View clinical trials related to Metabolic Syndrome.
Filter by:The purpose of this study is to assess study subjects' adherence to different weight control intervention programs and the effect of intervention programs on physical and biochemical examinations, physical fitness, food intake and exercise behaviors and the prevalence of metabolic syndrome and its components' abnormalities.
This trial seeks to compare the effects of melatonin supplementation versus placebo in subjects with the metabolic syndrome.
This study will examine the impact diabetes genetic counseling on patient motivation and disease prevention behaviors among subjects with pre-diabetes. Intervention subjects will be provided with their individual diabetes genotype risk score derived from aggregating the combined results of 37 diabetes risk-associated genetic loci. Controls will not be tested. All subjects will be enrolled in a 12-week diabetes prevention program.
The purpose of this study is to assess the effectiveness of two different reduced calorie diets that have different combinations of carbohydrate, fat, and protein content in 2 groups of study participants: insulin sensitive participants and insulin resistant participants. The hypothesis of the study is that people with high and low levels of insulin resistance may respond differently to different diet compositions in a real-world environment using meals that are commonly available.
The aim of this project is to study the relationship between obstructive sleep apnea (OSA) and metabolic syndrome (MS) in a population of obese patients who are candidates for bariatric surgery. The investigators will study the influence of OSA through hypoxia and sleep fragmentation on different proinflammatory adipokines and cytokines, on metabolic syndrome and on insulin resistance, as well as how these respond to treatment with continuous positive airway pressure (CPAP). In the first part of the study (part A) the investigators will perform an observational study of cases and controls. Based on the diagnostic polysomnography the patients will be divided into two groups depending on their apnea-hypopnea index (AHI): OSA (AHI >= 15/h) and non-OSA (AHI <15/h). The results will be analyzed depending on the presence or not of OSA. In the second part of the study (part B), the patients with severe OSA (AHI ≥ 30/h) will be randomized into two groups: one group will receive CPAP + diet treatment and the other group will only receive diet treatment. After 3 months of treatment (CPAP + diet vs. diet), the investigators will analyze the overall effect on metabolic syndrome and the effect on its individual components, as well as the above-mentioned inflammatory pathways and insulin sensitivity, between the 2 groups. This will be carried out through a randomized controlled study in which the investigators will compare the effect of CPAP with the effect of conservative treatment.
The purpose of this study is to assess the efficacy of Diamel administration in the treatment of Metabolic Syndrome. The duration of this double-blind placebo controlled phase 3 clinical trial will be 12 months.
The purpose of this study is to determine whether Restorative yoga versus stretching exercises will reduce risk factors for metabolic syndrome in adults with metabolic syndrome.
The purpose of the Taste Perception Study is to assess variations in the ability to taste and perceive sensations from various stimuli in younger (18-49 years) and older (50-85 years) volunteers. The study's goal is to determine how these sensations influence what one likes to eat, and what one chooses to eat, and whether there is an association with dietary intake, body composition and chronic disease. Another objective of the study is to determine the association between variations in oral sensations and genes mediating sensory perception and dietary behaviours.
The purpose of this study is to determine the variability in glycemic index determinations for individual foods and food combinations. The study will also evaluate the changes in insulin and free fatty acid levels, plasma lipid and lipoprotein profiles, C-reactive protein-a marker of inflammation and glycosylated hemoglobin- a marker of glucose metabolism during a five-hour period after eating the food or foods. Additionally, supplementary data on variation in oral sensation, habitual food intake, food preferences and genes mediating sensory perception and dietary behaviors (supported by a grant from the Tufts Ross Aging Initiative) will be related to the outcomes on the present study.
Metabolic syndrome and thereby obesity is associated with low-grade systemic inflammation and it is likely that this is also the case in children (Ley et al., 2005). It has also been shown that the gut microbiota is different in obese individuals compared to normal weight individuals and that the microbiota seems to have a role in fat storage (Backhead et al, 2004). Intervention study with overweight and normal weight school age children. The children will be randomised to receive selected probiotics or a placebo. Fecal and blood samples will be collected, and anthropometric measurements (weight, height, skin folds) will be recorded before and after the intervention. The dynamic of the microbiota of the GI will be monitored by molecular methods. Markers of intestinal inflammation (calprotectin) and permeability will be analysed. Blood samples will be analysed to evaluate how the intervention influence the systemic polarization of the immune response by means of cytokine analyses. Furthermore, blood pressure, blood lipid profile and early markers of metabolic syndrome will be evaluated. Hypotheses This study will examine if overweight in children is associated with a different intestinal microbiota and if a change in microbiota caused by probiotics can modify inflammation and risk factors for the metabolic syndrome.