The objective of this study is to demonstrate the different effects of two DPP-4 inhibitors(Sitagliptin, Saxagliptin)and the insulin secretagogue: glimepiride on first and second phase insulin secretion by using a Biphase-Hyperglycemic Clamp and to explore the different effects of the study drugs on the GLP-1 response, and the glucagon concentration which indicates alpha cell function in healthy subjects.
After enrollment and two weeks screening period eligible subjects will be counseled to follow a dietary program for approximately 2 wk and recorded of personal history, full clinical examination and screening blood samples. Subjects will be randomized using a computer-generated allocation schedule to one of 12 sequences during which each subjects will be assigned to take 4 times of bi-phase hyperglycaemic clamp experiments at a randomized sequence separated by a washout period of 7-14d. At each experimental day, the subject will take the given dose of Sitagliptin, Saxagliptin, Glimepiride and nothing for blank control two hours before the clamp experiment starts. The hyperglycaemic clamp will be performed after an overnight fast. Subjects will be placed in a recumbent position and cannula will be inserted in a dorsal hand vein. The hand will be placed in a heating box (42C) throughout the experiment to allow frequent sampling of arterialized blood. A second cannula will be inserted in a contralateral cubital vein for glucose infusion. At time zero (0 min), a 50% glucose bolus will be injected during 1 min to increase PG to 12mM. The glucose bolus will be calculated as:(12mM-FPG)×35 mg glucose × body weight (kg). PG will be measured bedside every 5 min and maintained at 12mM by an adjustable continuous 20% glucose infusion. After 90min, PG will be lowered down below 6mM for the islet cells to rest, then the subject will be instructed to consume 75g glucose solution orally in 5min, PG will be measured bedside every 5 min and maintained below 6mM for 40min then restart the 90min-hyperglycaemic clamp experiment. The oral period of hyperglycaemic clamp process is the same as what's done in fasting period. Blood samples will be collected in -2h, 0min, 10min, 90min in both hyperglycaemic clamp experimental process for the measurement of insulin, C-peptide, glucagon, active GLP-1, total GLP-1 and DPP-4 activity. Thus we could evaluate the beta cell function represented by the first phase and the second phase of insulin secretion(C-peptide secretion) and alpha cell function represented by the change of glucagon concentration during the fasting period and oral period of hyperglycaemic clamp experiment and the change of active GLP-1, total GLP-1 and DPP-4 activity as well.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Masking
NONE
Enrollment
12
Shanghai Jiao Tong University School of Medicine
Shanghai, China
RECRUITINGThe acute phase and second phase of insulin secretion and C peptide secretion
The primary outcome measures are improvement in beta cell function measured as insulin secretion and C-peptide secretion during the bi-phase hyperglycaemic clamp. The first phase of insulin and C-peptide secretion is defined as the secretion between 0-10min, the second phase is defined as secretion between 20-90min of bi-phase hyperglycaemic clamp
Time frame: 1-2 months
Alpha cell function,GLP-1 response
The secondary outcome measures are a relative increase in glucagon concentration which indicates alpha cell function and the GLP-1 response, DPP-4 activity and before taken the medicine and in 0, 10, 90,150,160,240min during the bi-phase hyperglycaemic clamp.
Time frame: 1-2 months
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the subjects take no medication at experimental day and start bi-phase hyperglycaemic clamp at 9am.