View clinical trials related to Glucose Intolerance.
Filter by:This study is designed to test whether non-persistent environmental chemicals (PECs) are elevated in people with glucose dysregulation. The primary aim is to measure whether this toxicant burden can be reduced using a dietary and lifestyle modification intervention. The secondary aim is to observe any changes in glucose response pre and post-intervention.
Physical inactivity is known to increase post meal blood sugar levels in young, active populations. However, how quickly this may occur in active, older adults is not clear. Further, the relationship between blood vessel health and blood sugar disturbances which occur to acute physical inactivity is not clear. It is unknown if impairments in blood vessel function precede increases in blood sugar levels that occurs with inactivity in an aging population. This study aims to determine if short term reductions in physical activity impair blood vessel health and blood glucose control to a greater extent in an aging population compared to a young population. The investigators hypothesize that 3 days of reduced physical activity will result in impaired blood vessel function and glycemic control in an aged population.
The purpose of this research is to understand the impact of medically tailored meals on health-related biometrics (e.g., glucose time-in-range, waist-hip ratio, cholesterol) and how providing medically tailored meals promotes engagement in diabetes education and drives information-seeking behavior.
The aim of this study is to evaluate whether there is a change in GDF-15 levels in individuals with prediabetes at the 2nd hour after the first exercise and after a 12-week exercise program with guide-based exercise programs.
Significant weight reduction, achieved by low-calorie diet (LCD), will mobilise ectopic fat (visceral and particularly liver fat), improving insulin sensitivity and other metabolic syndrome components, with secondary beneficial effects on cardiac structure and function. This CALIBRATE study (metabolic, multi-organ and effects of low-calorie diet in younger obese patients with pre-diabetes) will compare the effects of a safe and effective 12-month weight management intervention, initially using a low-calorie, liquid replacement diet for 12 weeks, anticipating at least 10% reduction in body weight. The investigators will examine how much the weight loss improves the metabolic abnormalities that precede type 2 diabetes (T2D), and in reversing the pre-clinical/subtle clinical abnormalities of the liver and heart that precede liver and cardiovascular disease (CVD). This study will compare the effects of a safe and effective 12-month weight management intervention, initially using a low-calorie, liquid replacement diet for 12 weeks, followed by a weight maintenance phase. The investigators will examine how much the weight loss improves the metabolic and neuropathic abnormalities that precede and accompany type 2 diabetes (T2D), and in reversing the pre-clinical/subtle clinical abnormalities of the liver and heart that precede liver and cardiovascular disease. In an additional optional sub-study, the investigators will additionally assess how the weight loss impacts upon appetite regulation within the brain with functional MRI (fMRI).
In this study 11 healthy volunteers will perform high intensity exercise training during 4 weeks. The exercise frequency will increase progressively during the first three weeks, followed by a fourth week with lower exercise frequency. 5 skeletal muscle biopsies will be donated throughout the study and 4 oral glucose tolerance tests will be performed after each training period.
This is a pilot study to compare cognitive performance in two groups of subjects with multiple sclerosis; those with normal glucose tolerance and those with impaired glucose tolerance. The study consists of a 2 hour oral glucose tolerance test, patient reported outcomes, a series of cognitive functioning tests, and outpatient physical assessment using a pedometer.
This 16-week study will use an experimental approach called the Sequential Multiple Assignment Randomized Trial to help determine which combination and sequence of weight loss program features are most effective in people who are at risk for type 2 diabetes. Participants in the study will be initially randomized to consume either a high or reduced carbohydrate diet. After 4 weeks, participants will be identified as Responders (greater than or equal to 2.5% weight loss) or Non-Responders (less than 2.5% weight loss). Responders will continue with their initial randomized group for the remainder of the trial. Non-responders will be re-randomized to 2nd stage interventions of either including additional exercise counseling and training or beginning a time restricted eating protocol for the remainder of the trial.
The purpose of this study is to determine whether advancing the timing of home parenteral nutrition from overnight to daytime regimens leads to improved glucose profiles and sleep quality, and other changes in plasma metabolic signatures.
The purpose of this study is to determine whether modifying the timing of nutrition support from overnight to daytime enhances sleep quality, preserves circadian rhythms, and improves overall inflammation and cardiometabolic profiles in postoperative patients in the cardiac surgical ICU on enteral nutrition.