View clinical trials related to Insulin Resistance.
Filter by:Low birth weight (LBW), a marker of impaired fetal growth is an independent and strong risk factor for type 2 diabetes (T2D). A western lifestyle characterized by a surplus of calories, and/or a low physical activity level, associated with increased fat storage and altered lipid metabolism plays a central role in the pathogenesis of insulin resistance and T2D. Using state-of-the-art large-scale integrative physiology studies combined with basic studies of adipose and muscle tissue stem cell functions, the investigators aim to determine if LBW individuals exhibit decreased subcutaneous adipose tissue expandability, postprandial hyperlipidaemia and ectopic fat accumulation when exposed to 4 weeks of carbohydrate overfeeding. The investigators will subsequently examine if exercise training can revert and/or minimize the deleterious effects of carbohydrate overfeeding in a possibly birth weight differential manner.
In this study, the researchers hope to learn about SGLT2 inhibition on EGP (endogenous glucose production) and plasma glucose concentration in diabetic subjects. Researchers will examine diabetes and the role of increased plasma glucagon, decline in plasma insulin, and fall in plasma glucose concentration.
The pathophysiological mechanisms explaining the association between psoriasis and type 2 diabetes are largely unknown but it has been hypothesized that systemic inflammation found in both psoriasis and type 2 diabetes might play a role. In a recent study hyperinsulinaemic euglycaemic clamps were performed and it showed that normal glucose-tolerant patients with moderate to severe psoriasis had lower whole-body insulin sensitivity during insulin stimulation compared to healthy matched controls. Thus, the increased risk of type 2 diabetes in patients with psoriasis appears to include defects in the glucose metabolism linked to psoriasis itself. However, the methods applied did not allow a detailed characterization of the metabolism in patients with psoriasis. Tracer technique combined with indirect calorimetry has never been applied to study hepatic and whole body insulin sensitivity, and glucose and fat oxidation, during basal conditions or during insulin stimulation in patients with psoriasis. Aim of study: The aim of this study is to investigate hepatic and whole body insulin sensitivity and glucose and fat oxidation during both basal and insulin-stimulated conditions in patients with psoriasis.
Insulin promotes the clearance of sugars from the blood into skeletal muscle and fat cells for use as energy; it also promotes storage of excess nutrients as fat. Type 2 diabetes occurs when the cells of the body become resistant to the effects of insulin, and this causes high blood sugar and contributes to a build-up of fat in muscle, pancreas, liver, and the heart. Understanding how insulin resistance occurs will pave the way for new therapies aimed at preventing and treating type 2 diabetes. Mitochondria are cellular structures that are responsible for turning nutrients from food, into the energy that our cells run on. As a result, mitochondria are known as "the powerhouse of the cell." Mitochondria are dynamic organelles that can move within a cell to the areas where they are needed, and can fuse together to form large, string-like, tubular networks or divide into small spherical structures. The name of this process is "mitochondrial dynamics" and the process keeps the cells healthy. However, when more food is consumed compared to the amount of energy burned, mitochondria may become overloaded and dysfunctional resulting in a leak of partially metabolized nutrients that can interfere with the ability of insulin to communicate within the cell. This may be a way for the cells to prevent further uptake of nutrients until the current supply has been exhausted. However, long term overload of the mitochondria may cause blood sugar levels to rise and lead to the development of type 2 diabetes. This study will provide information about the relationship between mitochondrial dynamics, insulin resistance and type 2 diabetes.
The purpose of this research is to examine changes in blood glucose control and metabolism in individuals with SCI and non injured controls at rest and during exercise after five days of exposure to IH. This response will be compared with breathing normal room air (a SHAM control).
The purpose of this study is to determine the key factors influencing insulin sensitivity in type 1 diabetes (T1DM) and maturity onset diabetes of the young, type 2 (MODY2). Our study tests the hypothesis that decreased insulin sensitivity is primarily driven by chronically elevated insulin levels in the blood rather than chronic elevations in blood sugar.
More and more people in Canada and around the world are severely (morbidly) obese, and this is associated with a high risk for poor blood sugar control (insulin resistance, IR) and diabetes. Weight loss is often very hard to achieve for morbidly obese patients. Bariatric surgery is a very effective treatment, but it has some risks and is not available to all patients. Therefore, alternative treatments are needed. The gut bacteria (intestinal microbiome) might play a role for the development of obesity and IR. Several studies in animals have shown that transferring stool from lean mice or humans into obese animals could lead to weight loss and improve IR. One human study has confirmed this. The investigators are therefore examining, whether transfer of stool from healthy lean people into morbidly obese patients with IR will improve blood sugar control, weight, and other obesity related parameters. This will be done in a randomized controlled trial. Effects on mental health and the bacterial in the mouth related to gum disease will also be assessed. If successful, fecal transfer could be a new alternative treatment approach for morbidly obese patients or those with IR who do not have access to or do not want to undergo bariatric surgery.
This study will investigate the in-depth the benefits of dairy consumption on glucose metabolism in patients at risk of type 2 diabetes using novel genomics methodology.To do so, 33 individuals at risk of type 2 diabetes will be randomly subjected to an intervention study including a 6-week intensive dairy product consumption period and a 6-week dietary counselling period.
Animal studies have found that vitamin K-dependent proteins matrix Gla protein and osteocalcin beneficially influence lipid and glucose metabolism, respectively. However, this concept has not been tested in humans at risk for dyslipidemia and diabetes risk. Vitamin K supplementation presents an opportunity to test the hypothesized link between the vitamin K-dependent proteins and markers of lipid and glucose metabolism. The investigators will conduct an 8-week vitamin K intervention (to manipulate carboxylation of matrix Gla protein and osteocalcin) and determine its effects on markers of dyslipidemia and diabetes risk. Sixty obese children will be randomly allocated to either the control group receiving placebo or the low-dose (45 mcg/d) or high-dose group (90 mcg/d) receiving vitamin K (menaquinone-7).
A growing body of evidence demonstrates that increased adipose mass, especially visceral adipose tissue, contributes directly towards an increase in systemic inflammation, (micro-)vascular dysfunction and the burden of cardiovascular disease (CVD), insulin resistance and type 2 diabetes. Advanced glycation/lipoxidation endproducts (AGEs/ALEs) are a heterogeneous family of unavoidable by-products, which are formed by reactive metabolic intermediates derived from glucose and lipid oxidation. In addition to the overwhelming amount of data demonstrating the role of AGEs/ALEs in the development of (micro-)vascular dysfunction and disease, accumulation of AGEs/ALEs in the expanding adipose tissue contributes to the dysregulation of adipokines and the development of insulin resistance. The investigators want to examine, in a double-blind randomized placebo controlled parallel study, the physiological effect of a dietary intervention with pyridoxamine in abdominally obese persons. A sub-study is implemented next to the clinical trial. The objective of the sub-study is to measure the metabolization and kinetics of pyridoxamine in plasma and urine with UPLC-MS/MS. The sub-study comprises of 5 additional healthy volunteers, with pyridoxamine as an oral supplement.