, however, cat videos enable viewers to facilitate our own surveillance, and we do so with the gleeful abandon of a kitten jumping in a tissue box What Distinguishes Cat Videos? Cat videos have become so popular, that they generate millions of views on YouTube, and the Walker Art Center in Minneapolis now holds an annual Internet Cat Video Festival. If you are not already a fan of the genre, the Walker’s promotional videos for the festival (2013 and 2012) provide an entertaining introduction to the celebrities (Lil Bub, Grumpy Cat, and Henri), canon (dancing cats, surprised cat, and cat falling off counter), culture and commodities of online cat videos, despite repositioning them into a public exhibition context. Cats are often said to dominate the internet (Hepola), despite the surprise of Internet inventor Tim Berners-Lee. Domestic cats are currently the most popular pet in the world (Driscoll), however they are already outnumbered by smartphones. Cats have played various roles in our societies, cultures and imaginations since their domestication some 8-10,000 years ago (Driscoll). A potent social and cultural symbol in mythology, art and popular culture, the historical and cultural significance of cats is complex, shifting and often contradictory. They have made their way across geographic, cultural and class boundaries, and been associated with the sacred and the occult, femininity and fertility, monstrosity and domesticity (Driscoll, Rogers). Cats are figured as both inscrutable and bounteously polysemic. Current representations of cats, including these videos, seem to emphasise their sociability with humans, association with domestic space, independence and aloofness, and intelligence and secretiveness. I am interested in what distinguishes the pleasures of cat videos from other manifestations of cats in folklore and popular culture such as maneki-neko and fictional cats. Even within Internet culture, I’m focusing on live action cat videos, rather than lolcats, animated cats, or dog videos, though these are useful points of contrast. The Walker’s cat video primer also introduces us to the popular discourses accounting for the widespread appeal of these videos: cats have global reach beyond language, audiences can project their own thoughts and feelings onto cats, cats are cute, and they make people feel good. These discourses circulate in popular conversation, and are promoted by YouTube itself. These suggestions do not seem to account for the specific pleasures of cat videos, beyond the predominance of cats in culture more broadly. The cat videos popular on the Internet tend to feature several key characteristics. They are generated by users, shot on a mobile device such as a phone, and set in a domestic environment. They employ an observational mode, which Bill Nichols has described as a noninterventionist type of documentary film associated with traditions of direct cinema and cinema verite, where form and style yields to the profilmic event. In the spirit of their observational mode, cat videos feature minimal sound and language, negligible editing and short duration. As Leah Shafer notes, cat videos record, “’live’ events, they are mostly shot by ‘amateurs’ with access to emerging technologies, and they dramatize the familiar.” For example, the one-minute video Cat vs Printer comprises a single, hand-held shot observing the cat, and the action is underlined by the printer’s beep and the sounds created by the cat’s movements. The patterned wallpaper suggests a domestic location, and the presence of the cat itself symbolises domesticity. These features typically combine to produce impressions of universality, intimacy and spontaneity – impressions commonly labelled ‘cute’. The cat’s cuteness is also embodied in its confusion and surprise at the printer’s movements: it is a simpleton, and we can laugh at its lack of understanding of the basic appurtenances of the modern world. Cat videos present minimalist narratives, focused on an instant of spectacle. A typical cat video establishes a state of calm, then suddenly disrupts it. The cat is usually the active agent of change, though chance also frequently plays a significant role. The pervasiveness of this structure means that viewers familiar with the form may even anticipate a serendipitous event. The disruption prompts a surprising or comic effect for the viewer, and this is a key part of the video’s pleasure. For example, in Cat vs Printer, the establishing scenario is the cat intently watching the printer, a presumably quotidian scene, which escalates when the cat begins to smack the moving paper. The narrative climaxes in the final two seconds of the video, when the cat strikes the paper so hard that the printer tray bounces, and the surprised cat falls off its stool. The video ends abruptly. This disruption also takes the viewer by surprise (at least it does the first time you watch it). The terse ending, and lack of resolution or denouement, encourages the viewer to replay the video. The minimal narrative effectively builds expectation for a moment of surprise. These characteristics of style and form typify a popular body of work, though there is variation, and the millions of cat videos on YouTube might be best accounted for by various subgenres. The most popular cat videos seem to have the most sudden and striking disruptions as well as the most abrupt endings. They seem the most dramatic and spontaneous. There are also thousands of cat videos with minor disruptions, and some with brazenly staged events. Increasingly, there is obvious use of postproduction techniques, including editing and music. A growing preponderance of compilations attests to the videos’ “spreadability” (Jenkins, Ford, and Green). The conventional formal structure of these videos effectively homogenises the cat, as if there is a single cat performing in millions of videos. Indeed, YouTube comments often suggest a likeness between the cat represented in the video and the commenter’s own cat. In this sense, the cuteness so readily identified has an homogenising effect. It also has the effect of distinguishing cats as a species from other animals, as it confounds common conceptions of all (other) animals as fundamentally alike in their essential difference from the human (animal). Cat videos are often appreciated for what they reveal about cats in general, rather than for each cat’s individuality. In this way, cat videos symbolise a generic feline cuteness, rather than identify a particular cat as cute. The cats of YouTube act “as an allegory for all the cats of the earth, the felines that traverse myths and religions, literature and fables” (Derrida 374). Each cat swiping objects off shelves, stealing the bed of a dog, leaping onto a kitchen bench is the paradigmatic cat, the species exemplar. Mode of Spectatorship, Mode of Performance: Cat Videos, Film History and Dog Videos Cat videos share some common features with early cinema. In his analysis of the “Aesthetic of Astonishment,” which dominated films until about 1904, film historian Tom Gunning argues that the short, single shot films of this era are characterised by exciting audience curiosity and fulfilling it with visual shocks and thrills. It is easy to see how this might describe the experience of watching Cat vs Printer or Thomas Edison’s Electrocution of an Elephant from 1903. The thrill of revelation at the end of Cat vs Printer is more significant than the minimal narrative it completes, and the most popular videos seem to heighten this shock. Further, like a rainy afternoon spent clicking the play button on a sequence of YouTube’s suggested videos, these early short films were also viewed in variety format as a series of attractions. Indeed, as Leah Shafer notes, some of these early films even featured cats, such as Professor Welton’s Boxing Cats from 1894. Each film offered a moment of spectacle, which thrilled the modern viewer. Gunning argues that these early films are distinguished by a particular relationship between spectator and film. They display blatant exhibitionism, and address their viewer directly. This highlights the thrill of disruption: “The directness of this act of display allows an emphasis on the thrill itself – the immediate reaction of the viewer” (Gunning “Astonishment” 122). This is produced both within the staging of the film itself as players look directly at the camera, and by the mode of exhibition, where a showman primes the audience verbally for a moment of revelation. Importantly, Gunning argues that this mode of spectatorship differs from how viewers watch narrative films, which later came to dominate our film and television screens: “These early films explicitly acknowledge their spectator, seeming to reach outwards and confront. Contemplative absorption is impossible here” (“Astonishment” 123). Gunning’s emphasis on a particular mode of spectatorship is significant for our understanding of pet videos. His description of early cinema has numerous similarities with cat videos, to be sure, but seems to describe more precisely the mode of spectatorship engendered by typical dog videos. Dog videos are also popular online, and are marked by a mode of performance, where the dogs seem to present self-consciously for the camera. Dogs often appear to look at the camera directly, although they are probably actually reading the eyes of the camera operator. One of the most popular dog videos, Ultimate dog tease, features a dog who appears to look into the camera and engage in conversation with the camera operator. It has the same domestic setting, mobile camera and short duration as the typical cat video, but, unlike the cat attacking the printer, this dog is clearly aware of being watched. Like the exhibitionistic “Cinema of Attractions,” it is marked by “the recurring look at the camera by [canine] actors. This action which is later perceived as spoiling the realistic illusion of the cinema, is here undertaken with brio, establishing contact with the audience” (Gunning “Attractions” 64). Dog videos frequently feature dogs performing on command, such as the countless iterations of dogs fetching beverages from refrigerators, or at least behaving predictably, such as dogs jumping in the bath. Indeed, the scenario often seems to be set up, whereas cat videos more often seem to be captured fortuitously. The humour of dog videos often comes from the very predictability of their behaviour, such as repeatedly fetching or rolling in mud. In an ultimate performance of self-consciousness, dogs even seem to act out guilt and shame for their observers. Similarly, baby videos are also popular online and were popular in early cinema, and babies also tend to look at the camera directly, showing that they are aware of bring watched. This emphasis on exhibitionism and modes of spectatorship helps us hone in on the uniqueness of cat videos. Unlike the dogs of YouTube, cats typically seem unaware of their observers; they refuse to look at the camera and “display their visibility” (Gunning “Attractions,” 64). This fits with popular discourses of cats as independent and aloof, untrainable and untameable. Cat videos employ a unique mode of observation: we observe the cat, who is unencumbered by our scrutiny. Feline Performance in a World of Pervasive Surveillance This is an aesthetic of surveillance without inhibition, which heightens the impressions of immediacy and authenticity. The very existence of so many cat videos online is a consequence of camera ubiquity, where video cameras have become integrated with common communications devices. Thousands of cameras are constantly ready to capture these quotidian scenes, and feed the massive economy of user-generated content. Cat videos are obviously created and distributed by humans, a purposeful labour to produce entertainment for viewers. Cat videos are never simply a feline performance, but a performance of human interaction with the cat. The human act of observation is an active engagement