View clinical trials related to Metabolic Syndrome.
Filter by:The researchers will conduct a study for avoiding the metabolic syndrome in morbid obese patients. Thus, the aim of the present will be determine the effects of a resistance training programme (RT) in preventing or attenuating metabolic syndrome (MetS) in patients with morbid obesity. A second aim will be report the prevalence of non-responders in terms of improvements in MetS markers and other co-variables considered.
HASS-2 is a multi-center, cross-sectional quality improvement project: evaluating the implementation of a hypertension guideline protocol by perioperative clinicians, as a model for improving various aspects of public health. The study will also describe the co-morbid risk profile of these newly identified or poorly controlled hypertensive patients. In addition, as a sub-study, these patients will be followed up at monthly intervals for 3 months after discharge, in order to quantify the rates of compliance with their prescribed treatment.
Energy metabolism and insulin sensitivity were assessed in a case-control study in patients with branched-chain organic acidemias.
Plant-based nutrition may have positive effects on chronic diseases such as cardiovascular or metabolic disorders. This study investigates the effects of a 8 week plant-based diet for patients with metabolic syndrom and cardiovascular risk factors.
In spite of the growing evidence for the beneficial effects of probiotics, their anti-obesity effects are not well examined. No previous studies were conducted in this research area in the UAE. Hence, the aims of this study are to 1) Investigate the link between metabolic derangements associated with obesity and levels of LPS and LBP; 2) Study the relatedness of low grade inflammation with the ME; 3) Investigate the food intake assessment; and 4) Investigate the effectiveness of probiotics supplement on the obesity, ME and inflammation. This project will have two phases: 1) a cross-sectional, in which 250 adults will be recruited for the collection of anthropometric measures, food intake, and fasting blood samples to measure serum LPS, LBP, Lipid profile, IR, insulin-like growth factor, hs-CRP, IL-6, and glucose. 2) Intervention phase, in which 50 overweight subjects will be randomly assigned to either receive a daily probiotic (25 subjects) or a placebo capsule (25 subjects) during the intervention period.
The objective of this study is to determine the effects of consuming either 3 eggs per day and compare it to daily choline supplement (choline bitartrate) for a dose of approximately 400 mg/day on plasma concentrations of high density lipoprotein cholesterol (HDL-c), trimethylamine N oxide (TMAO) and plasma choline. The goal is to determine if choline given as phosphatidyl choline (from eggs) will have a more beneficial effect on plasma choline and microbiota.
Metabolic syndrome (MetS) adults (n = 24; 18-65 y) will be enrolled to complete a 2-arm, double-blind, randomized controlled, crossover trial. They will be randomized in 4-unit blocks to receive, for 14 d, a controlled diet with dairy milk (3.5% fat; 3 servings/d) enriched with milk fat globule membrane (MFGM, MEB) or a matched dairy milk that instead contains soy lecithin/phospholipid (control, COMP). All foods during each study period will be provided to ensure weight maintenance and to increase homogeneity of gut and host responses. Anthropometrics and blood pressure will be assessed at days 0, 7, and 14. Prior to (day 0) and after each 2-wk arm (day 14), a fasting blood sample will be collected to assess serum endotoxin and metabolic chemistries (glucose, lipids, insulin), and Toll-like receptor 4 /nuclear factor kappaB (TLR4/NFκB)-dependent genes from whole blood. A breath sample will be collected to assess the correlation analysis of plasma metabolic biomarkers. After the 2-week intervention, from fecal samples collected on day 13, the investigators will assess microbiota composition and function, short chain fatty acids (SCFA), and intestinal inflammatory markers (calprotectin, myeloperoxidase). On d 14, participants in the fasted state will receive a high-fat/high-glucose meal challenge to induce gut-derived endotoxin translocation. At 30-minute intervals for 3-hour, the investigators will evaluate circulating endotoxin, glucose, and insulin; TLR4/NFκB-dependent genes will be assessed from whole blood at 0 hour and 3-hour. Gut permeability probes will be co-administered with the test meal challenge, and 24-hour urine will be collected to assess gut barrier integrity. Participants will then undergo a 2-week washout prior to receiving the alternative treatment and completing all procedures in an identical manner.
The purpose of this study is to investigate the effect of interrupting prolong sedentary behavior with interval exercise on postprandial metabolism following a high fat glucose tolerance test.
Double blinded, randomized, placebo controlled preliminary pilot exploratory investigation into the effects of brown seaweed extract supplementation, on fasting blood Insulin, fasting blood glucose, insulin sensitivity, blood inflammatory markers and tolerance in healthy overweight adults.
This study evaluates the effect of phosphorus supplementation on the human metabolome. The investigators will do so by conducting a cross-over study in healthy adults consuming a study diet (normal diet supplemented by neutral sodium phosphorus, 1 gram/day) for seven days and a control diet (normal diet supplemented by sodium and potassium chloride only) for seven days with a 28 day wash-out period in between. Untargeted metabolomic analyses will be done in serum samples obtained at the end of each diet period.