The objective of this project is to understand defects in insulin secretion that contribute to abnormal glucose metabolism in patients with diabetes. In particular the effects of signals released from the intestine to stimulate insulin secretion will be tested. Patients with type 2 diabetes will have insulin secretion in response to glucose and intestinal factors before and after insulin treatment to lower their blood glucose. It is expected that the results of this work will provide valuable information for treating diabetic people.
The objective of this project is to understand defects in insulin secretion that contribute to abnormal glucose metabolism in patients with diabetes. Diabetes is a major problem for patients receiving care at VA medical centers among whom 20% are affected. Specifically, this project will seek to determine the mechanism(s) by which the incretin effect is impaired in diabetic patients. The incretin effect refers to the action of GI hormones and neural stimuli to increase insulin secretion after food intake, and accounts for approximately 50% of postprandial insulin secretion in nondiabetic humans. There are several studies indicating that this response is severely impaired in patients with type 2 diabetes. The mechanism(s) by which this occurs has not been explained. There is some evidence to suggest that secretion of the important incretins, glucagon-like peptide 1 (GLP-1) and glucose-dependent insulinotropic polypeptide (GIP), may be impaired in diabetic individuals. There is also some data to suggest that the beta-cells in persons with diabetes are insensitive to the incretins. The problem with the current state of knowledge in this area is that previous work has involved small numbers of diabetic subjects, and did not directly test mechanisms by which the incretin effect is altered in diabetes. In this project we will determine the role of hyperglycemia to impair the incretin effect. Type 2 diabetic subjects will have the incretin effect measured before and after intensified diabetes treatment. This study will test the effect of chronic hyperglycemia on incretin mediated insulin secretion. In all studies, the incretin effect will be measured before and after these interventions using studies with a within subjects design. A combined glucose clamp/meal tolerance test protocol will be used to quantify the incretin effect. These studies will allow the role of incretin secretion, incretin action, and overall metabolic milieu, on postprandial insulin secretion to be defined. The results of these studies will add important new information for understanding abnormal beta-cell function in diabetes. By identifying the sites where the incretin effect is impaired this project will provide the basis for new approaches to treat diabetic patients. This is especially relevant with the recent availability of new medications that target the incretin pathways to lower blood glucose. The blood samples will be drawn and processed in the GCRC. The samples will be frozen and stored in Building 15, Room 401. Samples will be shipped to the Genome Research Institute by staff trained in IATA shipping procedures.
Diabetic subjects will be treated with insulin glargine once daily for 2 months. Subjects will monitor their blood glucose and have their insulin dose adjusted in steps of 4-6 units to achieve a goal of less than or equal to 120 mg/dl for fasting blood glucose.
VA Medical Center, Cincinnati
Cincinnati, Ohio, United States
ISR in Response to a Glucose Clamp and Oral Glucose Ingestion Before and After 2 Months of Insulin Treatment to Improve Average Glycemia.
Subjects had glucose clamps for 270 minutes with serial sampling of blood for measurement of insulin and C-peptide. At 90 minutes into the clamp they consumed 75 g of oral glucose solution. Meal-stimulated insulin secretion was summarized as the mean plasma C-peptide from 90-270 minutes. This outcome measure was compared for each subject before treatment and after 2 months of insulin treatment to lower blood glucose. Subjects were started on 20 units of insulin glargine after their first visit and asked to measure their morning blood glucose daily. The dose of insulin was increased in increments of 4-6 units every 3 days targeting an average morning glucose level of less then 120 mg/dl. After 2 months of treatment the primary outcome was repeated with a second glucose clamp / oral glucose tolerance test, identical to the first.
Time frame: 180 minutes
C-peptide Concentration in Response to a Glucose Clamp and Oral Glucose Ingestion Before and After 2 Months of Insulin Treatment to Improve Average Glycemia.
Subjects had glucose clamps for 270 minutes with serial sampling of blood for measurement of insulin and C-peptide. At 90 minutes into the clamp they consumed 75 g of oral glucose solution. Meal-stimulated insulin secretion was summarized as the mean plasma C-peptide from 90-270 minutes. This outcome measure was compared for each subject before treatment and after 2 months of insulin treatment to lower blood glucose. Subjects were started on 20 units of insulin glargine after their first visit and asked to measure their morning blood glucose daily. The dose of insulin was increased in increments of 4-6 units every 3 days targeting an average morning glucose level of less then 120 mg/dl. After 2 months of treatment the primary outcome was repeated with a second glucose clamp / oral glucose tolerance test, identical to the first.
Time frame: 180 minutes
Insulin Concentration in Response to a Glucose Clamp and Oral Glucose Ingestion Before and After 2 Months of Insulin Treatment to Improve Average Glycemia.
Subjects had glucose clamps for 270 minutes with serial sampling of blood for measurement of insulin and C-peptide. At 90 minutes into the clamp they consumed 75 g of oral glucose solution. Meal-stimulated insulin secretion was summarized as the mean plasma C-peptide from 90-270 minutes. This outcome measure was compared for each subject before treatment and after 2 months of insulin treatment to lower blood glucose. Subjects were started on 20 units of insulin glargine after their first visit and asked to measure their morning blood glucose daily. The dose of insulin was increased in increments of 4-6 units every 3 days targeting an average morning glucose level of less then 120 mg/dl. After 2 months of treatment the primary outcome was repeated with a second glucose clamp / oral glucose tolerance test, identical to the first.
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Study Type
INTERVENTIONAL
Allocation
NA
Purpose
TREATMENT
Masking
NONE
Enrollment
17
Time frame: 180 minutes
HbA1c Before and After 2 Months of Insulin Treatment to Improve Average Glycemia.
Type 2 diabetic subjects had HbA1c measured before and after 2 months of basal insulin glargine treatment.
Time frame: 2 months