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https://diabetes.med.umich.edu/partners/michigan-diabetes-research-center-mdrc/cores/clinical
Clinical Core of the Michigan Diabetes Research Center (MDRC) provides expertise and services to support basic biomedical research, research focused on the translation of basic science findings into early phase clinical trials, and the testing of treatments related to diabetes in human subjects.
Proper citation: Michigan Diabetes Research Center Clinical Core Facility (RRID:SCR_015139) Copy
http://diabetesresearchcenter.dom.wustl.edu/metabolomics-core/
Core facility which provides mass spectrometry analyses to Diabetes Research Center investigators that includes quantification as well as structural characterization of diabetes-related biomolecules.
Proper citation: Washington University School of Medicine Diabetes Research Center Mass Spectrometry Core (RRID:SCR_015137) Copy
https://labnodes.vanderbilt.edu/resource/view/id/10800/community_id/1418
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on July 6th,2023. Core whose objective is to provide investigators at Vanderbilt and outside institutions a means to accurately assess cardiovascular phenotypes in mouse models of diabetes and metabolic disease. The CPC uses validated approaches and state-of-the-art instrumentation that allow for sensitive screening of phenotypic variations.
Proper citation: MMPC-Vanderbilt University School of Medicine Cardiovascular Pathophysiology Core (RRID:SCR_015353) Copy
http://www.mmpc.org/shared/showCenterCore.aspx?id=30
Core that provides investigators with services to accurately measure the major components of energy balance in their mouse models and tests that allow investigators to examine physiological factors that may influence food intake or energy expenditure.
Proper citation: MMPC-University of California Davis Energy Balance Exercise and Behavior Core (RRID:SCR_015364) Copy
https://www.atypicaldiabetesnetwork.org/
Portal dedicated to characterizing, discovering and defining rare and atypical forms of diabetes. Network of universities, hospitals and clinics across the United States dedicated to better understanding atypical diabetes. Team of academic institutions and scientists collaborates with physicians and healthcare groups to identify those with atypical diabetes and learn more about their health.
Proper citation: Rare and Atypical Diabetes Network (RRID:SCR_024732) Copy
An American pharmaceutical company aiming to make a difference in the lives of people globally through their medicines, vaccines, biologic therapies and animal health products.
Proper citation: Merck (RRID:SCR_001287) Copy
A public charity whose mission is to support the NIH in its mission to improve health, by forming and facilitating public-private partnerships for biomedical research and training. Its vision is Building Partnerships for Discovery and Innovation to Improve Health. The FNIH draws together the world''s foremost researchers and resources, pressing the frontier to advance critical discoveries. They are recognized as the number-one medical research charity in the countryleveraging support, and convening high level partnerships, for the greatest impact on the most urgent medical challenges we face today. Grants are awarded as part of a public-private partnership with the National Heart, Lung, and Blood Institute (NHLBI) on behalf of The Heart Truth in support of women''s heart health education and research. Funding for the Community Action Program is provided by the FNIH through donations from individuals and corporations including The Heart Truth partners Belk Department Stores, Diet Coke, and Swarovski. Successful biomedical research relies upon the knowledge, training and dedication of those who conduct it. Bringing multiple disciplines to bear on health challenges requires innovation and collaboration on the part of scientists. Foundation for NIH partnerships operate in a variety of ways and formats to recruit, train, empower and retain their next generation of researchers. From lectures and multi-week courses, to scholarships and awards through fellowships and residential training programs, their programs respond to the needs of scientists at every level and stage in their careers.
Proper citation: Foundation for the National Institutes of Health (RRID:SCR_004493) Copy
The mission of the American Diabetes Association (ADA) is to prevent and cure diabetes and to improve the lives of all people affected by diabetes. We lead the fight against the deadly consequences of diabetes and fight for those affectedby diabetes. * We fund research to prevent, cure and manage diabetes. * We deliver services to hundreds of communities. * We provide objective and credible information. * We give voice to those denied their rights because of diabetes.
Proper citation: American Diabetes Association (RRID:SCR_004526) Copy
Organization that drives the development of disease-modifying treatments against Alzheimer's, Parkinson's, Diabetes and other protein misfolding disorders through two independently managed business units: * Contract Research: The in-vivo Contract Research Organization (CRO) helps its clients to assess the pharmacokinetics and -dynamics of their experimental treatments against Alzheimer's disease. The main focus is on efficacy testing of candidate drugs in reMYND's proprietary Alzheimer mouse models expressing the clinical APP-London allele as single transgene or in combination with clinical alleles of human PS1 and TAU. * Drug Discovery: The Drug Discovery and Development Unit (DDD) focuses on disease-modifying treatments against protein-misfolding disorders, such as Alzheimer's disease (tau), Parkinson's disease (-synuclein), and Diabetes. In addition, reMYND grants licenses and markets commercial kits of RadarScreen, a technology for rapid and cost-effective identification of genotoxic liabilities in early stage drug discovery. reMYND has been substantially supported by grants from IWT and from The Michael J Fox Foundation.
