View clinical trials related to Hyperglycemia.
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Physical activity helps maintain optimal postprandial blood glucose control. However, there is a lack of clear information regarding the optimal meal-activity timing required to maximize blood glucose control. By using continuous glucose monitoring (CGM), this randomized controlled trial will determine whether implementing a bout of physical activity immediately before, or immediately after, or shortly after a meal is most optimal. This study will also independently examine the effects of three different physical activities: walking, standing, and circuit-exercises. Minimizing the changes in blood glucose following a meal not only reduces the risk of type 2 diabetes but also reduces cardiovascular-related mortality. Therefore, the data produced by this project will have very important implications for informing healthcare policy and physical activity recommendations.
Non-caloric sweeteners are common food supplements consumed by millions worldwide as means of combating weight gain and diabetes, by retaining sweet taste without increasing caloric intake. While they are considered safe, there is increasing debate regarding their potential role in contributing to metabolic derangements in some humans. The investigators recently demonstrated that non-caloric sweeteners consumption could induce glucose intolerance in mice and, in preliminary experiments, in distinct human subsets, by functionally altering the gut microbiome, and that the gut microbiome plays an important role in mediating differential glucose responses to identical foods. The proportion of the human population that is susceptible to glucose intolerance induced by non-caloric sweeteners, the common factors that are shared between these individuals and whether and how the microbiome promotes the metabolic derangements remain to be addressed.
A double-blind and placebo-controlled study was conducted in current human study. The purpose of this study is to investigate the effects of n-3 PUFA intervention on glucose and lipid homeostasis in Chinese diabetic/obese patients.
The purpose of the study is to evaluate the effect of cold exposure on an individual's glucose tolerance. Previous research has already shown that 10 days acclimation to a mild cold environment (14-15°C) can enhance insulin sensitivity. However, the duration in the cold environment was 6 hours per day which may not be practical for everyone. Therefore, the present study will investigate the effect of a shorter, and more intense cold exposure on an individual's glucose tolerance. It is hypothesised that cold exposure before consuming a glucose drink will enhance glucose clearance.
Individuals eating identical meals present high variability in post-meal blood glucose response making comparisons challenging. This study evaluates in 40 healthy and fasted participants whether the postprandial glucose response upon a standardized breakfast is dependent on gut microbial richness. Gastric emptying rate, intestinal transit time, insulin, appetite hormones and measures of the intestinal microbiome and fermentation will also be analyzed in the context of postprandial glucose metabolism.
The proposed randomized controlled trial will test the effect of a low-carbohydrate diet on hemoglobin A1c among individuals with elevated hemoglobin A1c that are within the range of prediabetes or diabetes. Results may provide evidence about the role of carbohydrate restriction in individuals with or at high risk of type 2 diabetes.
Critically ill patients usually develop hyperglycemia, which is associated with an increased risk of morbidity and mortality. Controversy exists on whether targeting normal blood glucose concentrations with insulin therapy, referred to as tight blood glucose control (TGC) improves outcome of these patients, as compared to tolerating hyperglycemia. It remains unknown whether TGC, when applied with optimal tools to avoid hypoglycemia, is beneficial in a context of withholding early parenteral nutrition. The TGC-fast study hypothesizes that TGC is beneficial in adult critically ill patients not receiving early parenteral nutrition, as compared to tolerating hyperglycemia.
Participants will receive prednisone 40 mg for 3 days. 75 g oral glucose tolerance test (OGTT), insulin and C-peptide will be measured on day 1 (before prednisone) and day 3 (after prednisone). Also capillary glucose values will be obtained during and after the period of prednisone intake.
The main purpose of this study is to determine if exercise preserves vascular function during hyperglycemia. All subjects will consume a sugary beverage three times daily for seven days. Subjects will be randomly assigned to either the glucose with (GLU+EX) or without (GLU) structured exercise group.