with the other. Further, the act of recording is a performance of wielding the camera, and often also through image or voice. The cat video is a companion performance, which is part of an ongoing relationship between that human and that other animal. It carries strong associations with regimes of epistemological power and physical domination through histories of visual study, mastery and colonisation. The activity of the human creator seems to contrast with the behaviour of the cat in these videos, who appears unaware of being watched. The cats’ apparent uninhibited behaviour gives the viewer the illusion of voyeuristically catching a glimpse of a self-sufficient world. It carries connotations of authenticity, as the appearance of interaction and intervention is minimised, like the ideal of ‘fly on the wall’ documentary (Nichols). This lack of self-consciousness and sense of authenticity are key to their reception as ‘cute’ videos. Interestingly, one of the reasons that audiences may find this mode of observation so accessible and engaging, is because it heeds the conventions of the fourth wall in the dominant style of fiction film and television, which presents an hermetically sealed diegesis. This unselfconscious performance of cats in online videos is key, because it embodies a complex relationship with the surveillance that dominates contemporary culture. David Lyon describes surveillance as “any focused attention to personal details for the purposes of influence, management, or control” (“Everyday” 1) and Mark Andrejevic defines monitoring as “the collection of information, with or without the knowledge of users, that has actual or speculative economic value” (“Enclosure” 297). We live in an environment where social control is based on information, collected and crunched by governments, corporations, our peers, and ourselves. The rampancy of surveillance has increased in recent decades in a number of ways. Firstly, technological advances have made the recording, sorting and analysis of data more readily available. Although we might be particularly aware of the gaze of the camera when we stand in line at the supermarket checkout or have an iPhone pointed at our face, many surveillance technologies are hidden points of data collection, which track our grocery purchases, text messages to family and online viewing. Surveillance is increasingly mediated through digital technologies. Secondly, surveillance data is becoming increasingly privatised and monetised, so there is strengthening market demand for consumer information. Finally, surveillance was once associated chiefly with institutions of the state, or with corporations, but the process is increasingly “lateral,” involving peer-to-peer surveillance and self-surveillance in the realms of leisure and domestic life (Andrejevic “Enclosure,” 301). Cat videos occupy a fascinating position within this context of pervasive surveillance, and offer complex thrills for audiences. The Unselfconscious Pleasures of Cat Videos Unselfconsciousness of feline performance in cat videos invites contradictory pleasures. Firstly, cat videos offer viewers the fantasy of escaping surveillance. The disciplinary effect of surveillance means that we modify our behaviour based on a presumption of constant observation; we are managed and manipulated as much by ourselves as we are by others. This discipline is the defining condition of industrial society, as described by Foucault. In an age of traffic cameras, Big Brother, CCTV, the selfie pout, and Google Glass, modern subjects are oppressed by the weight of observation to constantly manage their personal performance. Unselfconsciousness is associated with privacy, intimacy, naivety and, increasingly, with impossibility. By allowing us to project onto the experience of their protagonists, cat videos invite us to imagine a world where we are not constantly aware of being watched, of being under surveillance by both human beings and technology. This projection is enabled by discourse, which constructs cats as independent and aloof, a libertarian ideal. It provides the potential for liberation from technologized social surveillance, and from the concomitant self-discipline of our docile bodies. The uninhibited performance of cats in online videos offers viewers the prospect that it is possible to live without the gaze of surveillance. Through cat videos, we celebrate the untameable. Cats model a liberated uninhibitedness viewers can only desire. The apparent unselfconsciousness of feline performance is analogous to Derrida’s conception of animal nakedness: the nudity of animals is significant, because it is a key feature which distinguishes them from humans, but at the same time there is no sense of the concept of nakedness outside of human culture. Similarly, a performance uninhibited by observation seems beyond humans in contemporary culture, and implies a freedom from social expectations, but there is also little suggestion that cats would act differently if they knew they were observed. We interpret cats’ independence as natural, and take pleasure in cats’ naturalness. This lack of inhibition is cute in the sense that it is attractive to the viewer, but also in the sense that it is naïve to imagine a world beyond surveillance, a freedom from being watched. Secondly, we take pleasure in the power of observing another. Surveillance is based on asymmetrical regimes of power, and the position of observer, recorder, collator is usually more powerful than the subject of their gaze. We enjoy the pleasure of wielding the unequal gaze, whether we hit the “record” button ourselves or just the “play” button. In this way, we celebrate our capacity to contain the cat, who has historically proven conceptually uncontainable. Yet, the cats’ unselfconsciousness means we can absolve ourselves of their exploitation. Looking back at the observer, or the camera, is often interpreted as a confrontational move. Cats in videos do not confront their viewer, do not resist the gaze thrown on them. They accept the role of subject without protest; they perform cuteness without resistance. We internalise the strategies of surveillance so deeply that we emulate its practices in our intimate relationships with domestic animals. Cats do not glare back at us, accusingly, as dogs do, to remind us we are exerting power over them. The lack of inhibition of cats in online videos means that we can exercise the power of surveillance without confronting the oppression this implies. Cat videos offer the illusion of watching the other without disturbing it, brandishing the weapon without acknowledging the violence of its impact. There is a logical tension between these dual pleasures of cat videos: we want to escape surveillance, while exerting it. The Work of Cat Videos in ‘Liquid Surveillance’ These contradictory pleasures in fact speak to the complicated nature of surveillance in the era of “produsage,” when the value chain of media has transformed along with traditional roles of production and consumption (Bruns). Christian Fuchs argues that the contemporary media environment has complicated the dynamics of surveillance, and blurred the lines between subject and object (304). We both create and consume cat videos; we are commodified as audience and sold on as data. YouTube is the most popular site for sharing cat videos, and a subsidiary of Google, the world’s most visited website and a company which makes billions of dollars from gathering, collating, storing, assessing, and trading our data. While we watch cat videos on YouTube, they are also harvesting information about our every click, collating it with our other online behaviour, targeting ads at us based on our specific profile, and also selling this data on to others. YouTube is, in fact, a key tool of what David Lyon calls “liquid surveillance” after the work of Zygmunt Bauman, because it participates in the reduction of millions of bodies into data circulating at the service of consumer society (Lyon “Liquid”). Your views of cats purring and pouncing are counted and monetised, you are profiled and targeted for further consumption. YouTube did not create the imbalance of power implied by these mechanisms of surveillance, but it is instrumental in automating, amplifying, and extending this power (Andrejevic “Lateral,” 396). Zygmunt Bauman argues that in consumer society we are increasingly seduced to willingly subject ourselves to surveillance (Lyon “Liquid”), and who better than the cute kitty to seduce us? Our increasingly active role in “produsage” media platforms such as YouTube enables us to perform what Andrejevic calls “the work of being watched” (“Work”). When we upload, play, view, like and comment on cat videos, we facilitate our own surveillance. We watch cat videos for the contradictory pleasures they offer us, as we navigate and negotiate the overwhelming surveillance of consumer society. Cat videos remind us of the perpetual possibility of observation, and suggest the prospect of escaping it. ReferencesAndrejevic, Mark. “The Work of Being Watched: Interactive Media and the Exploitation of Self-Disclosure.” Critical Studies in Media Communication 19.2 (2002): 230-248. Andrejevic, Mark. “The Discipline of Watching: Detection, Risk, and Lateral Surveillance.” Critical Studies in Media Communication 23.5 (2006): 391-407. Andrejevic, Mark. “Surveillance in the Digital Enclosure.” The Communication Review 10.4 (2007): 295-317. Berners-Lee, Tim. “Ask Me Anything.” Reddit, 12 March 2014. 29 Apr. 2014 ‹http://www.reddit.com/r/IAmA/comments/2091d4/i_am_tim_bernerslee_i_invented_the_www_25_years/cg0wpma›. Bruns, Axel. Blogs, Wikipedia, Second Life and Beyond: From Production to Produsage. New York: Peter Lang, 2008. Derrida, Jacques. The Animal That Therefore I Am. New York: Fordham University Press, 2008. Project MUSE, 4 Mar. 2014. 29 Apr. 2014 ‹http://muse.jhu.edu/›. Driscoll, Carlos A., et al. "The Taming of the Cat." Scientific American 300.6 (2009): 68-75. Foucault, Michel. Discipline and Punish: The Birth of the Prison. Trans. Alan Sheridan. New York: Random House, 1995. Fuchs, Christian. “Web 2.0, Prosumption, and Surveillance.” Surveillance & Society 8.3 (2011): 288-309. Gunning, Tom. “An Aesthetic of Astonishment: Early Film and the Incredulous Spectator.” Viewing Positions: Ways of Seeing Film. Ed. Linda Williams. New Brunswick, NJ: Rutgers UP, 1995. 114-133. Gunning, Tom. "The Cinema of Attractions: Early Film, Its Spectator and the Avant-Garde." Wide Angle 8.3-4 (1986): 63-70. Hepola, Sarah. “The Internet Is Made of Kittens.” Salon, 11 Feb 2009. 29 Apr. 2014 ‹http://www.salon.com/2009/02/10/cat_internet/›. Jenkins, Henry, Sam Ford, and Joshua Green. Spreadable Media: Creating Value and Meaning in a Network Culture. New York: NYU Press, 2013. Lyon, David. “Liquid Surveillance: The Contribution of Zygmunt Bauman to Surveillance Studies.” International Political Sociology 4 (2010): 325–338 Lyon, David. “Surveillance, Power and Everyday Life.” In Robin Mansell et al., eds., Oxford Handbook of Information and Communication Technologies. Oxford: Oxford Handbooks, 2007. 449-472. 29 Apr. 2014 ‹http://www.sscqueens.org/sites/default/files/oxford_handbook.pdf›. Nichols, Bill. Introduction to Documentary. 2nd ed. Bloomington: Indiana University Press, 2010. Rogers, Katharine. The Cat and the Human Imagination: Feline Images from Bast to Garfield. Ann Arbor, MI: University of Michigan Press, 2001. Shafer, Leah. “I Can Haz an Internet Aesthetic?!? LOLCats and the Digital Marketplace.” Paper presented at the Northeast Popular/American Culture Association Conference, St. John Fisher College, Rochester, New York, 2012. 5 Mar. 2014 ‹http://fisherpub.sjfc.edu/cgi/viewcontent.cgi?article=1094&context=nepca›.
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Mallan, Kerry Margaret, and Annette Patterson. "Present and Active: Digital Publishing in a Post-print Age." M/C Journal 11, no.4 (June24, 2008). http://dx.doi.org/10.5204/mcj.40.
