ABSTRACT
Sixty male SD rats were separately fed by normal diet or high-fat diet.After eight weeks of highfat diet,these rats were injected low dose streptozotocin (30 mg/kg).Diazoxide or glipizide was administered to the diabetic rats for 4 weeks.The results showed that body weight,serum insulin,and insulin sensitive index were decreased in the obese diabetic rats while the fasting blood glucose,total cholesterol,and triglyceride levels were increased compared with the high-fat diet group ( all P<0.01 ).Consistent with the results of glipizide,diazoxide treatment lowered blood glucose,improved glucose tolerance,and decreased islet cell apoptosis compared with the diabetes mellitus group ( all P<0.05 ).The results suggest that diazoxide can improve islet function of obese type 2 diabetic rats via decreasing insulin secretion and thus lessening the load on islet cells.
ABSTRACT
Objective To analyze the changes of the intima-media thickness(IMT)of carotid and femoral arteries, serum advanced glycosylation end-products(AGEs),and AGEs soluble receptor(sRAGE)after intensively controlling blood glucose, blood pressure, and lipid. Methods One hundred and thirty-two type 2 diabetic patients were divided into 3 groups and followed for 5 years: 20 patients were treated with intensive control of blood glucose and blood pressure, 80 patients with intensive control of blood glucose, blood pressure, and lipid; and 32 patients with conventional therapy. AGEs, sRAGE, and IMT of carotid and femoral arteries were measured and compared among different groups. Results The IMT of carotid and femoral arteries and serum level of AGEs were significantly decreased after intensive treatment. The ratio of sRAGE and HbA1C(sRAGE/HbA1C)were negatively correlated with the mean of HbA1Cin the past five years(r=-0.417, P<0.001)and the fluctuation of HbA1C(r=-0.309,P<0.001). Multinomial regression analysis showed that AGEs were the important risk factors of IMT of femoral artery(β=0.152,P=0.068). Conclusion Intensive treatment is significant in controlling the growing IMT of carotid and femoral arteries, while decreasing serum level of AGEs.