View clinical trials related to Insulin Resistance.
Filter by:This study will investigate the relationship between resistance training load and repetitions on cardiometabolic outcomes. The primary objective of this clinical trial is to determine whether high load or low load resistance exercise training affects arterial stiffness in overweight or obese men and women. Our secondary objectives are to investigate the effects of high and low load RT on vascular function, cardiac structure, and markers of insulin sensitivity. Finally, we are going to preliminarily explore the effects of resistance training on intestinal bacteria.
The investigators want to learn more about obesity, the development of insulin resistance, and Type 2 Diabetes in children. The investigators will do this through collecting information about children's health and conducting experiments on a variety of samples.
The purpose of this study is to better understand the contribution of sympathetic vasoconstriction to impaired insulin-mediated vasodilation and subsequently insulin-mediated glucose uptake. The investigators will test the hypothesis that removal of sympathetic vasoconstriction can result in improvement in insulin-mediated vasodilation and subsequently sensitivity to insulin-mediated glucose uptake.
Accumulation of intramyocellular lipids (IMCLs) due to increased supply of fatty acids can induce defects in the insulin signaling cascade, causing skeletal muscle insulin resistance. However, the causes for muscle insulin resistance are not well understood. The association of elevated IMCLs and insulin resistance has been shown in obese humans and individuals with type 2 diabetes as well as several animal models of insulin resistance. Despite the strong relationship between IMCLs and insulin resistance, this suggested relationship disappears when well-trained endurance athletes are included into this consideration as this group is highly insulin sensitive. This metabolic enigma has been termed the 'athlete's paradox'. The aim of this project is to resolve the mechanisms contributing to the athlete's paradox.
A Phase III, single-centre, randomized, 2-arm, parallel-group, double blind, placebo-controlled study, consisting of a screening phase (Days -14 to -1), a 4-week double-blind, placebo-controlled treatment phase and a 4-week follow-up phase. Subjects: Type 2 diabetic patients and coronary artery diseases (CAD) not requiring revascularization or underwent percutaneous coronary intervention (PCI) but clinically stable at time of screening visit, with suboptimal glycaemic control (HbA1c 7.0-8.5%) on their current anti-hyperglycaemic regimen Subjects will be randomized in a 1:1 ratio to dapagliflozin or placebo. Subjects will undergo screening assessment in the 14-day period preceding administration of the first dose of study drug on Day 1. The primary Objective is to assess the effect of dapagliflozin on myocardial insulin sensitivity The Secondary Objective is to assess global heart function, and metabolic systemic effects of dapagliflozin, and glycemic control. The study aims to enroll patients with type 2 diabetes with suboptimal glycemic control, and with coronary artery diseases (CAD) not requiring revascularization or underwent percutaneous coronary intervention (PCI) but clinically stable, who have already undergone, under routine cardiological assessment, a positron emission tomography (PET) 13NH3 scan in order to assess the cardiovascular function. Thus, the study aims to assess whether the improvement in cardiac metabolism obtained with dapagliflozin is greater than that obtained with normal clinical practice (according to Standards of Care).
Aim of the study is to investigate genes regulating glucose and lipid metabolism in subjects whose glucose metabolism, lipid metabolism, blood flow, or body fat distribution has been measured using positron emission tomography (PET), magnetic resonance imaging (MRI), magnetic resonance spectroscopy (MRS) or computed tomography (CT) as part of their previous participation in clinical trials conducted at Turku PET Centre. By combining information from PET, MRI, CT, proteomics, metabolomics and genetics analyses we aim to find connection between genetic variation and metabolic and cardiovascular disease.
The aim of the study is to describe an immune activation profile of people at risk of insulin resistance based on a wide range of markers which will allow easy identification of patients at risk.
It is well known that the Type 2 diabetes and vascular disease are preceded by over ten years by metabolic dysfunction and anatomic changes that can be quantified. In order to develop effective preventive strategies and reduce the cost burden to the health care system, recognition of the earliest pathophysiology of Type 2 diabetes and vascular disease is clinically relevant. The interval retrospective evaluation of data from patient records, reflect the effectiveness of the various treatments implemented in clinical practice. Prevalence of "prediabetes" among American adults is estimated to be ~84 million, or one out of three Americans. Over a 5-7 year period approximately one third of these prediabetic individuals will progress to type 2 diabetes. Prediabetes is a heterogenous group comprised of individuals with impaired fasting glucose (IFG), impaired glucose tolerance (IGT), and increased A1c (5.7-6.4%). Although different pathophysiologies are present in individuals with IFG and IGT, their conversion rate to overt type 2 diabetes mellitus (T2DM) is similar. Insulin resistance is a common causal feature of many of the pathophysiologic mechanisms linking macrovascular disease and type 2 diabetes. Because hyperglycemia is the major factor responsible for the development of microvascular complications, it logically follows that prevention of progression of prediabetes to overt diabetes should retard/prevent the development of the microvascular complications. From the measurement of plasma glucose, insulin, and c-peptide levels during the oral glucose tolerance test, one can derive measures of the two core defects responsible for the development of T2DM, i.e. insulin resistance and beta cell dysfunction as well as the degree of dysglycemia. By combining a standard medical evaluation with the evaluation of cardiovascular biomarkers, patients at intermediate risk of vascular disease can be identified. In these patients, carotid intima media thickness (IMT) and carotid plaque evaluation is offered to attempt to clarify risk. The hypothesis of this observational study is that the characterization of the physiology and anatomy of patients at risk of developing type 2 diabetes and/or cardiovascular disease can stratify risk of developing disease and direct treatment strategies tailored to the identified physiologic defect, leading to improvements in the delay or prevention of disease.
This is a family based genotype-phenotype study designed to assess genetic and environmental influences on obesity, insulin resistance and beta cell function in the context of gestational diabetes.
The purpose of this randomized study is to assess the efficacy of a mobile application for the improvement of blood pressure and insulin resistance in people with metabolic abnormalities.