Full textAbstract:
At one point in Victor Hugo’s novel, The Hunchback of Notre Dame, the archdeacon, Claude Frollo, looked up from a book on his table to the edifice of the gothic cathedral, visible from his canon’s cell in the cloister of Notre Dame: “Alas!” he said, “this will kill that” (146). Frollo’s lament, that the book would destroy the edifice, captures the medieval cleric’s anxiety about the way in which Gutenberg’s print technology would become the new universal means for recording and communicating humanity’s ideas and artistic expression, replacing the grand monuments of architecture, human engineering, and craftsmanship. For Hugo, architecture was “the great handwriting of humankind” (149). The cathedral as the material outcome of human technology was being replaced by the first great machine—the printing press. At this point in the third millennium, some people undoubtedly have similar anxieties to Frollo: is it now the book’s turn to be destroyed by yet another great machine? The inclusion of “post print” in our title is not intended to sound the death knell of the book. Rather, we contend that despite the enduring value of print, digital publishing is “present and active” and is changing the way in which research, particularly in the humanities, is being undertaken. Our approach has three related parts. First, we consider how digital technologies are changing the way in which content is constructed, customised, modified, disseminated, and accessed within a global, distributed network. This section argues that the transition from print to electronic or digital publishing means both losses and gains, particularly with respect to shifts in our approaches to textuality, information, and innovative publishing. Second, we discuss the Children’s Literature Digital Resources (CLDR) project, with which we are involved. This case study of a digitising initiative opens out the transformative possibilities and challenges of digital publishing and e-scholarship for research communities. Third, we reflect on technology’s capacity to bring about major changes in the light of the theoretical and practical issues that have arisen from our discussion. I. Digitising in a “post-print age” We are living in an era that is commonly referred to as “the late age of print” (see Kho) or the “post-print age” (see Gunkel). According to Aarseth, we have reached a point whereby nearly all of our public and personal media have become more or less digital (37). As Kho notes, web newspapers are not only becoming increasingly more popular, but they are also making rather than losing money, and paper-based newspapers are finding it difficult to recruit new readers from the younger generations (37). Not only can such online-only publications update format, content, and structure more economically than print-based publications, but their wide distribution network, speed, and flexibility attract advertising revenue. Hype and hyperbole aside, publishers are not so much discarding their legacy of print, but recognising the folly of not embracing innovative technologies that can add value by presenting information in ways that satisfy users’ needs for content to-go or for edutainment. As Kho notes: “no longer able to satisfy customer demand by producing print-only products, or even by enabling online access to semi-static content, established publishers are embracing new models for publishing, web-style” (42). Advocates of online publishing contend that the major benefits of online publishing over print technology are that it is faster, more economical, and more interactive. However, as Hovav and Gray caution, “e-publishing also involves risks, hidden costs, and trade-offs” (79). The specific focus for these authors is e-journal publishing and they contend that while cost reduction is in editing, production and distribution, if the journal is not open access, then costs relating to storage and bandwith will be transferred to the user. If we put economics aside for the moment, the transition from print to electronic text (e-text), especially with electronic literary works, brings additional considerations, particularly in their ability to make available different reading strategies to print, such as “animation, rollovers, screen design, navigation strategies, and so on” (Hayles 38). Transition from print to e-text In his book, Writing Space, David Bolter follows Victor Hugo’s lead, but does not ask if print technology will be destroyed. Rather, he argues that “the idea and ideal of the book will change: print will no longer define the organization and presentation of knowledge, as it has for the past five centuries” (2). As Hayles noted above, one significant indicator of this change, which is a consequence of the shift from analogue to digital, is the addition of graphical, audio, visual, sonic, and kinetic elements to the written word. A significant consequence of this transition is the reinvention of the book in a networked environment. Unlike the printed book, the networked book is not bound by space and time. Rather, it is an evolving entity within an ecology of readers, authors, and texts. The Web 2.0 platform has enabled more experimentation with blending of digital technology and traditional writing, particularly in the use of blogs, which have spawned blogwriting and the wikinovel. Siva Vaidhyanathan’s The Googlization of Everything: How One Company is Disrupting Culture, Commerce and Community … and Why We Should Worry is a wikinovel or blog book that was produced over a series of weeks with contributions from other bloggers (see: http://www.sivacracy.net/). Penguin Books, in collaboration with a media company, “Six Stories to Start,” have developed six stories—“We Tell Stories,” which involve different forms of interactivity from users through blog entries, Twitter text messages, an interactive google map, and other features. For example, the story titled “Fairy Tales” allows users to customise the story using their own choice of names for characters and descriptions of character traits. Each story is loosely based on a classic story and links take users to synopses of these original stories and their authors and to online purchase of the texts through the Penguin Books sales website. These examples of digital stories are a small part of the digital environment, which exploits computer and online technologies’ capacity to be interactive and immersive. As Janet Murray notes, the interactive qualities of digital environments are characterised by their procedural and participatory abilities, while their immersive qualities are characterised by their spatial and encyclopedic dimensions (71–89). These immersive and interactive qualities highlight different ways of reading texts, which entail different embodied and cognitive functions from those that reading print texts requires. As Hayles argues: the advent of electronic textuality presents us with an unparalleled opportunity to reformulate fundamental ideas about texts and, in the process, to see print as well as electronic texts with fresh eyes (89–90). The transition to e-text also highlights how digitality is changing all aspects of everyday life both inside and outside the academy. Online teaching and e-research Another aspect of the commercial arm of publishing that is impacting on academe and other organisations is the digitising and indexing of print content for niche distribution. Kho offers the example of the Mark Logic Corporation, which uses its XML content platform to repurpose content, create new content, and distribute this content through multiple portals. As the promotional website video for Mark Logic explains, academics can use this service to customise their own textbooks for students by including only articles and book chapters that are relevant to their subject. These are then organised, bound, and distributed by Mark Logic for sale to students at a cost that is generally cheaper than most textbooks. A further example of how print and digital materials can form an integrated, customised source for teachers and students is eFictions (Trimmer, Jennings, & Patterson). eFictions was one of the first print and online short story anthologies that teachers of literature could customise to their own needs. Produced as both a print text collection and a website, eFictions offers popular short stories in English by well-known traditional and contemporary writers from the US, Australia, New Zealand, UK, and Europe, with summaries, notes on literary features, author biographies, and, in one instance, a YouTube movie of the story. In using the eFictions website, teachers can build a customised anthology of traditional and innovative stories to suit their teaching preferences. These examples provide useful indicators of how content is constructed, customised, modified, disseminated, and accessed within a distributed network. However, the question remains as to how to measure their impact and outcomes within teaching and learning communities. As Harley suggests in her study on the use and users of digital resources in the humanities and social sciences, several factors warrant attention, such as personal teaching style, philosophy, and specific disciplinary requirements. However, in terms of understanding the benefits of digital resources for teaching and learning, Harley notes that few providers in her sample had developed any plans to evaluate use and users in a systematic way. In addition to the problems raised in Harley’s study, another relates to how researchers can be supported to take full advantage of digital technologies for e-research. The transformation brought about by information and communication technologies extends and broadens the impact of research, by making its outputs more discoverable and usable by other researchers, and its benefits more available to industry, governments, and the wider community. Traditional repositories of knowledge and information, such as libraries, are juggling the space demands of books and computer hardware alongside increasing reader demand for anywhere, anytime, anyplace access to information. Researchers’ expectations about online access to journals, eprints, bibliographic data, and the views of others through wikis, blogs, and associated social and information networking sites such as YouTube compete with the traditional expectations of the institutions that fund libraries for paper-based archives and book repositories. While university libraries are finding it increasingly difficult to purchase all hardcover books relevant to numerous and varied disciplines, a significant proportion of their budgets goes towards digital repositories (e.g., STORS), indexes, and other resources, such as full-text electronic specialised and multidisciplinary journal databases (e.g., Project Muse and Proquest); electronic serials; e-books; and specialised information sources through fast (online) document delivery services. An area that is becoming increasingly significant for those working in the humanities is the digitising of historical and cultural texts. II. Bringing back the dead: The CLDR project The CLDR project is led by researchers and librarians at the Queensland University of Technology, in collaboration with Deakin University, University of Sydney, and members of the AustLit team at The University of Queensland. The CLDR project is a “Research Community” of the electronic bibliographic database AustLit: The Australian Literature Resource, which is working towards the goal of providing a complete bibliographic record of the nation’s literature. AustLit offers users with a single entry point to enhanced scholarly resources on Australian writers, their works, and other aspects of Australian literary culture and activities. AustLit and its Research Communities are supported by grants from the Australian Research Council and financial and in-kind contributions from a consortium of Australian universities, and by other external funding sources such as the National Collaborative Research Infrastructure Strategy. Like other more extensive digitisation projects, such as Project Gutenberg and the