News Â鶹´«Ã½ from ClinMet Latest news from ClinMet on News en-us Copyright 2024 News News Â鶹´«Ã½ from ClinMet 115 31 / /images/newswise-logo-rss.gif Research by Clinmet Scientific Founder and Colleagues Point to Enzyme That Restores Function in Diabetic Kidney Disease /articles/research-by-clinmet-scientific-founder-and-colleagues-point-to-enzyme-that-restores-function-in-diabetic-kidney-disease/?sc=rsin /articles/research-by-clinmet-scientific-founder-and-colleagues-point-to-enzyme-that-restores-function-in-diabetic-kidney-disease/?sc=rsin Thu, 31 Oct 2013 08:00:00 EST ClinMet today announced that researchers from The University of California, San Diego School of Medicine and colleagues have published new findings that could fundamentally change understanding of how diabetes-related diseases develop and how they might be better treated. A prevailing theory suggests that mitochondrial function is overactive in diabetes and leads to complications such as kidney, eye, nerve and possibly cardiovascular disease. However, these new studies suggest that real-time production of superoxide - a marker of mitochondrial activity - is actually reduced, rather than elevated, in diabetic kidney disease and potentially other organs as well. Furthermore, stimulating mitochondrial production, function and superoxide levels led to improvement in diabetic kidney disease. ClinMet Newly Published Research by ClinMet Founder and UC San Diego Team Demonstrates Value of Urine-based Metabolomics to Translational Medicine /articles/newly-published-research-by-clinmet-founder-and-uc-san-diego-team-demonstrates-value-of-urine-based-metabolomics-to-translational-medicine/?sc=rsin /articles/newly-published-research-by-clinmet-founder-and-uc-san-diego-team-demonstrates-value-of-urine-based-metabolomics-to-translational-medicine/?sc=rsin Fri, 11 Oct 2013 09:05:00 EST ClinMet today announced that researchers from The University of California, San Diego School of Medicine have published new metabolomics research that uncovers a novel, characteristic and highly consistent biochemical signature in urine associated with diabetic kidney disease. The findings, which form a foundation of ClinMet's proprietary Clinical Metabolomics platform, have implications for the identification of clinically useful biomarkers for kidney function and for sharpening drug development and clinical trials related to chronic kidney disease, as well as to diabetes, obesity and cardiovascular disease. ClinMet