Active clinical trials for "Metabolic Diseases"

In rodents, obesity is associated with changes in tight junctions' structure in small intestine, which impacts intestinal permeability and results in metabolic complications. Few data exist in human. We hypothesized that intestinal permeability is altered in obese subjects in comparison to lean subjects, linked to metabolic and inflammatory status and that these alterations are modified after gastric bypass.

To assess : Compare predictive value of waist to-height ratio and bio-electrical impedance analysis versus BMI in early detection of metabolic syndrome. Asses Prevalence of metabolic syndrome among obese primary school children.

There is currently no way to predict the progression of chronic kidney disease in patients with metabolic disease(s). Furthermore, the mechanisms responsible for the development and/or progression of complications remain largely unknown. In order to identify the predictive factors and/or mechanisms involved in the different complications of these diseases, we propose an approach coupling : a classical phenotypic characterization (clinical, biological, imaging) of the patients high-throughput screening of the genome, transcriptome, metabolome, proteome, and immunophenotyping. According to our hypothesis, this approach should allow : Early detection of complications Classification of patients in homogeneous groups of patients with identical evolution Identification of the molecular mechanisms involved.

This study relates to men with hypogonadism, a condition describing a deficiency of androgens such as testosterone. Deficiency of these hormones occurs in men due to testicular (primary) or hypothalamic-pituitary (secondary) problems or may be observed in men undergoing androgen deprivation therapy for prostate cancer. Testosterone plays an important role in male sexual development and health, but also plays a key role in metabolism and energy balance. Men with testosterone deficiency have higher rates of metabolic dysfunction. This results in conditions such as obesity, nonalcoholic fatty liver disease, diabetes, and cardiovascular disease. Studies have confirmed that treating testosterone deficiency with testosterone can reduce the risk of some of these adverse metabolic outcomes, however cardiovascular mortality remains higher than the general population. We know that testosterone deficiency therefore causes metabolic dysfunction. However, research to date has not established the precise mechanisms behind this. In men with hypogonadism there is a loss of skeletal muscle bulk and function. Skeletal muscle is the site of many critical metabolic pathways; therefore it is likely that testosterone deficiency particularly impacts metabolic function at this site. Men with testosterone deficiency also have excess fat tissue, this can result in increased conversion of circulating hormones to a type of hormone which further suppresses production of testosterone. The mechanism of metabolic dysfunction in men with hypogonadism is therefore multifactorial. The purpose of this study is to dissect the complex mechanisms linking obesity, androgens and metabolic function in men. Firstly, we will carry out a series of detailed metabolic studies in men with testosterone deficiency, compared to healthy age- and BMI-matched men. Secondly, we will perform repeat metabolic assessment of hypogonadal men 6 months after replacement of testosterone in order to understand the impact of androgen replacement on metabolism. Lastly, we will perform the same detailed metabolic assessment in men with prostate cancer before and after introduction of a drug which causes testosterone deficiency for therapeutic purposes.

The goal of this study was to perform a clinical trial to compare the impact of herbal chickpea pulao (cooked Indian-Pakistani rice dish) on improving postprandial blood glucose levels in type-2 diabetic people. The main questions it aims to answer are: Whether Indian rennet and fenugreek seed extract can modulate blood sugar levels or not? At what concentration the flavor, taste, and blood sugar impact were acceptable? Participants were provided with control and intervention herbal chickpea pulao for a period of 21 days and asked to provide feedback on taste, flavor, and over-acceptability, and their postprandial blood glucose levels were checked.

