Anti-diabetic drug metformin inhibits disease progression in Alport syndrome mouse model
Researchers from Kumamoto University (Japan) have found that the anti-diabetic drug metformin significantly prolongs the survival of mice in a model that simulates the pathology of non-diabetic chronic kidney disease (ND-CKD) by ameliorating pathological conditions like reduced kidney function, glomerular damage, inflammation and fibrosis. Metformin s mechanism is different from existing therapeutics which only treat symptoms, such as the blood pressure drug losartan, so the researchers believe that a combination of these medications at low dose will be highly beneficial.
CKD (chronic kidney disease) is a general term for kidney damage that results from persistent decline in kidney function due to proteinuria, kidney inflammation, or fibrosis. As CKD progresses, patients are forced to undergo dialysis, and diabetes is one of its biggest risk factors. CKD can also occur in association with lifes
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Credit: Professor Hirofumi Kai
Researchers from Kumamoto University (Japan) have found that the anti-diabetic drug metformin significantly prolongs the survival of mice in a model that simulates the pathology of non-diabetic chronic kidney disease (ND-CKD) by ameliorating pathological conditions like reduced kidney function, glomerular damage, inflammation and fibrosis. Metformin s mechanism is different from existing therapeutics which only treat symptoms, such as the blood pressure drug losartan, so the researchers believe that a combination of these medications at low dose will be highly beneficial.
CKD (chronic kidney disease) is a general term for kidney damage that results from persistent decline in kidney function due to proteinuria, kidney inflammation, or fibrosis. As CKD progresses, patients are forced to undergo dialysis, and diabetes is one of its biggest risk factors. CKD can also occur in association with lifestyle-related conditions such as hypertension, in