Rosetta Project, the CLDR project aims to provide a centralised access point for digital surrogates of early published works of Australian children’s literature, with access pathways to existing resources. The first stage of the CLDR project is to provide access to digitised, full-text, out-of-copyright Australian children’s literature from European settlement to 1945, with selected digitised critical works relevant to the field. Texts comprise a range of genres, including poetry, drama, and narrative for young readers and picture books, songs, and rhymes for infants. Currently, a selection of 75 e-texts and digital scans of original texts from Project Gutenberg and Internet Archive have been linked to the Children’s Literature Research Community. By the end of 2009, the CLDR will have digitised approximately 1000 literary texts and a significant number of critical works. Stage II and subsequent development will involve digitisation of selected texts from 1945 onwards. A precursor to the CLDR project has been undertaken by Deakin University in collaboration with the State Library of Victoria, whereby a digital bibliographic index comprising Victorian School Readers has been completed with plans for full-text digital surrogates of a selection of these texts. These texts provide valuable insights into citizenship, identity, and values formation from the 1930s onwards. At the time of writing, the CLDR is at an early stage of development. An extensive survey of out-of-copyright texts has been completed and the digitisation of these resources is about to commence. The project plans to make rich content searchable, allowing scholars from children’s literature studies and education to benefit from the many advantages of online scholarship. What digital publishing and associated digital archives, electronic texts, hypermedia, and so forth foreground is the fact that writers, readers, publishers, programmers, designers, critics, booksellers, teachers, and copyright laws operate within a context that is highly mediated by technology. In his article on large-scale digitisation projects carried out by Cornell and University of Michigan with the Making of America collection of 19th-century American serials and monographs, Hirtle notes that when special collections’ materials are available via the Web, with appropriate metadata and software, then they can “increase use of the material, contribute to new forms of research, and attract new users to the material” (44). Furthermore, Hirtle contends that despite the poor ergonomics associated with most electronic displays and e-book readers, “people will, when given the opportunity, consult an electronic text over the print original” (46). If this preference is universally accurate, especially for researchers and students, then it follows that not only will the preference for electronic surrogates of original material increase, but preference for other kinds of electronic texts will also increase. It is with this preference for electronic resources in mind that we approached the field of children’s literature in Australia and asked questions about how future generations of researchers would prefer to work. If electronic texts become the reference of choice for primary as well as secondary sources, then it seems sensible to assume that researchers would prefer to sit at the end of the keyboard than to travel considerable distances at considerable cost to access paper-based print texts in distant libraries and archives. We considered the best means for providing access to digitised primary and secondary, full text material, and digital pathways to existing online resources, particularly an extensive indexing and bibliographic database. Prior to the commencement of the CLDR project, AustLit had already indexed an extensive number of children’s literature. Challenges and dilemmas The CLDR project, even in its early stages of development, has encountered a number of challenges and dilemmas that centre on access, copyright, economic capital, and practical aspects of digitisation, and sustainability. These issues have relevance for digital publishing and e-research. A decision is yet to be made as to whether the digital texts in CLDR will be available on open or closed/tolled access. The preference is for open access. As Hayles argues, copyright is more than a legal basis for intellectual property, as it also entails ideas about authorship, creativity, and the work as an “immaterial mental construct” that goes “beyond the paper, binding, or ink” (144). Seeking copyright permission is therefore only part of the issue. Determining how the item will be accessed is a further matter, particularly as future technologies may impact upon how a digital item is used. In the case of e-journals, the issue of copyright payment structures are evolving towards a collective licensing system, pay-per-view, and other combinations of print and electronic subscription (see Hovav and Gray). For research purposes, digitisation of items for CLDR is not simply a scan and deliver process. Rather it is one that needs to ensure that the best quality is provided and that the item is both accessible and usable by researchers, and sustainable for future researchers. Sustainability is an important consideration and provides a challenge for institutions that host projects such as CLDR. Therefore, items need to be scanned to a high quality and this requires an expensive scanner and personnel costs. Files need to be in a variety of formats for preservation purposes and so that they may be manipulated to be useable in different technologies (for example, Archival Tiff, Tiff, Jpeg, PDF, HTML). Hovav and Gray warn that when technology becomes obsolete, then content becomes unreadable unless backward integration is maintained. The CLDR items will be annotatable given AustLit’s NeAt funded project: Aus-e-Lit. The Aus-e-Lit project will extend and enhance the existing AustLit web portal with data integration and search services, empirical reporting services, collaborative annotation services, and compound object authoring, editing, and publishing services. For users to be able to get the most out of a digital item, it needs to be searchable, either through double keying or OCR (optimal character recognition). The value of CLDR’s contribution The value of the CLDR project lies in its goal to provide a comprehensive, searchable body of texts (fictional and critical) to researchers across the humanities and social sciences. Other projects seem to be intent on putting up as many items as possible to be considered as a first resort for online texts. CLDR is more specific and is not interested in simply generating a presence on the Web. Rather, it is research driven both in its design and implementation, and in its focussed outcomes of assisting academics and students primarily in their e-research endeavours. To this end, we have concentrated on the following: an extensive survey of appropriate texts; best models for file location, distribution, and use; and high standards of digitising protocols. These issues that relate to data storage, digitisation, collections, management, and end-users of data are aligned with the “Development of an Australian Research Data Strategy” outlined in An Australian e-Research Strategy and Implementation Framework (2006). CLDR is not designed to simply replicate resources, as it has a distinct focus, audience, and research potential. In addition, it looks at resources that may be forgotten or are no longer available in reproduction by current publishing companies. Thus, the aim of CLDR is to preserve both the time and a period of Australian history and literary culture. It will also provide users with an accessible repository of rare and early texts written for children. III. Future directions It is now commonplace to recognize that the Web’s role as information provider has changed over the past decade. New forms of “collective intelligence” or “distributed cognition” (Oblinger and Lombardi) are emerging within and outside formal research communities. Technology’s capacity to initiate major cultural, social, educational, economic, political and commercial shifts has conditioned us to expect the “next big thing.” We have learnt to adapt swiftly to the many challenges that online technologies have presented, and we have reaped the benefits. As the examples in this discussion have highlighted, the changes in online publishing and digitisation have provided many material, network, pedagogical, and research possibilities: we teach online units providing students with access to e-journals, e-books, and customized archives of digitised materials; we communicate via various online technologies; we attend virtual conferences; and we participate in e-research through a global, digital network. In other words, technology is deeply engrained in our everyday lives. In returning to Frollo’s concern that the book would destroy architecture, Umberto Eco offers a placatory note: “in the history of culture it has never happened that something has simply killed something else. Something has profoundly changed something else” (n. pag.). Eco’s point has relevance to our discussion of digital publishing. The transition from print to digital necessitates a profound change that impacts on the ways we read, write, and research. As we have illustrated with our case study of the CLDR project, the move to creating digitised texts of print literature needs to be considered within a dynamic network of multiple causalities, emergent technological processes, and complex negotiations through which digital texts are created, stored, disseminated, and used. Technological changes in just the past five years have, in many ways, created an expectation in the minds of people that the future is no longer some distant time from the present. Rather, as our title suggests, the future is both present and active. References Aarseth, Espen. “How we became Postdigital: From Cyberstudies to Game Studies.” Critical Cyber-culture Studies. Ed. David Silver and Adrienne Massanari. New York: New York UP, 2006. 37–46. An Australian e-Research Strategy and Implementation Framework: Final Report of the e-Research Coordinating Committee. Commonwealth of Australia, 2006. Bolter, Jay David. Writing Space: The Computer, Hypertext, and the History of Writing. Hillsdale, NJ: Erlbaum, 1991. Eco, Umberto. “The Future of the Book.” 1994. 3 June 2008 ‹http://www.themodernword.com/eco/eco_future_of_book.html>. Gunkel, David. J. “What's the Matter with Books?” Configurations 11.3 (2003): 277–303. Harley, Diane. “Use and Users of Digital Resources: A Focus on Undergraduate Education in the Humanities and Social Sciences.” Research and Occasional Papers Series. Berkeley: University of California. Centre for Studies in Higher Education. 12 June 2008 ‹http://www.themodernword.com/eco/eco_future_of_book.html>. Hayles, N. Katherine. My Mother was a Computer: Digital Subjects and Literary Texts. Chicago: U of Chicago P, 2005. Hirtle, Peter B. “The Impact of Digitization on Special Collections in Libraries.” Libraries & Culture 37.1 (2002): 42–52. Hovav, Anat and Paul Gray. “Managing Academic E-journals.” Communications of the ACM 47.4 (2004): 79–82. Hugo, Victor. The Hunchback of Notre Dame (Notre-Dame de Paris). Ware, Hertfordshire: Wordsworth editions, 1993. Kho, Nancy D. “The Medium Gets the Message: Post-Print Publishing Models.” EContent 30.6 (2007): 42–48. Oblinger, Diana and Marilyn Lombardi. “Common Knowledge: Openness in Higher Education.” Opening up Education: The Collective Advancement of Education Through Open Technology, Open Content and Open Knowledge. Ed. Toru Liyoshi and M. S. Vijay Kumar. Cambridge, MA: MIT Press, 2007. 389–400. Murray, Janet H. Hamlet on the Holodeck: The Future of Narrative in Cyberspace. Cambridge, MA: MIT Press, 2001. Trimmer, Joseph F., Wade Jennings, and Annette Patterson. eFictions. New York: Harcourt, 2001.
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See, Pamela Mei-Leng. "Branding: A Prosthesis of Identity." M/C Journal 22, no.5 (October9, 2019). http://dx.doi.org/10.5204/mcj.1590.