Food is emerging as the new medicine. There has been growing evidence of the beneficial effects of foods, including nuts on human health. Modulation of both glucose and insulin are at the heart of reducing the risk of cardiovascular and other metabolic diseases. The contribution that nuts have on human health has been studied extensively and it is well established that the consumption of nuts revealed improvements in both blood glucose profile and reduced the risk of coronary heart diseases. Nuts, such as almonds, are nutrient-dense foods that are particularly rich in a-tocopherol. They are excellent sources of protein (~25% of energy) and fibre, low in saturated fatty acid content (4-6%) and high in monounsaturated fatty acids. They also contain significant amounts of essential micronutrients such as folate (B vitamin) and polyphenols. Recently, strong interests on the health effects of nuts improving metabolic syndrome and controlling diabetes has been reported. Preliminary studies have indicated that the inclusion of nuts in the diets of individuals with diabetes and/or metabolic syndrome may improve postprandial glycaemic response, and lipid metabolism in the long run.

This study investigates the effects of Splenda, an artificial sweetener powder containing sucralose, on post-prandial blood glucose levels, appetite scores and subsequent energy intake.

Overweight and obesity have reached worldwide epidemic level. Both overweight and obesity are characterized by comorbidities such as cardio-metabolic risk factors (i.e., insulin resistance, type 2 diabetes, hypertension, dyslipidemia, low-grade inflammation) representing a major public health problem. Therefore, it is urgent to find a therapeutic solution to target all these metabolic disorders. Among the environmental factors able to influence the individual susceptibility to gain weight and to develop metabolic disorders associated with obesity, more and more evidence show that the trillions of bacteria housed in our gastro-intestinal tract (i.e, gut microbiota) influence host metabolism. The investigators recently discovered a putative interesting microbial candidate, namely Akkermansia muciniphila (Akk). More exactly, we found that the administration of Akkermansia muciniphila reduced body weight gain, fat mass gain, glycemia and inflammatory markers in diet-induced obese mice. Moreover, in overweight/obese patients with cardiovascular risk factors subjected to a calorie restriction diet (calorie restriction diet for 6 weeks and an additional 6 weeks of weight maintenance), a higher abundance of Akkermansia muciniphila was associated with a better cardio-metabolic status in these patients. The investigators also discovered that patients having more Akkermansia muciniphila in their gut before the calorie restriction exhibited a greater improvement in glucose homoeostasis, blood lipids and body composition after calorie restriction. These observations suggested that the administration of Akkermansia muciniphila in overweight or obese people could be a very interesting therapeutic solution. Currently, no human study has investigated the beneficial effects of Akkermansia muciniphila administration on obesity and metabolic disorders. The overall objective of this study is to evaluate the effects associated with the administration of live or heat-killed Akkermansia muciniphila on the metabolic disorders (insulin-resistance, type-2 diabetes, dyslipidemia, inflammation) related to overweight and obesity in humans.

Branched chain amino acids (BCAA) are known to exert insulinogenic effect. Whether this effect is mediated by incretins (GLP-1, GIP) is not known. The aim of the study was to show incretin effect of BCAA, i.e. whether the oral administration of BCAA elicits higher insulin and incretin response when compared with IV route of the same dose of BCAA. Eighteen healthy, male subjects participated in three tests: IV application of BCAA solution (30.7±1.1 g of BCAA, IV BCAA) second was oral ingestion of BCAA capsules in the same dose (ORAL BCAA) and third experiment was oral placebo (PLACEBO). Glucose, insulin, GLP-1, GIP, valine, leucine and isoleucine levels were measured at time interval for up to 4 h.

Modern living is associated with an epidemic of type 2 diabetes mellitus (T2DM). Sleep disturbances are strong independent risk factors for incident diabetes. Melatonin has been implicated in regulation of circadian rhythm and sleep, but it is also ascribed anti-oxidative properties and effects on glucose homeostasis. A potential association between melatonin and T2DM has only been addressed in few human physiological studies, but the topic has received renewed interest since genetic-epidemiological studies have pointed to a role for melatonin in the development of the disease. In the current study, the investigators wish to examine whether treatment with synthetic melatonin induces physiological changes that affect the risk of developing type 2 diabetes. Two studies of the physiological effects of melatonin are included in the present protocol. In study A, the investigators will examine the acute effects of Melatonin on insulin secretion and insulin sensitivity using a Botnia clamp and in study B the investigators will examine the potential effects of Melatonin on the incretin response.