View clinical trials related to Glucose Intolerance.
Filter by:The goal of this study is to learn about how a naturally occurring hormone called kisspeptin affects blood sugar and insulin levels.
The Bio-bank and Registry for StratIfication and Targeted intErventions in the Spectrum Of Type 2 Diabetes (BRITE-SPOT) has been set up to prospectively collect clinical data and biologically relevant samples from individuals with, and at risk for type 2 diabetes (T2D), with the aim of delineating factors related to susceptibility, progression, complications and response to treatment. Expanded from BRITE-SPOT, Assessing the Progression to Type - 2 Diabetes (APT-2D) is a prospective cohort with a focus on non-diabetics (normoglycemic or prediabetic), to expand the sample size and depth of metabolic phenotyping in these upstream groups, with the more targeted aim of delineating factors related to insulin sensitivity versus secretion, that relate to progression to T2D.
To compare four weeks of transcranial direct current stimulation (tDCS) versus placebo associated with a reduced caloric diet on weight loss, glycemic control and regulators of hunger and satiety in overweight or obese subjects with different degrees of glucose tolerance, submitted to hypocaloric diet.
Association between serum anti-Mullerian hormone (AMH) level and prevalence of glucose intolerance and metabolic syndrome in women with polycystic ovary syndrome (PCOS)
A self administered 16 weeks plus follow up study to explore the efficacy of mobile phone driven apps for stress reduction coupled with guidance for healthy living among obese and overweight populations. The Study primary end points are weight of the participants, as well as glucose measurements (for subject with diabetes) and blood pressure (of subjects with hypertension).
Prediabetes, defined by either impaired fasting glucose and/or impaired glucose tolerance, is a known high-risk condition predisposing to future diabetes mellitus type 2. Strategies to prevent progression from prediabetes to diabetes have been widely studied, however, without striking long-term effects of any kind of intervention (pharmacological, behavioral...). The investigators therefore investigate certain nutritional approaches concerning nutrient content and favorable food components, targeting metabolic improvement.
The objective of the study is to assess the effect of low-calorie diets with normal (18%) vs. high (35%) protein (mainly coming from animal source) composition on body weight and carbohydrates metabolism in overweight and obese subjects with pre-diabetes or diabetes. A dietary intervention is carried out during 6 months in 100 subjects who are individually randomized to an energy-restricted diet with two types of macronutrients composition: 1) 35% protein, 30% fat and 35% carbohydrates and 2) 18% protein, 30% fat and 52% carbohydrates. Around 80% of total protein in diet comes from animal source (of whom around 40% from lean red meat). Subjects are provided with weekly menus and different recipes to use them as part of the diet. Monitoring visits with the nutritionist will be performed every 15 days. At the beginning of the study, after 3 and 6 months, the following parameters are determined: anthropometric (weight, waist circumference, body mass index and body composition), blood pressure, dietary (72-hours dietary registry) and exercise and biochemical analysis (total cholesterol, triglycerides, HDL cholesterol, LDL cholesterol, apolipoproteins A1 and B, iron, transferring, ferritin, uric acid, glucose, HbA1c, insulin, adiponectin and resistin). Urine samples are also collected to assess microalbuminuria and ureic nitrogen.
The South Asian population is facing an epidemic of type 2 diabetes, of which the underlying cause is still unknown. It is currently hypothesized that an ethnic susceptibility towards a disturbed energy metabolism may underlie this disadvantageous metabolic phenotype. In line with this, the investigators recently discovered that Dutch South Asian subjects have 32% lower resting energy expenditure (REE) and 34% lower energy-combusting brown adipose tissue (BAT) compared to matched white Caucasians. Nitric oxide (NO) was recently shown to be crucial for BAT development and, interestingly, South Asians have diminished NO bioavailability. Thus, the disadvantageous metabolic phenotype in South Asians may be caused by diminished NO bioavailability resulting in lower BAT volume. Therefore, the investigators hypothesize that increasing NO generation in the body by administration of L-arginine, the precursor of NO, will improve their metabolic phenotype by increasing BAT volume, thereby increasing REE and clearance of triglycerides and glucose by BAT. To investigate this, the investigators will perform a randomized placebo-controlled multicenter cross-over study in moderately obese Dutch South Asians and matched white Caucasians. Subjects will receive L-arginine (9 gram/day) or placebo for 6 weeks, followed by a wash-out period of 4 weeks and then again 6 weeks of one of either treatments. At the end of both treatment periods, a cold-induced PET-CT scan will be performed. Furthermore, muscle and fat biopsies will be obtained and thermoregulation will be assessed.
