View clinical trials related to Insulin Resistance.
Filter by:It is of major importance to refine prevention strategies in order to alleviate inflammation, insulin resistance and metabolic syndrome and it appear that improving gut health and microbiota represent a promising strategy. Cranberry-enriched diets may help prevent metabolic syndrome and its associated chronic diseases by a protective effect of gut health and microbiota. It is therefore highly relevant to test the hypothesis that a whole cranberry powder supplements (which include a mixture of polyphenols, free and fiber-associated proanthocyanidins, and fruits fibers) is associated with changes on the gut health and microbiota playing a major role in alleviating inflammation and obesity-associated metabolic disorders.
BACKGROUND: The influence of sleep extension on glucose homeostasis in adolescents at risk for type 2 diabetes is unknown. This issue is of high clinical relevance given the high prevalence of sleep deprivation in this population and the accumulating body of evidence indicating that having a good night's sleep is important for the prevention of chronic diseases including type 2 diabetes. OBJECTIVE: To determine if extending sleep duration improves insulin sensitivity in adolescents presenting with risk factors for type 2 diabetes. HYPOTHESIS: It was hypothesized that compared with decreasing sleep duration, increasing sleep duration by 1.5 hours over 1 week will improve insulin sensitivity. METHODS: Using a randomized, counterbalanced, 2-condition crossover design, 30 obese adolescents between 13 and 18 years of age who have insulin resistance will complete the study. Participants will sleep their typical amount at home for 1 week and will then be randomized to either increase or decrease their time in bed by 1.5 hours per night for 1 week, completing the alternate schedule on the fourth week (washout period of at least 1 week between sleep conditions). This procedure will result in a targeted 3-hour time in bed difference between conditions. Sleep will be objectively measured using actigraphy (Actiwatch) and sleep schedule adherence will be promoted by providing fixed bedtimes and wake times during the experimental weeks, and will be monitored through phone calls to the research center. Participants will also be compensated for keeping the sleep schedule and daily calls to enhance adherence. The outcome measures will then be compared between both sleep conditions at the end (on day 8 of each study week). The primary outcome measure will be insulin sensitivity as measured by the Matsuda index (total body insulin sensitivity). Secondary outcomes will include the homeostasis model assessment of insulin resistance (HOMA-IR), blood lipids, food intake and physical activity. Repeated measures analysis using the mixed model will be used to assess the effect of the two sleep interventions on insulin sensitivity. RELEVANCE: The study will provide the first robust clinical evidence to determine if increasing sleep duration in youth at risk for type 2 diabetes improves insulin sensitivity. This information will be essential for clinical and public health guidelines for type 2 diabetes prevention among adolescents.
The Offspring Born to Mothers with Polycystic Ovary Syndrome in Guangzhou Cohort study (PCOS-BIG) was established to investigate the short- and long-term effects of intrauterine exposure to maternal PCOS on the health of offspring in Guangzhou, China. Data are collected regarding maternal PCOS subtypes, nursing, diet and education as well as health outcomes in their later life. Biological samples including blood and tissue samples are also collected from participants.
To study whether a diet high in fiber from Konjac-mannan (KJM) has an effect on metabolic control in individuals with insulin resistance syndrome.
The present study will investigate the effect of acute exercise on fasting and postprandial risk markers for coronary heart disease (CHD) in healthy male cigarette smokers and non-smokers. Participants will complete two, 2-day trials in a random crossover design separated by an interval of at least 1 week. On day 1, participants will rest (control) or complete 60 minute of treadmill exercise at 60% of maximum oxygen uptake (exercise). On day 2, participants will rest and consume two high fat meals (breakfast and lunch) over an 8-h period during which 13 venous blood samples and nine blood pressure measurements will be taken at pre-determined intervals. It is hypothesised that men who smoke cigarettes will exhibit impaired fasting and postprandial metabolic risk markers compared to non-smokers, but a single bout of exercise will be equally, if not more, efficacious for improving the CHD risk factor profile in smokers than non-smokers.
This study evaluates the existence of a day-night rhythm in skeletal muscle energy metabolism in prediabetic 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.
Alzheimer's disease (AD) and other forms of dementia are rapidly increasing with the aging of the population, and show a clear preponderance among people with insulin resistance. Metformin, an insulin sensitizer, is being examined in clinical trials as an anti-aging drug. However, very little objective data is available regarding metformin's effect on the brain, a major organ affected by aging.
Overnutrition and physical inactivity promote the accumulation of sphingolipids such as ceramides which block insulin signaling and anabolic metabolism. Implementation of pharmacological or genetic interventions to reduce sphingolipid levels in rodents prevents or reverses an impressive array of metabolic pathologies (e.g. insulin resistance, diabetes, steatohepatitis, hypertension, cardiomyopathy, and atherosclerosis). To elucidate the tissue-specific mechanisms through which ceramides contribute to these diseases, mice have been produced to allow for the conditional, cell-type restricted ablation of enzymes required for ceramide biosynthesis or degradation (i.e. serine palmitoyltransferase and dihydroceramide desaturases-1) or degradation (i.e. acid ceramidase). Aims of the project include the following: To use these novel mouse models to evaluate the effect of muscle-specific ceramide depletion or induction on insulin sensitivity, muscle growth, and genomic/proteomic signatures under conditions of overnutrition and inactivity. To apply a ceramide flux assay in isolated human myotubes to identify the regulatory mechanisms that influence rates of ceramide biosynthesis; and, To determine the efficacy of a new class of inhibitors of dihydroceramide desaturases-1, our preferred target in the ceramide synthesis pathway, as therapeutics that improve muscle insulin sensitivity and prevent muscle loss in rodents. Findings obtained from these studies could uncover new nutrient-sensing machinery that modulates insulin sensitivity and muscle growth. Moreover, the translational component could lead to new pharmacological approaches for improving muscle health.
Obesity and insulin resistance are worldwide epidemic and taking a major public health toll. Obesity also increases the risk for cognitive impairment which is also an increasing medical, societal, and economic challenge. The ultimate goal of this proposal is to develop a statistical model to assess systemic cross-talk between brain, peripheral tissues, gut microbiota and glucose metabolism. Integrated with exercise training intervention the results will be utilized to provide disease risk profiling and personalized predictions of exercise training as a drug free treatment for insulin resistance and type 2 diabetes.
To examine the differential effect of camel and cow milk on the physiological response, to a liquid mixed-meal challenge, in people with normal glucose tolerance