Full textAbstract:
This article investigates the prosthesis of identity through the process of branding. It examines cross-cultural manifestations of this phenomena from sixth millennium BCE Syria to twelfth century Japan and Britain. From the Neolithic Era, humanity has sort to extend their identities using pictorial signs that were characteristically simple. Designed to be distinctive and instantly recognisable, the totemic symbols served to signal the origin of the bearer. Subsequently, the development of branding coincided with periods of increased in mobility both in respect to geography and social strata. This includes fifth millennium Mesopotamia, nineteenth century Britain, and America during the 1920s.There are fewer articles of greater influence on contemporary culture than A Theory of Human Motivation written by Abraham Maslow in 1943. Nearly seventy-five years later, his theories about the societal need for “belongingness” and “esteem” remain a mainstay of advertising campaigns (Maslow). Although the principles are used to sell a broad range of products from shampoo to breakfast cereal they are epitomised by apparel. This is with refence to garments and accessories bearing corporation logos. Whereas other purchased items, imbued with abstract products, are intended for personal consumption the public display of these symbols may be interpreted as a form of signalling. The intention of the wearers is to literally seek the fulfilment of the aforementioned social needs. This article investigates the use of brands as prosthesis.Coats and Crests: Identity Garnered on Garments in the Middle Ages and the Muromachi PeriodA logo, at its most basic, is a pictorial sign. In his essay, The Visual Language, Ernest Gombrich described the principle as reducing images to “distinctive features” (Gombrich 46). They represent a “simplification of code,” the meaning of which we are conditioned to recognise (Gombrich 46). Logos may also be interpreted as a manifestation of totemism. According to anthropologist Claude Levi-Strauss, the principle exists in all civilisations and reflects an effort to evoke the power of nature (71-127). Totemism is also a method of population distribution (Levi-Strauss 166).This principle, in a form garnered on garments, is manifested in Mon Kiri. The practice of cutting out family crests evolved into a form of corporate branding in Japan during the Meiji Period (1868-1912) (Christensen 14). During the Muromachi period (1336-1573) the crests provided an integral means of identification on the battlefield (Christensen 13). The adorning of crests on armour was also exercised in Europe during the twelfth century, when the faces of knights were similarly obscured by helmets (Family Crests of Japan 8). Both Mon Kiri and “Coat[s] of Arms” utilised totemic symbols (Family Crests of Japan 8; Elven 14; Christensen 13). The mon for the imperial family (figs. 1 & 2) during the Muromachi Period featured chrysanthemum and paulownia flowers (Goin’ Japaneque). “Coat[s] of Arms” in Britain featured a menagerie of animals including lions (fig. 3), horses and eagles (Elven).The prothesis of identity through garnering symbols on the battlefield provided “safety” through demonstrating “belongingness”. This constituted a conflation of two separate “needs” in the “hierarchy of prepotency” propositioned by Maslow. Fig. 1. The mon symbolising the Imperial Family during the Muromachi Period featured chrysanthemum and paulownia. "Kamon (Japanese Family Crests): Ancient Key to Samurai Culture." Goin' Japaneque! 15 Nov. 2015. 27 July 2019 <http://goinjapanesque.com/05983/>.Fig. 2. An example of the crest being utilised on a garment can be found in this portrait of samurai Oda Nobunaga. "Japan's 12 Most Famous Samurai." All About Japan. 27 Aug. 2018. 27 July 2019 <https://allabout-japan.com/en/article/5818/>.Fig. 3. A detail from the “Index of Subjects of Crests.” Elven, John Peter. The Book of Family Crests: Comprising Nearly Every Family Bearing, Properly Blazoned and Explained, Accompanied by Upwards of Four Thousand Engravings. Henry Washbourne, 1847.The Pursuit of Prestige: Prosthetic Pedigree from the Late Georgian to the Victorian Eras In 1817, the seal engraver to Prince Regent, Alexander Deuchar, described the function of family crests in British Crests: Containing The Crest and Mottos of The Families of Great Britain and Ireland; Together with Those of The Principal Cities and Heraldic Terms as follows: The first approach to civilization is the distinction of ranks. So necessary is this to the welfare and existence of society, that, without it, anarchy and confusion must prevail… In an early stage, heraldic emblems were characteristic of the bearer… Certain ordinances were made, regulating the mode of bearing arms, and who were entitled to bear them. (i-v)The partitioning of social classes in Britain had deteriorated by the time this compendium was published, with displays of “conspicuous consumption” displacing “heraldic emblems” as a primary method of status signalling (Deuchar 2; Han et al. 18). A consumerism born of newfound affluence, and the desire to signify this wealth through luxury goods, was as integral to the Industrial Revolution as technological development. In Rebels against the Future, published in 1996, Kirkpatrick Sale described the phenomenon:A substantial part of the new population, though still a distinct minority, was made modestly affluent, in some places quite wealthy, by privatization of of the countryside and the industrialization of the cities, and by the sorts of commercial and other services that this called forth. The new money stimulated the consumer demand… that allowed a market economy of a scope not known before. (40)This also reflected improvements in the provision of “health, food [and] education” (Maslow; Snow 25-28). With their “physiological needs” accommodated, this ”substantial part” of the population were able to prioritised their “esteem needs” including the pursuit for prestige (Sale 40; Maslow).In Britain during the Middle Ages laws “specified in minute detail” what each class was permitted to wear (Han et al. 15). A groom, for example, was not able to wear clothing that exceeded two marks in value (Han et al. 15). In a distinct departure during the Industrial Era, it was common for the “middling and lower classes” to “ape” the “fashionable vices of their superiors” (Sale 41). Although mon-like labels that were “simplified so as to be conspicuous and instantly recognisable” emerged in Europe during the nineteenth century their application on garments remained discrete up until the early twentieth century (Christensen 13-14; Moore and Reid 24). During the 1920s, the French companies Hermes and Coco Chanel were amongst the clothing manufacturers to pioneer this principle (Chaney; Icon).During the 1860s, Lincolnshire-born Charles Frederick Worth affixed gold stamped labels to the insides of his garments (Polan et al. 9; Press). Operating from Paris, the innovation was consistent with the introduction of trademark laws in France in 1857 (Lopes et al.). He would become known as the “Father of Haute Couture”, creating dresses for royalty and celebrities including Empress Eugene from Constantinople, French actress Sarah Bernhardt and Australian Opera Singer Nellie Melba (Lopes et al.; Krick). The clothing labels proved and ineffective deterrent to counterfeit, and by the 1890s the House of Worth implemented other measures to authenticate their products (Press). The legitimisation of the origin of a product is, arguably, the primary function of branding. This principle is also applicable to subjects. The prothesis of brands, as totemic symbols, assisted consumers to relocate themselves within a new system of population distribution (Levi-Strauss 166). It was one born of commerce as opposed to heraldry.Selling of Self: Conferring Identity from the Neolithic to Modern ErasIn his 1817 compendium on family crests, Deuchar elaborated on heraldry by writing:Ignoble birth was considered as a stain almost indelible… Illustrious parentage, on the other hand, constituted the very basis of honour: it communicated peculiar rights and privileges, to which the meaner born man might not aspire. (v-vi)The Twinings Logo (fig. 4) has remained unchanged since the design was commissioned by the grandson of the company founder Richard Twining in 1787 (Twining). In addition to reflecting the heritage of the family-owned company, the brand indicated the origin of the tea. This became pertinent during the nineteenth century. Plantations began to operate from Assam to Ceylon (Jones 267-269). Amidst the rampant diversification of tea sources in the Victorian era, concerns about the “unhygienic practices” of Chinese producers were proliferated (Wengrow 11). Subsequently, the brand also offered consumers assurance in quality. Fig. 4. The Twinings Logo reproduced from "History of Twinings." Twinings. 24 July 2019 <https://www.twinings.co.uk/about-twinings/history-of-twinings>.The term ‘brand’, adapted from the Norse “brandr”, was introduced into the English language during the sixteenth century (Starcevic 179). At its most literal, it translates as to “burn down” (Starcevic 179). Using hot elements to singe markings onto animals been recorded as early as 2700 BCE in Egypt (Starcevic 182). However, archaeologists concur that the modern principle of branding predates this practice. The implementation of carved seals or stamps to make indelible impressions of handcrafted objects dates back to Prehistoric Mesopotamia (Starcevic 183; Wengrow 13). Similar traditions developed during the Bronze Age in both China and the Indus Valley (Starcevic 185). In all three civilisations branding facilitated both commerce and aspects of Totemism. In the sixth millennium BCE in “Prehistoric” Mesopotamia, referred to as the Halaf period, stone seals were carved to emulate organic form such as animal teeth (Wengrow 13-14). They were used to safeguard objects by “confer[ring] part of the bearer’s personality” (Wengrow 14). They were concurrently applied to secure the contents of vessels containing “exotic goods” used in transactions (Wengrow 15). Worn as amulets (figs. 5 & 6) the seals, and the symbols they produced, were a physical extension of their owners (Wengrow 14).Fig. 5. Recreation of stamp seal amulets from Neolithic Mesopotamia during the sixth millennium BCE. Wengrow, David. "Prehistories of Commodity Branding." Current Anthropology 49.1 (2008): 14.Fig. 6. “Lot 25Y: Rare Syrian Steatite Amulet – Fertility God 5000 BCE.” The Salesroom. 27 July 2019 <https://www.the-saleroom.com/en-gb/auction-catalogues/artemis-gallery-ancient-art/catalogue-id-srartem10006/lot-a850d229-a303-4bae-b68c-a6130005c48a>. Fig. 7. Recreation of stamp seal designs from Mesopotamia from the late fifth to fourth millennium BCE. Wengrow, David. "Prehistories of Commodity Branding." Current Anthropology 49. 1 (2008): 16.In the following millennia, the seals would increase exponentially in application and aesthetic complexity (fig. 7) to support the development of household cum cottage industries (Wengrow 15). In addition to handcrafts, sealed vessels would transport consumables such as wine, aromatic oils and animal fats (Wengrow 18). The illustrations on the seals included depictions of rituals undertaken by human figures and/or allegories using animals. It can be ascertained that the transition in the Victorian Era from heraldry to commerce, from family to corporation, had precedence. By extension, consumers were able to participate in this process of value attribution using brands as signifiers. The principle remained prevalent during the modern and post-modern eras and can be respectively interpreted using structuralist and post-structuralist theory.Totemism to Simulacrum: The Evolution of Advertising from the Modern to Post-Modern Eras In 2011, Lisa Chaney wrote of the inception of the Coco Chanel logo (fig. 8) in her biography Chanel: An Intimate Life: A crucial element in the signature design of the Chanel No.5 bottle is the small black ‘C’ within a black circle set as the seal at the neck. On the top of the lid are two more ‘C’s, intertwined back to back… from at least 1924, the No5 bottles sported the unmistakable logo… these two ‘C’s referred to Gabrielle, – in other words Coco Chanel herself, and would become the logo for the House of Chanel. Chaney continued by describing Chanel’s fascination of totemic symbols as expressed through her use of tarot cards. She also “surrounded herself with objects ripe with meaning” such as representations of wheat and lions in reference prosperity and to her zodiac symbol ‘Leo’ respectively. Fig. 8. No5 Chanel Perfume, released in 1924, featured a seal-like logo attached to the bottle neck. “No5.” Chanel. 