Oxidative stress is produced by imbalance between reactive oxygen species and antioxidant systems. This state is frequently associated with chronic diseases like obesity, insulin resistance, metabolic syndrome and hepatic steatosis. In the liver, the oxidative stress may trigger the progression of fatty liver disease, from triglyceride accumulation to inflammation, cirrhosis and hepatocellular carcinoma. Thus, the attenuation of oxidative stress, could be an important therapeutic target to lessen the severity of the disease. Until now, there is not a medical treatment to cure non-alcoholic fatty liver disease, but therapies aimed at reducing oxidative stress have been proposed. Metadoxine, an ionic complex of pyridoxine-pyrrolidone molecule, acts as a synthetic antioxidant, forming traps that can reduce free radicals; likewise, metadoxine has a proven capacity to reduce fat liver in alcoholic hepatitis. Finally, in fact that alcoholic and non-alcoholic liver diseases share molecular mechanisms in the generation of oxidative stress, the investigators propose metadoxine as a posssible modifier of the oxidative stress in non-alcoholic liver disease, prediabetic patients.
Background: Type 2 diabetes mellitus is a main risk factor for cardiovascular disease and heart failure, in part due to diabetic cardiomyopathy. However, the association between intracellular lipid accumulation and (myocardial) functional impairment is likely more complex than originally imagined. Recent studies suggest that not fat per se, but the content of saturated or unsaturated fatty acids might predict the development of cardiac steatosis and myocardial dysfunction. In addition skeletal muscle and hepatic glycogen metabolism is impaired in patients with diabetes mellitus. Data from animal experiments suggest a relevant role of myocardial glycogen stores in ischemic preconditioning. Due to methodological limitations so far data on myocardial glycogen stores and myocardial lipid composition in humans are missing. Hypothesis: In addition to total ectopic lipid deposition in the myocardium, myocardial lipid composition, i.e. the relative abundance of saturated and unsaturated fatty acids, and impaired myocardial glycogen metabolism may play an important role in the development cardiac lipotoxicity leading to diabetic cardiomyopathy. Pancreatic endocrine function and myocardial morphology and function is altered in patients with heterozygote inactivating mutations of the CaSR-gene / FHH. Aims: - Metabolic virtual biopsy of the myocardium for identification of specific patterns of intracellular lipid composition and myocardial glycogen metabolism as possible critical determinants of metabolic cardiomyopathy - Characterization of the metabolic interplay between the myocardium, skeletal muscle, liver and adipose tissues in different stages of development of type 2 diabetes compared to patients with calcium sensing receptor mutation Methods: - 1H/13C and 31P magnetic resonance spectroscopy and imaging for measurements of myocardial, skeletal and liver lipid and glycogen content, abdominal adipose tissue distribution and composition, ATP synthesis and myocardial functional parameters - Mixed meal tolerance tests to trace the postprandial partitioning of substrates between insulin sensitive tissues (myocardium, skeletal muscle, liver, adipose tissue). - Hyperinsulinemic-hyperglycemic glucose clamp (HHC) with enrichment of the infused glucose with the stable isotope [1-13C]glucose to trace the incorporation of circulating glucose into myocardial glycogen in healthy insulin sensitive volunteers, prediabetic insulin resistant volunteers with impaired glucose tolerance, healthy subjects, patients suffering from type 2 diabetes mellitus, patients suffering from type 1 diabetes and patients with heterozygote mutation in calcium sensing receptor.