Y. D. I. Chen scite author profile

Plasma glucose and insulin concentration following a 75 g oral glucose challenge and glucose uptake during a hyperinsulinaemic glucose clamp study were determined in 50 non-obese individuals. The study population was divided into five groups on the basis of their glucose tolerance: normal, impaired glucose tolerance, Type 2 (non-insulin-dependent) diabetes mellitus with fasting plasma glucose of less than 8 mmol/l, between 8-15 mmol/l, and more than 15 mmol/l. The plasma insulin response was significantly greater (p less than 0.001) than normal in those with either impaired glucose tolerance or Type 2 diabetes and a fasting plasma glucose concentration less than 8 mmol/l.(ABSTRACT TRUNCATED AT 250 WORDS)

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Evidence that insulin can directly inhibit hepatic glucose production

Maheux

Chen

Polonsky

et al. 1997

Diabetologia

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SummaryIn order to evaluate the role of portal insulin in the modulation of hepatic glucose production (HGP), measurements of plasma glucose and insulin concentrations and both HGP and peripheral glucose disappearance rates were made following an infusion of a dose of tolbutamide (0.74 mgm -2. min -1) in healthy volunteers that does not result in an increase in peripheral vein insulin concentrations or metabolic clearance rate of glucose. The results showed that the infusion of such a dose of tolbutamide was associated with a significant and rapid decline in both HGP (from 9.0 + 0.5 to 7.7 + 0.5~tmol.kg -1.min -1 or A= -13.8+4.5%; p< 0.001 compared to saline) and plasma glucose concentration (from 5.1+ 0.2 to 4.4+ 0.1mmol/l or A = -13.0 + 2.1%; p < 0.01 compared to saline). Since neither HGP nor fasting glucose fell when tolbutamide-stimulated insulin secretion was inhibited by the concurrent administration of somatostatin, it indicated that tolbutamide by itself, does not directly inhibit HGP. Finally, HGP fell by 26.3 + 6.0 % at 10 min after a dose of tolbutamide that elevated both peripheral and portal insulin concentrations, at a time when HGP had barely increased (A = + 6.9 + 5.3 %). The difference in the magnitude of the two responses was statistically significant (p < 0.03), providing further support for the view that insulin can directly inhibit HGP, independent of any change in flow of substrates from periphery to liver. [Diabetologia (1997[Diabetologia ( ) 40: 1300[Diabetologia ( -1306 Keywotds Liver, insulin, portal system, C-peptide, tolbutamide.Evidence has been published showing that hepatic glucose production (HGP) is decreased following the infusion of either insulin or sulfonylurea compounds [1][2][3][4], and this is generally assumed to be due to a direct effect of insulin on the liver. However, the results of two recent studies in dogs [5,6] of insulin, suggesting that the ability of insulin to inhibit HGP may be mediated through its peripheral action on substrate flow to the liver. Although we think it reasonable that insulin can inhibit HGP by decreasing substrate flow to the liver, the experiments to be presented were initiated to see whether insulin can also inhibit HGP directly. In order to accomplish this task non-invasively, we measured HGP, in normal subjects, in response to a continuous infusion of tolbutamide that would not significantly increase peripheral insulin concentrations and compared it to a saline) infusion. Under these conditions, HGP should have been similar in both studies if HGP was only modulated by the peripheral inhibition of substrate flow. Since HGP was significantly lower following tolbutamide, the data are consistent with the hypothesis that insulin can directly inhibit HGE

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Effect of glipizide treatment on postprandial lipaemia in patients with NIDDM

et al. 1994

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The primary goal of the present study was to examine the effects of improved glycaemic control associated with glipizide treatment on postprandial lipaemia in non-insulin-dependent diabetic patients. The metabolism of triglyceride-rich lipoproteins of intestinal origin was assessed by measuring the retinyl palmitate content in plasma and the Svedberg flotation index (Sf) > 400 and Sf 20-400 lipoprotein fractions. Fasting plasma glucose concentrations (14.5 +/- 0.5 vs 9.0 +/- 0.5 mmol/l), glycated haemoglobin levels (13.1 +/- 0.6 vs. 9.7 +/- 0.6%), and daylong plasma glucose concentrations were all significantly lower after glipizide treatment (p < 0.001). The improvement in glycaemic control was associated with increases in insulin-mediated glucose uptake (p < 0.001) and plasma post-heparin lipoprotein and hepatic lipolytic activities (p < 0.02). Both fasting plasma triglyceride (3.09 +/- 0.51 vs 2.37 +/- 0.34 mmol/l), and postprandial triglyceride concentrations (p < 0.05-0.001) were lower following glipizide treatment, associated with a significant fall in retinyl palmitate content in all three lipoprotein fractions (p < 0.02-0.001), with the most substantial decrease seen in the Sf20-400 fraction. These data indicate that glipizide-induced improvement in glycaemic control was associated with changes in the metabolism of triglyceride-rich lipoproteins of intestinal origin that would be anticipated to reduce risk of coronary heart disease in non-insulin-dependent diabetic patients.

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Y. D. I. Chen

Relationship between glucose tolerance, insulin secretion, and insulin action in non-obese individuals with varying degrees of glucose tolerance

Evidence that insulin can directly inhibit hepatic glucose production

Effect of glipizide treatment on postprandial lipaemia in patients with NIDDM

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