Proper citation: reMYND (RRID:SCR_003824) Copy
A diabetes company active in the field of pharmaceutical development. The Company develops the diabetes vaccine Diamyd with the active ingredient GAD, which has the potential to become a key piece of the puzzle of a future solution to prevent, treat or cure type 1 diabetes and other forms of diabetes. Diamyd Medical has independently pursued the development of the diabetes vaccine Diamyd to global Phase III trials, leading to one of Sweden''s largest biotech agreements ever. The company has secured an exclusive license for a patent application for the specific combination therapy GAD plus the endogenous substance GABA, which has demonstrated favorable results in preclinical trials. The license also encompasses rights for the therapeutic use of GABA to treat diabetes and other inflammation-related disorders.
Proper citation: Diamyd Medical (RRID:SCR_003930) Copy
A drug discovery company focused on small-molecule drugs targeting G-protein-coupled receptors (GPCRs), the largest family of druggable targets. Heptares creates new medicines targeting previously undruggable or challenging GPCRs, a superfamily of receptors linked to many diseases. They are pioneering a structure-based drug design approach to GPCRs, leveraging proprietary technologies for protein stabilization, structure determination, and fragment-based discovery. Their partners include Cubist, MorphoSys, AstraZeneca, MedImmune and Takeda. Their objective is to build a broad pipeline of novel medicines to transform the treatment of serious diseases, including Alzheimer's disease, schizophrenia, diabetes, ADHD and chronic migraine.
Proper citation: Heptares Therapeutics (RRID:SCR_000499) Copy
http://helmsleytrust.org/program-areas/health-medical-research/
The Leona M. and Harry B. Helmsley Charitable Trust supports a broad spectrum of healthcare and medical research-based programs. The areas supported include Type 1 Diabetes, Digestive Diseases, Rural Healthcare, Cardiology, and a range of other programs and institutions.
Proper citation: Helmsley Charitable Trust (RRID:SCR_005111) Copy
https://t1dexchange.org/pages/
Provides access to resources T1D researchers need to conduct clinical studies. Data sets from their clinic registry is openly available, as are new study results. They also offer use of T1D Discovery Tool, which allows users to search different fields from registry data, and T1D Exchange Biobank, which offers specimen types such as serum, plasma, white blood cells, DNA, and RNA.
Proper citation: T1D Exchange (RRID:SCR_014532) Copy
https://www.nih.gov/research-training/accelerating-medicines-partnership-amp
Partnership between the National Institutes of Health (NIH), the U.S. Food and Drug Administration (FDA), and multiple biopharmaceutical companies and non-profit organizations whose goal is to increase the number of new diagnostics and therapies for patients and reduce the time and cost of developing them. The group explores three major areas of disease: diabetes, Alzheimer's disease, and rheumatoid arthritis and lupus.
Proper citation: Accelerating Medicines Partnership (RRID:SCR_014927) Copy
http://www.ncbi.nlm.nih.gov/projects/gap/cgi-bin/study.cgi?study_id=phs000674.v1.p1
Human genetics data from an immense (78,000) and ethnically diverse population available for secondary analysis to qualified researchers through the database of Genotypes and Phenotypes (dbGaP). It offers the opportunity to identify potential genetic risks and influences on a broad range of health conditions, particularly those related to aging. The GERA cohort is part of the Research Program on Genes, Environment, and Health (RPGEH), which includes more than 430,000 adult members of the Kaiser Permanente Northern California system. Data from this larger cohort include electronic medical records, behavioral and demographic information from surveys, and saliva samples from 200,000 participants obtained with informed consent for genomic and other analyses. The RPGEH database was made possible largely through early support from the Robert Wood Johnson Foundation to accelerate such health research. The genetic information in the GERA cohort translates into more than 55 billion bits of genetic data. Using newly developed techniques, the researchers conducted genome-wide scans to rapidly identify single nucleotide polymorphisms (SNPs) in the genomes of the people in the GERA cohort. These data will form the basis of genome-wide association studies (GWAS) that can look at hundreds of thousands to millions of SNPs at the same time. The RPGEH then combined the genetic data with information derived from Kaiser Permanente''s comprehensive longitudinal electronic medical records, as well as extensive survey data on participants'' health habits and backgrounds, providing researchers with an unparalleled research resource. As information is added to the Kaiser-UCSF database, the dbGaP database will also be updated.
