View clinical trials related to Insulin Sensitivity.
Filter by:The study will investigate myocellular signalling in skeletal muscle after insulin-stimulation and exercise in healthy young men
The purpose of this study is to assess the early longitudinal metabolic effects including insulin sensitivity in HIV-exposed uninfected (HEU) children compared to HIV-unexposed uninfected (HUU) children; as well as to determine differences in the effects of neonatal zidovudine (AZT) vs. nevirapine (NVP) prophylaxis on early longitudinal changes in insulin sensitivity in the first 3 years of life.
50-70% of adolescents gain too much weight during pregnancy, and this excess gain significantly increases their risk of high postpartum weight retention and long-term obesity. In this randomized controlled pilot study, the investigators are evaluating the feasibility and acceptability of a relatively brief interpersonal psychotherapy program for reducing excess gestational weight gain during adolescent pregnancy. Compared to treatment-as-usual prenatal care delivered in an adolescent maternity clinic, the investigators will estimate the added benefit of an interpersonal psychotherapy program's effectiveness for reducing excess gestational weight gain, improving maternal postpartum insulin sensitivity, and decreasing maternal and infant adiposity.
This research study will examine how ethnic/racial background, body composition (%body fat), and the location of body fat affect the ability of the hormone insulin to promote uptake of blood sugar in persons who are 19 to 45 years of age. When insulin is ineffective in promoting blood sugar uptake, this condition is termed "insulin resistance." Insulin resistance plays a major role in the development of chronic metabolic diseases (such as type 2 diabetes, cardiovascular disease, and cancer), many of which differ with race. Previous studies suggest that insulin resistance is higher in African-Americans (AA) vs. European-Americans (EA). However, results from these studies remain unclear due to different testing measures used for insulin resistance as well as differences in body fat between individuals. Results from this research study may help explain why insulin resistance differs with genetic background and may guide development of personalized treatment strategies with implications for several chronic metabolic diseases (e.g., type 2 diabetes, cardiovascular disease, and cancer).
Participants will be randomly allocated to either Yakult ingestion or a control group. For the first 20 days, subjects will consume their normal diet (keeping a detailed food diary throughout). On days 21-28 they will switch to a high-fat/high-calorie diet. The investigators hypothesise that consuming a high-fat, high-energy diet for 7 days will alter the composition of the gut microbiota and induce metabolic endotoxaemia / systemic inflammation as well as decreasing whole body insulin sensitivity (as we have shown previously). In contrast, the investigators hypothesise that consuming Yakult for 21 days before and 7 days throughout the high-fat diet will maintain a favourable gut microbiota and prevent metabolic endotoxaemia / systemic inflammation and thus maintain insulin action / insulin sensitivity.
Investigators will test the hypothesis that chronic restoration of vagal nerve activity with a central acetylcholinesterase inhibitor improves insulin sensitivity and reduces adipose tissue oxidation in obese African American Women compared to white women.
This study aims to show whether the hyperglycaemic phases following a treatment with glucocorticoids, as well as blood measurements correlated to high blood glucose levels and insulin resistance, vary significantly between patients with and without gestational diabetes mellitus.
Despite exercise training decrease blood fasting glycemia in 'average' terms, there is a wide interindividual variability after exercise training explored mainly in adults but not in children. Thus, is yet unknown what baseline health status as well as the influence of what health variable may produce more/less non-responder (NR) prevalence (i.e., percentage of subjects who experienced a non-change/worsened response after training in some metabolic outcomes) after exercise training in school children.
In this explorative randomized clinical study, the investigators aim to study metabolic, cellular, and molecular changes that occur during weight loss in obese subjects with and without type 2 diabetes. Using novel "imiomics" (imaging technique using PET/MR bioinformatics) analyses to examine possible metabolic differences between energy restricted diet and gastric by-pass surgery on whole-body and tissue specific insulin sensitivity, glucose tolerance, metabolite and protein profiles, fatty acid metabolism, ectopic fat content, and gene expression in adipose tissue. This study aims to identify novel biomarkers and drug targets for type 2 diabetes as well as validate promising and established biomarkers in an interventional model for improved glucose metabolism.
Obesity is associated with a decrease in skeletal muscle insulin sensitivity. Aerobic exercise can increase insulin sensitivity in the few hours following exercise, however the cellular mechanisms are not completely understood. The current project is to investigate mechanisms of exercise improvements to skeletal muscle insulin sensitivity.