Active clinical trials for "Insulin Resistance"

This study investigates weather a family history of type 2 diabetes affects exercise induced improvements in insulin sensitivity in the hispanic population

The study team will investigate the racial differences in the metabolic and clinical responses to Medium chain triglycerides (MCT) between African American and Caucasian American subjects.

This study will evaluate the effect of circadian misalignment on insulin sensitivity in healthy lean subjects in a randomized cross-over design. Subjects will be admitted to the research facility for two study periods of 3 and 3.5 days. In one of the study periods, the behavioral cycle will be shifted by 12 hours. Insulin sensitivity will be measured with a hyperinsulinemic euglycemic clamp.

The present study will investigate the effect of high-fat overfeeding on a group of liver-secreted proteins linked to worsened blood sugar control, as well as proteins involved in appetite control. Participants will consume both a high-fat diet, consisting of 50% extra calories above their daily required intake, and a control diet, consisting of their normal 'habitual' diet, with each diet lasting seven days. The diets will be undertaken in a randomised order, with a period of three weeks separating the two diets. Blood samples will be taken before and after each diet to measure blood sugar control. Further blood samples will also be taken 24 hours and 72 hours into each diet to see how levels of the liver and appetite-regulating proteins change over the course of the seven days. It is expected that blood sugar control will be worsened by the high-fat diet and this will be accompanied by increases in levels of the liver-secreted proteins and an impaired release of the appetite-regulating proteins into the blood.

This study aims to ascertain the potential of novel milk derived hydrolysates to improve glycaemic control to promote metabolic health. A comprehensive characterisation of the metabolic response to these milk derived hydrolysates will ascertain the effect of the hydrolysates in terms of insulin sensitivity. These hydrolysates have been shown to improve insulin resistance in cell and animal models. Therefore the investigators aim is to test their efficacy in overweight, insulin resistant individuals at risk of developing type 2 diabetes.

The goal of this clinical trial is to evaluate the effects of consuming 1.5 oz almonds twice daily on insulin sensitivity and markers of cardiometabolic health in men and women with prediabetes.

This proposal will test the hypothesis that chronic treatment with sildenafil with and without the use of nitric oxide substrate, L-arginine, protects against fatty acid induced impairment of endothelial function, improves insulin-stimulated microvascular recruitment, insulin sensitivity and glucose uptake in CD36 rs3211938 G-allele carriers.

Physical inactivity results in reductions in glucose tolerance and less sensitivity to insulin. If this inactivity lasts long enough it can result in insulin resistance and type 2 diabetes. A high protein diet can reduce elevated glucose levels in individuals with type 2 diabetes. Thus the investigators are interested in establishing if during a period of inactivity if a diet modification can minimize the glucose changes normally observed with inactivity. The objective of this project is to determine if short-term high protein (HP) feeding protects against the changes in glucose levels normally observed with physical inactivity. The investigators will also examine measures of blood vessel function, blood lipid and blood pressure. Twelve subjects will complete two 10 day study periods of reduced physical activity and will be studied before and after each of these study periods. For their testing subjects will have the following measurements: postprandial glucose responses to a mixed meal, 24 h free living blood pressure control during acute physical inactivity, blood lipids, changes in body composition, changes in circadian rhythm using skin temperature (ibutton), measurement of aerobic capacity (VO2 max), blood vessel responsiveness (flow mediated dilation -FMD) and changes in free living glucose levels (continuous glucose monitoring system (CGMS). Subjects will complete two conditions (high protein -HP vs normal protein - NP diets) in a randomized cross-over design. In the inactive phase subjects will reduce there steps to <5,000 steps/d while consuming either a HP or NP diet. Completion of the study will take 8-10 weeks.

Based on our hypothesis that orally administered GOS will be fermented into a SCFA pattern high in acetate and that this will lead to beneficial effects on human substrate and energy metabolism, we aim to address the following primary objective: To investigate the effects of a 12-week supplementation of GOS on peripheral insulin sensitivity and body weight control in obese adults with impaired glucose homeostasis.

This study evaluates the existence of a day-night rhythm in skeletal muscle energy metabolism in healthy lean subjects. Subjects will stay at the research facility for 44 hours with a standardized living protocol during which several measurements of skeletal muscle and whole body energy metabolism will be performed.