Proper citation: Resource for Genetic Epidemiology Research on Adult Health and Aging (RRID:SCR_010472) Copy
http://www.t1diabetes.nih.gov/t1d-raid/index.shtml
NOTE: The T1D-RAID program is not currently accepting applications. Cooperative program that makes available, on a competitive basis, NCI resources for the pre-clinical development of drugs, natural products, and biologics to facilitate translation to the clinic of novel, scientifically meritorious therapeutic interventions for type 1 diabetes and its complications. A partial listing of those services includes: high-throughput screening, studies in animal models, formulation, pharmacology and toxicology studies, and bulk substances acquisition. Requests to T1D-RAID are brief (20 pages or less), and should clearly outline the resources required to ready the proposed therapeutic agent for clinical trials. T1D-RAID should enable entry into the clinic of promising molecules that are not otherwise likely to receive an adequate and timely clinical test. T1D-RAID is designed to accomplish the tasks that are rate-limiting in bringing discoveries from the laboratory to the clinic. Once a project has been approved, NIDDKstaff interact directly with the Principal Investigator (PI). NCI contractors perform the T1D-RAID-approved tasks under the direction of NIDDKand NCI staff. The required tasks will vary from project to project. In some cases T1D-RAID will support only one or two key missing steps necessary to bring a compound to the clinic; in other cases it may be necessary to supply the entire portfolio of development requirements needed to file an IND. Examples of tasks that can be supported by T1D-RAID include, but are not limited to: * Definition or optimization of dose and schedule for in vivo activity * Development of pharmacology assays * Conduct of pharmacology studies with a pre-determined assay * Acquisition of bulk substance (GMP and non-GMP) * Scale-up production from lab-scale to clinical-trials lot scale * Development of suitable formulations * Development of analytical methods for bulk substances * Production of dosage forms * Stability assurance of dosage forms * Range-finding initial toxicology * IND-directed toxicology, with correlative pharmacology and histopathology * Planning of clinical trials * Regulatory affairs, so that FDA requirements are likely to be satisfied by participating investigators seeking to test new molecular entities in the clinic * IND filing advice The output of T1D-RAID activities will be both products and information that will be made fully available to the originating investigator for support of an IND application and clinical trials. T1D-RAID does not sponsor clinical trials.
Proper citation: Type 1 Diabetes - Rapid Access to Intervention Development (RRID:SCR_000203) Copy
Biomedical technology research center that develops and applies new methods for analysis of metabolic networks in intact tissues, animals and human patients. The importance of understanding abnormal metabolism in common diseases such as cancer, diabetes and heart disease has long been appreciated. Because of constraints in technology, however, much of this research has been conducted in isolated systems where clinical relevance may be uncertain. Progress in magnetic resonance technology provides a foundation for major advances towards new ways of imaging metabolism in patients. These new techniques offer the advantage of imaging biochemical pathways without radiation. The focus of this Resource is to bring these technologies to a level where clinical research is feasible through the development of new MR contrast agents, NMR spectroscopy at high fields, and imaging of hyperpolarized 13C.
Proper citation: Southwestern NMR Center for In Vivo Metabolism (RRID:SCR_001429) Copy
Program is performing deep phenotyping of human endocrine pancreas and its interaction with immune system to better understand cellular and molecular events that precede and lead to beta cell loss in Type-1 Diabetes (T1D) and islet dysfunction in Type-2 Diabetes (T2D).
Proper citation: HIRN Human Pancreas Analysis Program (RRID:SCR_016202) Copy
http://diabetes.wisc.edu/index.php
Interactive database of gene expression and diabetes related clinical phenotypes. Allows to search gene expression in tissues as a function of obesity, strain, and age, in a mouse.
Proper citation: Attie Lab Diabetes Database (RRID:SCR_016639) Copy
https://diabetes.med.umich.edu/partners/michigan-center-diabetes-translational-research-mcdtr
Multidisciplinary unit of the University of Michigan funded by National Institute of Diabetes and Digestive and Kidney Diseases/National Institutes of Health. MCDTR is one of seven NIH Centers funded to focus on type 2 translational research in diabetes with mission to establish, promote, and enhance multidisciplinary collaboration among researchers directed at prevention and control of diabetes, its complications, and comorbidities, by providing access to specialized expertise and resources.
Proper citation: Michigan Center for Diabetes Translational Research (RRID:SCR_015187) Copy
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