View clinical trials related to Glucose Intolerance.
Filter by:Supplementation with citrus bioflavonoids (hesperidin, naringin, diosmin and eriocitrin, among others) has been associated with an improvement in the glycidic and lipid profile, reduction of insulin resistance and systemic inflammation, and reduction of endothelial damage. This study aims to evaluate the effects of eriocitrin supplementation on the metabolic parameters of pre-diabetic individuals. Participants will be adults with pre-diabetes who will receive 200 mg / d of eriocitrin. Before, during and after treatment, anthropometric measures (weight, body composition and circumferences), biochemical (lipid and glucose profile, inflammatory parameters, endothelial markers, liver function, renal function) will be evaluated. Metabolic parameters that constitute risk factors for diabetes and associated chronic diseases are expected to be improved by supplementation with eriocitrin.
Specific aims of the study are: 1. to evaluate whether a 24-h exposure to a 25%-carbohydrate diet will reduce postprandial glycemia to the same extent in the evening (19 h) as in the morning (7 h),. and 2. to determine whether one hour of post-meal moderate intensity exercise (at 50% of maximal effort) will further reduce postprandial glycemia. The outcome measures are: plasma concentrations of glucose, insulin, glucose-dependent-insulinotropic peptide (GIP), leptin, and the ketone body beta-hydroxybutyrate.
It is known that postprandial hyperglycemia increases the cardiometabolic risk in both diabetic and non-diabetic patients. Moreover, there is insufficient data on the effectiveness of exercise on preventing Type II diabetes mellitus in individuals with insulin resistance and prediabetes. This study aims to examine the effectiveness of resistance exercise in limiting postprandial hyperglycemia and the necessity of prescribing medication particularly in patients with beta-thalassemia and insulin resistance.
The study aims to investigate changes in blood glucose metabolism after administration of a ketone ester drink.
The majority of obese have non-alcoholic fatty liver disease (NALFD). Currently, no pharmacological agents are licenced for the prevention or treatment of NAFLD, and weight loss, notoriously difficult to obtain (and specially to maintain), remains the only treatment option. Interestingly, curcumin, a phenolic compound extracted from the turmeric root, has from in vitro and animal studies shown promising effects in preventing and treating NAFLD, and the sparse available human data point in the same direction; but solid human data are missing. This study will delineate the effects of curcumin when treating NAFLD in humans. The primary aim of this study is to investigate the effect of 6 weeks of curcumin on liver fat content (assessed by magnetic resonance spectroscopy (MRS)) in obese subject with NAFLD. Additionally, a range of secondary endpoints have been chosen in order to delineate the role of NAFLD in the newly discovered liver-alpha cell axis governing circulating levels of the glucose-mobilising pancreatic alpha cell hormone glucagon and, thus, to elucidate the link between liver fat content and the risk of developing reduced glucose tolerance and type 2 diabetes (T2D). Also, the anti-inflammatory effect of curcumin will be elucidated, as inflammatory markers will be measured before and after intervention. Furthermore, the effect of curcumin will be measured by measuring the following parameters before and after intervention: Transient elastography, anthropometric measurements, body weight, appetite, food-consumption, calory balance, resting energy expenditure, gut microbiota, bioimpedance measures, visceral- and subcutaneous fat, glucose tolerance, lipids, blood pressure, pulse, liver parameters (blood-tests) and adipokines. During the oral glucose tolerance test before and after intervention, incretin hormones, glucagon, amino acids, insulin, c-peptide and urea will be measured.
The aim of the present study is to investigate effects of 12 weeks time-restricted eating on behaviour and metabolism in individuals with overweight or obesity at high risk of type 2 diabetes.
This study evaluates the effect of bright light on postprandial blood glucose metabolism in obese subjects with impaired fasting glucose and/or impaired glucose tolerance.
The primary objective of STAR01 is to evaluate the performance and safety of the medical device (class IIb) SiPore15™ after a 12-week long treatment in the target population of obese and overweight subjects with prediabetes or newly diagnosed type 2 diabetes. The expected performance and safety of the device is based on the safety and efficacy results seen in an earlier First-in-Man (FIM) study. The safety and tolerability of SiPore15™ is based on the well-established and extensive use of food grade silicon dioxide and favorable data from the FIM study. Data on side-effects will be collected for verification of device safety. The study duration is 24 weeks in total, 12 weeks from baseline on investigational medicinal device (IMD) treatment, with additional 12 weeks off treatment. The study population is planned for forty (40) subjects to be enrolled, male and females, age >18 years and fulfilling all inclusion criteria but none of the exclusion criteria.
To measure and quantify the postprandial glucose variations in response to a meal in the healthy 6-12 months old child and correlate this response with the composition of this meal.
The objective of this study is to compare two metabolically distinct diets, WFKD vs Med-Plus, in order to examine the potential benefits, and unintended consequences, of going beyond a focus on maximally avoiding added sugars and refined grains, to also avoiding legumes, fruits, and whole grains.