25 July 2019 <https://www.chanel.com/us/fragrance/p/120450/n5-parfum-grand-extrait/>.Fig. 9. This illustration of the bottle by Georges Goursat was published in a women’s magazine circa 1920s. “1921 Chanel No5.” Inside Chanel. 26 July 2019 <http://inside.chanel.com/en/timeline/1921_no5>; “La 4éme Fête de l’Histoire Samedi 16 et dimache 17 juin.” Ville de Perigueux. Musée d’art et d’archéologie du Périgord. 28 Mar. 2018. 26 July 2019 <https://www.perigueux-maap.fr/category/archives/page/5/>. This product was considered the “financial basis” of the Chanel “empire” which emerged during the second and third decades of the twentieth century (Tikkanen). Chanel is credited for revolutionising Haute Couture by introducing chic modern designs that emphasised “simplicity and comfort.” This was as opposed to the corseted highly embellished fashion that characterised the Victorian Era (Tikkanen). The lavish designs released by the House of Worth were, in and of themselves, “conspicuous” displays of “consumption” (Veblen 17). In contrast, the prestige and status associated with the “poor girl” look introduced by Chanel was invested in the story of the designer (Tikkanen). A primary example is her marinière or sailor’s blouse with a Breton stripe that epitomised her ascension from café singer to couturier (Tikkanen; Burstein 8). This signifier might have gone unobserved by less discerning consumers of fashion if it were not for branding. Not unlike the Prehistoric Mesopotamians, this iteration of branding is a process which “confer[s]” the “personality” of the designer into the garment (Wengrow 13 -14). The wearer of the garment is, in turn, is imbued by extension. Advertisers in the post-structuralist era embraced Levi-Strauss’s structuralist anthropological theories (Williamson 50). This is with particular reference to “bricolage” or the “preconditioning” of totemic symbols (Williamson 173; Pool 50). Subsequently, advertising creatives cum “bricoleur” employed his principles to imbue the brands with symbolic power. This symbolic capital was, arguably, transferable to the product and, ultimately, to its consumer (Williamson 173).Post-structuralist and semiotician Jean Baudrillard “exhaustively” critiqued brands and the advertising, or simulacrum, that embellished them between the late 1960s and early 1980s (Wengrow 10-11). In Simulacra and Simulation he wrote,it is the reflection of a profound reality; it masks and denatures a profound reality; it masks the absence of a profound reality; it has no relation to any reality whatsoever: it is its own pure simulacrum. (6)The symbolic power of the Chanel brand resonates in the ‘profound reality’ of her story. It is efficiently ‘denatured’ through becoming simplified, conspicuous and instantly recognisable. It is, as a logo, physically juxtaposed as simulacra onto apparel. This simulacrum, in turn, effects the ‘profound reality’ of the consumer. In 1899, economist Thorstein Veblen wrote in The Theory of the Leisure Class:Conspicuous consumption of valuable goods it the means of reputability to the gentleman of leisure… costly entertainments, such as potlatch or the ball, are peculiarly adapted to serve this end… he consumes vicariously for his host at the same time that he is witness to the consumption… he is also made to witness his host’s facility in etiquette. (47)Therefore, according to Veblen, it was the witnessing of “wasteful” consumption that “confers status” as opposed the primary conspicuous act (Han et al. 18). Despite television being in its experimental infancy advertising was at “the height of its powers” during the 1920s (Clark et al. 18; Hill 30). Post-World War I consumers, in America, experienced an unaccustomed level of prosperity and were unsuspecting of the motives of the newly formed advertising agencies (Clark et al. 18). Subsequently, the ‘witnessing’ of consumption could be constructed across a plethora of media from the newly emerged commercial radio to billboards (Hill viii–25). The resulting ‘status’ was ‘conferred’ onto brand logos. Women’s magazines, with a legacy dating back to 1828, were a primary locus (Hill 10).Belonging in a Post-Structuralist WorldIt is significant to note that, in a post-structuralist world, consumers do not exclusively seek upward mobility in their selection of brands. The establishment of counter-culture icon Levi-Strauss and Co. was concurrent to the emergence of both The House of Worth and Coco Chanel. The Bavarian-born Levi Strauss commenced selling apparel in San Francisco in 1853 (Levi’s). Two decades later, in partnership with Nevada born tailor Jacob Davis, he patented the “riveted-for-strength” workwear using blue denim (Levi’s). Although the ontology of ‘jeans’ is contested, references to “Jene Fustyan” date back the sixteenth century (Snyder 139). It involved the combining cotton, wool and linen to create “vestments” for Geonese sailors (Snyder 138). The Two Horse Logo (fig. 10), depicting them unable to pull apart a pair of jeans to symbolise strength, has been in continuous use by Levi Strauss & Co. company since its design in 1886 (Levi’s). Fig. 10. The Two Horse Logo by Levi Strauss & Co. has been in continuous use since 1886. Staff Unzipped. "Two Horses. One Message." Heritage. Levi Strauss & Co. 1 July 2011. 25 July 2019 <https://www.levistrauss.com/2011/07/01/two-horses-many-versions-one-message/>.The “rugged wear” would become the favoured apparel amongst miners at American Gold Rush (Muthu 6). Subsequently, between the 1930s – 1960s Hollywood films cultivated jeans as a symbol of “defiance” from Stage Coach staring John Wayne in 1939 to Rebel without A Cause staring James Dean in 1955 (Muthu 6; Edgar). Consequently, during the 1960s college students protesting in America (fig. 11) against the draft chose the attire to symbolise their solidarity with the working class (Hedarty). Notwithstanding a 1990s fashion revision of denim into a diversity of garments ranging from jackets to skirts, jeans have remained a wardrobe mainstay for the past half century (Hedarty; Muthu 10). Fig. 11. Although the brand label is not visible, jeans as initially introduced to the American Goldfields in the nineteenth century by Levi Strauss & Co. were cultivated as a symbol of defiance from the 1930s – 1960s. It documents an anti-war protest that occurred at the Pentagon in 1967. Cox, Savannah. "The Anti-Vietnam War Movement." ATI. 14 Dec. 2016. 16 July 2019 <https://allthatsinteresting.com/vietnam-war-protests#7>.In 2003, the journal Science published an article “Does Rejection Hurt? An Fmri Study of Social Exclusion” (Eisenberger et al.). The cross-institutional study demonstrated that the neurological reaction to rejection is indistinguishable to physical pain. Whereas during the 1940s Maslow classified the desire for “belonging” as secondary to “physiological needs,” early twenty-first century psychologists would suggest “[social] acceptance is a mechanism for survival” (Weir 50). In Simulacra and Simulation, Jean Baudrillard wrote: Today abstraction is no longer that of the map, the double, the mirror or the concept. Simulation is no longer that of a territory, a referential being or a substance. It is the generation by models of a real without origin or reality: a hyperreal… (1)In the intervening thirty-eight years since this document was published the artifice of our interactions has increased exponentially. In order to locate ‘belongness’ in this hyperreality, the identities of the seekers require a level of encoding. Brands, as signifiers, provide a vehicle.Whereas in Prehistoric Mesopotamia carved seals, worn as amulets, were used to extend the identity of a person, in post-digital China WeChat QR codes (fig. 12), stored in mobile phones, are used to facilitate transactions from exchanging contact details to commerce. Like other totems, they provide access to information such as locations, preferences, beliefs, marital status and financial circumstances. These individualised brands are the most recent incarnation of a technology that has developed over the past eight thousand years. The intermediary iteration, emblems affixed to garments, has remained prevalent since the twelfth century. Their continued salience is due to their visibility and, subsequent, accessibility as signifiers. Fig. 12. It may be posited that Wechat QR codes are a form individualised branding. Like other totems, they store information pertaining to the owner’s location, beliefs, preferences, marital status and financial circumstances. “Join Wechat groups using QR code on 2019.” Techwebsites. 26 July 2019 <https://techwebsites.net/join-wechat-group-qr-code/>.Fig. 13. Brands function effectively as signifiers is due to the international distribution of multinational corporations. This is the shopfront of Chanel in Dubai, which offers customers apparel bearing consistent insignia as the Parisian outlet at on Rue Cambon. Customers of Chanel can signify to each other with the confidence that their products will be recognised. “Chanel.” The Dubai Mall. 26 July 2019 <https://thedubaimall.com/en/shop/chanel>.Navigating a post-structuralist world of increasing mobility necessitates a rudimental understanding of these symbols. Whereas in the nineteenth century status was conveyed through consumption and witnessing consumption, from the twentieth century onwards the garnering of brands made this transaction immediate (Veblen 47; Han et al. 18). The bricolage of the brands is constructed by bricoleurs working in any number of contemporary creative fields such as advertising, filmmaking or song writing. They provide a system by which individuals can convey and recognise identities at prima facie. They enable the prosthesis of identity.ReferencesBaudrillard, Jean. Simulacra and Simulation. Trans. Sheila Faria Glaser. United States: University of Michigan Press, 1994.Burstein, Jessica. Cold Modernism: Literature, Fashion, Art. United States: Pennsylvania State University Press, 2012.Chaney, Lisa. Chanel: An Intimate Life. United Kingdom: Penguin Books Limited, 2011.Christensen, J.A. Cut-Art: An Introduction to Chung-Hua and Kiri-E. New York: Watson-Guptill Publications, 1989. Clark, Eddie M., Timothy C. Brock, David E. Stewart, David W. Stewart. Attention, Attitude, and Affect in Response to Advertising. United Kingdom: Taylor & Francis Group, 1994.Deuchar, Alexander. British Crests: Containing the Crests and Mottos of the Families of Great Britain and Ireland Together with Those of the Principal Cities – Primary So. London: Kirkwood & Sons, 1817.Ebert, Robert. “Great Movie: Stage Coach.” Robert Ebert.com. 1 Aug. 2011. 10 Mar. 2019 <https://www.rogerebert.com/reviews/great-movie-stagecoach-1939>.Elven, John Peter. The Book of Family Crests: Comprising Nearly Every Family Bearing, Properly Blazoned and Explained, Accompanied by Upwards of Four Thousand Engravings. London: Henry Washbourne, 1847.Eisenberger, Naomi I., Matthew D. Lieberman, and Kipling D. Williams. "Does Rejection Hurt? An Fmri Study of Social Exclusion." Science 302.5643 (2003): 290-92.Family Crests of Japan. California: Stone Bridge Press, 2007.Gombrich, Ernst. "The Visual Image: Its Place in Communication." Scientific American 272 (1972): 82-96.Hedarty, Stephanie. "How Jeans Conquered the World." BBC World Service. 28 Feb. 2012. 