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Reducing Chronic Diseases Critical To Economic Recovery And Health Reform
An obese 70-year-old will spend approximately 20 percent more on health care over their lifetime - nearly $40,000 - than a peer of normal weight, according to the second annual Almanac of Chronic Disease, released today by the Partnership to Fight Chronic Disease (PFCD).
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American Indian Tribes To Get $500M In Stimulus Funds For Health Projects
Newly appointed IHS Director Yvette Roubideaux on Friday announced that American Indian tribes will receive $500 million as part of the $787 billion economic stimulus package to fund health care projects, the Green Bay Press-Gazette reports. According to the Press-Gazette, American Indian tribes frequently cite lack of adequate health care as a major issue on reservations. President Obama also included a $454 million increase for IHS programs in his 2010 budget proposal to address such barriers.The $500 million includes:
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Novel Non-Surgical Therapy Dramatically Increases Weight Loss In Obese Patients; Results From Pilot Clinical Study Presented At ASMBS
GI Dynamics, a leader in non-surgical treatments for type 2 diabetes and obesity, today announced results from a pilot clinical study which demonstrated the substantially enhanced weight loss effects of combining the company"s EndoBarrier Gastrointestinal Liner with a new EndoBarrier Flow Restrictor. The EndoBarrier Flow Restrictor provides an adjustable restriction at the outlet of the stomach and is designed to delay gastric emptying, an additional mechanism which adds to the therapeutic effects of the liner. The results were presented today at the 26th annual meeting of the American Society for Metabolic and Bariatric Surgery (ASMBS).
Endocrinology

Proteomics: Finding The Key Ingredients Of Disease

The winner of the chilli cook-off, usually has a key secret ingredient, which is hard to identify. Similarly, many diseases have crucial proteins, which change the dynamics of cells from benign to deadly. New findings from an international collaboration, involving McGill University, the Research Institute of the McGill University Health Centre (MUHC) and the Human Proteome Organisation (HUPO) just made identifying these changes one step easier. Their findings published in Nature Methods, show how to improve protein analysis to tease out relevant potential disease-causing molecules. "Proteomics is the field that singles out the few significant proteins from the hundreds that may be present in a diagnostic sample," says co-author and recent new recruit of the Research Institute of the MUHC and of McGill Unversity, Dr. Tommy Nilsson. "It is important to associate the correct proteins with the correct condition. This process is incredibly complex. The aim of our study was to benchmark current analysis techniques worldwide and to identify potential bottlenecks." Putting them to the test Twenty-seven labs worldwide were sent a standard sample of proteins to analyse using their usual techniques. Only seven of the 27 participating labs were accurate in detecting all the proteins and in the more challenging part of the study, only one lab succeeded. However, further analysis of their raw data, showed that all the proteins had been initially detected by all the labs involved but they had been rejected in later analyses. "Our centralized analysis showed us the problems encountered while conducting this type of testing," says Dr. John Bergeron, senior author from McGill University and HUPO. "We found that a major contributing factor to erroneous reporting is at the database level. We expect once databases and search engines improve, the accuracy of reporting will as well." Importance of proteomics The goal of proteomics is to characterise all the proteins that are encoded from human DNA, similar to how all genes were identified as a result of the Human Genome Project. It is expected that proteomics will accelerate the identification of cause of many human diseases and that improved diagnosis and therapy will emerge using proteomic techniques. "The new technology described in our paper will potentially enable clinicians to determine the causes of disease," adds Dr. Bergeron. Funding This study was funded through grants the Canadian Institutes of Health Research, Genome Quebec and McGill University. Dr Tommy Nilsson Dr Tommy Nilsson is the Director of Proteomics and Systems Medicine at the Research Institute of the MUHC and Professor of Endocrinology and metabolism at McGill University. Dr John Bergeron Dr John Bergeron is the McGill chair of the Anatomy and Cell Biology Department, and a member of HUPO. Partners "HUPO test sample study reveals common problems in mass spectrometry-based proteomics", was authored by Alexander Bell (McGill University), Eric Deutsch (Research Institute, MUHC), Catherine Au (McGill University), Robert Kearney (CODA Genomics), Ron Beavis (BioGrammatics), Salvatore Sechi (NIDDK (NIH)), Tommy Nilsson (Research Institute, MUHC0, John Bergeron (McGill University) and the HUPO Test Sample Working Group. This release is available in French. Isabelle Kling McGill University Health Centre


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