26 July 2019 <https://www.bbc.com/news/magazine-17101768>. Han, Young Jee, Joseph C. Nunes, and Xavier Drèze. "Signaling Status with Luxury Goods: The Role of Brand Prominence." Journal of Marketing 74.4 (2010): 15-30.Hill, Daniel Delis. Advertising to the American Woman, 1900-1999. United States of Ame: Ohio State University Press, 2002."History of Twinings." Twinings. 24 July 2019 <https://www.twinings.co.uk/about-twinings/history-of-twinings>. icon-icon: Telling You More about Icons. 18 Dec. 2016. 26 July 2019 <http://www.icon-icon.com/en/hermes-logo-the-horse-drawn-carriage/>. Jones, Geoffrey. Merchants to Multinationals: British Trading Companies in the 19th and 20th Centuries. Oxford: Oxford UP, 2002.Kamon (Japanese Family Crests): Ancient Key to Samurai Culture." Goin' Japaneque! 15 Nov. 2015. 27 July 2019 <http://goinjapanesque.com/05983/>. Krick, Jessa. "Charles Frederick Worth (1825-1895) and the House of Worth." Heilburnn Timeline of Art History. The Met. Oct. 2004. 23 July 2019 <https://www.metmuseum.org/toah/hd/wrth/hd_wrth.htm>. Levi’s. "About Levis Strauss & Co." 25 July 2019 <https://www.levis.com.au/about-us.html>. Lévi-Strauss, Claude. Totemism. London: Penguin, 1969.Lopes, Teresa de Silva, and Paul Duguid. Trademarks, Brands, and Competitiveness. Abingdon: Routledge, 2010.Maslow, Abraham. "A Theory of Human Motivation." British Journal of Psychiatry 208.4 (1942): 313-13.Moore, Karl, and Susan Reid. "The Birth of Brand: 4000 Years of Branding History." Business History 4.4 (2008).Muthu, Subramanian Senthikannan. Sustainability in Denim. Cambridge Woodhead Publishing, 2017.Polan, Brenda, and Roger Tredre. The Great Fashion Designers. Oxford: Bloomsbury Publishing, 2009.Pool, Roger C. Introduction. Totemism. New ed. Harmondsworth: Penguin, 1969.Press, Claire. Wardrobe Crisis: How We Went from Sunday Best to Fast Fashion. Melbourne: Schwartz Publishing, 2016.Sale, K. Rebels against the Future: The Luddites and Their War on the Industrial Revolution: Lessons for the Computer Age. Massachusetts: Addison-Wesley, 1996.Snow, C.P. The Two Cultures and the Scientific Revolution. Cambridge: Cambridge University Press, 1959. Snyder, Rachel Louise. Fugitive Denim: A Moving Story of People and Pants in the Borderless World of Global Trade. New York: W.W. Norton, 2008.Starcevic, Sladjana. "The Origin and Historical Development of Branding and Advertising in the Old Civilizations of Africa, Asia and Europe." Marketing 46.3 (2015): 179-96.Tikkanen, Amy. "Coco Chanel." Encyclopaedia Britannica. 19 Apr. 2019. 25 July 2019 <https://www.britannica.com/biography/Coco-Chanel>.Veblen, Thorstein. The Theory of the Leisure Class: An Economic Study in the Evolution of Institutions. London: Macmillan, 1975.Weir, Kirsten. "The Pain of Social Rejection." American Psychological Association 43.4 (2012): 50.Williamson, Judith. Decoding Advertisements: Ideology and Meaning in Advertising. Ideas in Progress. London: Boyars, 1978.
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McQuillan, Dan. "The Countercultural Potential of Citizen Science." M/C Journal 17, no.6 (October12, 2014). http://dx.doi.org/10.5204/mcj.919.
Full textAbstract:
What is the countercultural potential of citizen science? As a participant in the wider citizen science movement, I can attest that contemporary citizen science initiatives rarely characterise themselves as countercultural. Rather, the goal of most citizen science projects is to be seen as producing orthodox scientific knowledge: the ethos is respectability rather than rebellion (NERC). I will suggest instead that there are resonances with the counterculture that emerged in the 1960s, most visibly through an emphasis on participatory experimentation and the principles of environmental sustainability and social justice. This will be illustrated by example, through two citizen science projects that have a commitment to combining social values with scientific practice. I will then describe the explicitly countercultural organisation, Science for the People, which arose from within the scientific community itself, out of opposition to the Vietnam War. Methodological and conceptual weaknesses in the authoritative model of science are explored, suggesting that there is an opportunity for citizen science to become anti-hegemonic by challenging the hegemony of science itself. This reformulation will be expressed through Deleuze and Guattari's notion of nomadic science, the means through which citizen science could become countercultural. Counterculture Before examining the countercultural potential of citizen science, I set out some of the grounds for identifying a counterculture drawing on the ideas of Theodore Roszak, who invented the term counterculture to describe the new forms of youth movements that emerged in the 1960s (Roszak). This was a perspective that allowed the carnivalesque procession of beatniks, hippies and the New Left to be seen as a single paradigm shift combining psychic and social revolution. But just as striking and more often forgotten is the way Roszak characterised the role of the counterculture as mobilising a vital critique of the scientific worldview (Roszak 273-274). The concept of counterculture has been taken up in diverse ways since its original formation. We can draw, for example, on Lawrence Grossberg's more contemporary analysis of counterculture (Grossberg) to clarify the main concepts and contrast them with a scientific approach. Firstly, a counterculture works on and through cultural formations. This positions it as something the scientific community would see as the other, as the opposite to the objective, repeatable and quantitative truth-seeking of science. Secondly, a counterculture is a diverse and hybrid space without a unitary identity. Again, scientists would often see science as a singular activity applied in modulated forms depending on the context, although in practice the different sciences can experience each other as different tribes. Thirdly, a counterculture is lived as a transformative experience where the participant is fundamentally changed at a psychic level through participation in unique events. Contrast this with the scientific idea of the separation of observer and observed, and the objective repeatability of the experiment irrespective of the experimenter. Fourthly, a counterculture is associated with a unique moment in time, a point of shift from the old to the new. For the counterculture of the 1960s this was the Age of Aquarius. In general, the aim of science and scientists is to contribute to a form of truth that is essentially timeless, in that a physical law is assumed to hold across all time (and space), although science also has moments of radical change with regard to scientific paradigms. Finally, and significantly for the conclusions of this paper, according to Roszak a counterculture stands against the mainstream. It offers a challenge not at the level of detail but, to the fundamental assumptions of the status quo. This is what “science” cannot do, in as much as science itself has become the mainstream. It was the character of science as the bedrock of all values that Roszak himself opposed and for which he named and welcomed the counterculture. Although critical of some of the more shallow aspects of its psychedelic experimentation or political militancy, he shared its criticism of the technocratic society (the technocracy) and the egocentric mode of consciousness. His hope was that the counterculture could help restore a visionary imagination along with a more human sense of community. What Is Citizen Science? In recent years the concept of citizen science has grown massively in popularity, but is still an open and unstable term with many variants. Current moves towards institutionalisation (Citizen Science Association) are attempting to marry growth and stabilisation, with the first Annual General Meeting of the European Citizen Science Association securing a tentative agreement on the common principles of citizen science (Haklay, "European"). Key papers and presentations in the mainstream of the movement emphasise that citizen science is not a new activity (Bonney et al.) with much being made of the fact that the National Audubon Society started its annual Christmas Bird Count in 1900 (National Audubon Society). However, this elides the key role of the Internet in the current surge, which takes two distinct forms; the organisation of distributed fieldwork, and the online crowdsourcing of data analysis. To scientists, the appeal of citizen science fieldwork follows from its distributed character; they can research patterns over large scales and across latitudes in ways that would be impossible for a researcher at a single study site (Toomey). Gathering together the volunteer, observations are made possible by an infrastructure of web tools. The role of the citizen in this is to be a careful observer; the eyes and ears of the scientist in cyberspace. In online crowdsourcing, the internet is used to present pattern recognition tasks; enrolling users in searching images for signs of new planets or the jets of material from black holes. The growth of science crowdsourcing is exponential; one of the largest sites facilitating this kind of citizen science now has well in excess of a million registered users (Zooniverse). Such is the force of the technological aura around crowdsourced science that mainstream publications often conflate it with the whole of citizen science (Parr). There are projects within citizen science which share core values with the counterculture as originally defined by Roszak, in particular open participation and social justice. These projects also show characteristics from Grossberg's analysis of counterculture; they are diverse and hybrid spaces, carry a sense of moving from an old era to a new one, and have cultural forms of their own. They open up the full range of the scientific method to participation, including problem definition, research design, analysis and action. Citizen science projects that aim for participation in all these areas include the Extreme Citizen Science research group (ExCiteS) at University College London (UCL), the associated social enterprise Mapping for Change (Mapping for Change), and the Public Laboratory for Open Technology and Science (Public Lab). ExCiteS sees its version of citizen science as "a situated, bottom-up practice" that "takes into account local needs, practices and culture". Public Lab, meanwhile, argue that many citizen science projects only offer non-scientists token forms of participation in scientific inquiry that rarely amount to more that data collection and record keeping. They counter this through an open process which tries to involve communities all the way from framing the research questions, to prototyping tools, to collating and interpreting the measurements. ExCiteS and Public Lab also share an implicit commitment to social justice through scientific activity. The Public Lab mission is to "put scientific inquiry at the heart of civic life" and the UCL research group strive for "new devices and knowledge creation processes that can transform the world". All of their work is framed by environmental sustainability and care for the planet, whether it's enabling environmental monitoring by indigenous communities in the Congo (ExCiteS) or developing do-it-yourself spectrometry kits to detect crude oil pollution (Public Lab, "Homebrew"). Having provided a case for elements of countercultural DNA being present in bottom-up and problem-driven citizen science, we can contrast this with Science for the People, a scientific movement that was born out of the counterculture. Countercultural Science from the 1970s: Science for the People Science for the People (SftP) was a scientific movement seeded by a rebellion of young physicists against the role of US science in the Vietnam War. Young members of the American Physical Society (APS) lobbied for it to take a position against the war but were heavily criticised by other members, whose written complaints in the communications of the APS focused on the importance of scientific neutrality and the need to maintain the association's purely scientific nature rather than allowing science to become contaminated by politics (Sarah Bridger, in Plenary 2, 0:46 to 1:04). The counter-narrative from the dissidents argued that science is not neutral, invoking the example of Nazi science as a justification for taking a stand. After losing the internal vote the young radicals left to form Scientists and Engineers for Social and Political Action (SESPA), which later became Science for the People (SftP). As well as opposition to the Vietnam War, SftP embodied from the start other key themes of the counterculture, such as civil rights and feminism. For example, the first edition of Science for the People magazine (appearing as Vol. 2, No. 2 of the SESPA Newsletter) included an article about leading Black Panther, Bobby Seale, alongside a piece entitled “Women Demand Equality in Science.” The final articles in the same issue are indicators of SftP's dual approach to science and change; both the radicalisation of professionals (“Computer Professionals for Peace”) and the demystification of technical practices (“Statistics for the People”) (Science for the People). Science for the People was by no means just a magazine. For example, their technical assistance programme provided practical support to street health clinics run by the Black Panthers, and brought SftP under FBI surveillance (Herb Fox, in Plenary 1, 0:25 to 0:35). Both as a magazine and as a movement, SftP showed a tenacious longevity, with the publication being produced every two months between August 1970 and May/June 1989. It mutated through a network of affiliated local groups and international links, and was deeply involved in constructing early critiques of nuclear power and genetic determinism. SftP itself seems to have had a consistent commitment to non-hierarchical processes and, as one of the founders expressed it, a “shit kicking” approach to putting its principles in to practice (Al Weinrub, in Plenary 1, 0:25 to 0:35). SftP criticised power, front and centre. It is this opposition to hegemony that puts the “counter” into counterculture, and is missing from citizen science as currently practised. Cracks in the authority of orthodox science, which can be traced to both methodologies and basic concepts, follow in this paper. These can be seen as an opportunity for citizen science to directly challenge orthodox science and thus establish an anti-hegemonic stance of its own. Weaknesses of Scientific Hegemony In this section I argue that the weaknesses of scientific hegemony are in proportion to its claims to authority (Feyerabend). Through my scientific training as an experimental particle physicist I have participated in many discussions about the ontological and epistemological grounds for scientific authority. While most scientists choose to present their practice publicly as an infallible machine for the production of truths, the opinions behind the curtain are far more mixed. Physicist Lee Somolin has written a devastating critique of science-in-practice that focuses on the capture of the institutional economy of science by an ideological grouping of string theorists (Smolin), and his account is replete with questions about science itself and ethnographic details that bring to life the messy behind-the-scenes conflicts in scientific-knowledge making. Knowledge of this messiness has prompted some citizen science advocates to take science to task, for example for demanding higher standards in data consistency from citizen science than is often the case in orthodox science (Haklay, "Assertions"; Freitag, "Good Science"). Scientists will also and invariably refer to reproducibility as the basis for the authority of scientific truths. The principle that the same experiments always get the same results, irrespective of who is doing the experiment, and as long as they follow the same method, is a foundation of scientific objectivity. However, a 2012 study of landmark results in cancer science was able to reproduce only 11 per cent of the original findings (Begley and Ellis). While this may be an outlier case, there are broader issues with statistics and falsification, a bias on positive results, weaknesses in peer review and the “publish or perish” academic culture (The Economist). While the pressures are all-too-human, the resulting distortions are rarely acknowledged in public by scientists themselves. On the other hand, citizen science has been slow to pick up the gauntlet. For example, while some scientists involved in citizen science have commented on the inequality and inappropriateness of orthodox peer review for citizen science papers (Freitag, “What Is the Role”) there has been no direct challenge to any significant part of the scientific edifice. I argue that the nearest thing to a real challenge to orthodox science is the proposal for a post-normal science, which pre-dates the current wave of citizen science. Post-normal science tries to accommodate the philosophical implications of post-structuralism and at the same time position science to tackle problems such as climate change, intractable to reproducibility (Funtowicz and Ravetz). It accomplishes this by extending the domains in which science can provide meaningful answers to include issues such as global warming, which involve high decision stakes and high uncertainty. It extends traditional peer review into an extended peer community, which includes all the stakeholders in an issue, and may involve active research as well as quality assessment. The idea of extended peer review has obvious overlaps with community-oriented citizen science, but has yet to be widely mobilised as a theoretical buttress for citizen-led science. Prior even to post-normal science are the potential cracks in the core philosophy of science. In her book Cosmopolitics, Isabelle Stengers characterises the essential nature of scientific truth as the ability to disqualify and exclude other truth claims. This, she asserts, is the hegemony of physics and its singular claim to decide what is real and what is true. Stengers traces this, in part, to the confrontation more than one hundred years ago between Max Planck and Ernst Mach, whereas the latter argued that claims to an absolute truth should be replaced by formulations that tied physical laws to the human practices that produced them. Planck stood firmly for knowledge forms that were unbounded by time, space or specific social-material procedures (Stengers). Although contemporary understandings of science are based on Planck's version, citizen science has the potential to re-open these questions in a productive manner for its own practices, if it can re-conceive of itself as what Deleuze and Guattari would call nomadic science (Deleuze; Deleuze & Guattari). Citizen Science as Nomadic Science Deleuze and Guattari referred to orthodox science as Royal Science or Striated Science, referring in part to its state-like form of authority and practice, as well as its psycho-social character. Their alternative is a smooth or nomadic science that, importantly for citizen science, does not have the ambition to totalise knowledge. Nomadic science is a form of empirical investigation that has no need to be hooked up to a grand narrative. The concept of nomadic science is a natural fit for bottom-up citizen science because it can valorise truths that are non-dual and that go beyond objectivity to include the experiential. In this sense it is like the extended peer review of post-normal science but without the need to be limited to high-risk high-stakes questions. As there is no a priori problem with provisional knowledges, it naturally inclines towards the local, the situated and the culturally reflective. The apparent unreliability of citizen science in terms of participants and tools, which is solely a source of anxiety, can become heuristic for nomadic science when re-cast through the forgotten alternatives like Mach's formulation; that truths are never separated from the specifics of the context and process that produced them (Stengers 6-18; 223). Nomadic science, I believe, will start to emerge through projects that are prepared to tackle toxic epistemology as much as toxic pollutants. For example, the Community Based Auditing (CBA) developed by environmental activists in Tasmania (Tattersall) challenges local alliances of state and extractive industries by undermining their own truth claims with regards to environmental impact, a process described in the CBA Toolbox as disconfirmation. In CBA, this mixture of post-normal science and Stenger's critique is combined with forms of data collection and analysis known as Community Based Sampling (Tattersall et al.), which would be recognisable to any citizen science project. The change from citizen science to nomadic science is not a total rupture but a shift in the starting point: it is based on an overt critique of power. One way to bring this about is being tested in the “Kosovo Science for Change” project (Science for Change Kosovo), where I am a researcher and where we have adopted the critical pedagogy of Paulo Freire as the starting point for our empirical investigations (Freire). Critical pedagogy is learning as the co-operative activity of understanding—how our lived experience is constructed by power, and how to make a difference in the world. Taking a position such as nomadic science, openly critical of Royal Science, is the anti-hegemonic stance that could qualify citizen science as properly countercultural. Citizen Science and Counterculture Counterculture, as I have expressed it, stands against or rejects the hegemonic culture. However, there is a strong tendency in contemporary social movements to take a stance not only against the dominant structures but against hegemony itself. They contest what Richard Day calls the hegemony of hegemony (Day). I witnessed this during the counter-G8 mobilisation of 2001. Having been an activist in the 1980s and 1990s I was wearily familiar with the sectarian competitiveness of various radical narratives, each seeking to establish itself as the correct path. So it was a strongly affective experience to stand in the convergence centre and listen to so many divergent social groups and movements agree to support each other's tactics, expressing a solidarity based on a non-judgemental pluralism. Since then we have seen the emergence of similarly anti-hegemonic countercultures around the Occupy and Anonymous movements. It is in this context of counterculture that I will try to summarise and evaluate the countercultural potential of citizen science and what being countercultural might offer to citizen science itself. To be countercultural it is not enough for citizen science to counterpose participation against the institutional and hierarchical aspects of professional science. As an activity defined purely by engagement it offers to plug the legitimacy gap for science while still being wholly dependent on it. A countercultural citizen science must pose a strong challenge to the status quo, and I have suggested that a route to this would be to develop as nomadic science. This does not mean replacing or overthrowing science but constructing an other to science with its own claim to empirical methods. It is fair to ask what this would offer citizen science that it does not already have. At an abstract level it would gain a freedom of movement; an ability to occupy Deleuzian smooth spaces rather than be constrained by the striation of established science. The founders of Science for the People are clear that it could never have existed if it had not been able to draw on the mass movements of its time. Being countercultural would give citizen science an affinity with the bottom-up, local and community-based issues where empirical methods are likely to have the most social impact. One of many examples is the movement against fracking (the hydraulic fracturing of deep rock formations to release shale gas). Together, these benefits of being countercultural open up the possibility for forms of citizen science to spread rhizomatically in a way that is not about immaterial virtual labour but is itself part of a wider cultural change. 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