View clinical trials related to Metabolic Syndrome.
Filter by:The purpose of the study was to characterize the action of mesoglycan on vascular endothelium through the non-invasive assessment of vascular reactivity humeral artery by comparing effects of mesoglycan on Flow Mediated Dilatation (FMD) of the humeral artery between a group of patients with metabolic syndrome assuming placebo and a group of patient with metabolic syndrome assuming mesoglycan; firstly after administration of the drug/placebo intramuscularly, and then, in a study of medium-term after oral intake of drug/placebo. The selection of patients with metabolic syndrome is related to the fact that this syndrome is associated with alterations in endothelial function and a high incidence of cardiovascular events. So it is a condition that offers the opportunity to explore the hypothesis that the mesoglycan may have a favorable effect on early vascular alterations that precede clinical events.
The purpose of this study is to determine the effects of ranolazine on different markers of cardiometabolic disease in women with stable angina.
Chronic kidney disease (CKD) is a major global health problem associated with substantial costs and resource utilization. Currently, CKD affects more than 500 million people worldwide. Patients with CKD have unacceptably high mortality rates due to cardiovascular (CV) causes, which are not entirely explained by traditional CV risk factors. The mortality rates in advanced CKD are six times higher compared to the Medicare population, with CVD accounting for the overwhelming majority of deaths. Insulin resistance (IR) is common in CKD patients and may represent a central link between CKD and the increased CVD risk observed in this population. Insulin resistance may increase CV risk by impairing and worsening endothelial function, increasing reactive oxygen species, and exacerbating systemic inflammation-hence, insulin resistance is considered a "non-traditional CV risk factor" in CKD. Obesity (defined by a body mass index [BMI] of at least 30 kg/m2) is a major public health problem-the upward trend in obesity prevalence across regions and continents is a worldwide concern. Obesity increases the risk for cardiovascular disease and death. In the general population, obesity hastens death by 9.4 years. Obesity is an independent risk factor for CKD. Besides its contribution to the development of diabetes and hypertension, increased fat mass may also have a direct impact on kidney function. In spite of the increasing prevalence of both obesity and CKD, the impact of obesity in the CKD population is not known, especially in terms of the exaggerated metabolic disturbances associated with their coexistence. It is highly likely that these two conditions have profound interactions that exaggerate the severity of the metabolic derangements when they coexist, particularly in regards to adipokine dysregulation, the risk of "insulin resistance", and downstream effects on vascular health. The current proposal will attempt to characterize the relative and combined impact of both obesity and CKD on metabolic disturbances, which may aid in risk stratification and identifying specific targets for intervention. The ultimate goal of this proposal is to understand the relative and combined impact of obesity and CKD on the generation and maintenance of insulin resistance and their impact on cardiovascular health. Specific Aim 2: To study the effects of metformin, an AMPK activator, on metabolic disturbances associated with obesity and moderate CKD. S.A.2.a: To test if metformin will improve LAR in obese patients with moderate CKD compared to placebo. S.A.2.b: To test if metformin will improve markers of systemic inflammation, oxidative stress, endothelial dysfunction in obese patients with moderate CKD compared to placebo. S.A.2.c: To test if metformin will improve atherosclerosis markers and reduce clinical CVD events in obese patients with moderate CKD compared to placebo. Hypothesis: The investigators hypothesize that the administration of metformin in obese CKD patients will significantly improve the adipokine profiles-particularly through a reduction in LAR. Additionally, that it will improve systemic inflammation, oxidative stress and endothelial function, which may or may not be mediated by changes in adipokines. Finally, the investigators hypothesize that improvements in these markers of vascular health will translate into reduced arterial stiffness and less clinical CV events
The eCMP Pilot aims to study the feasibility and potential effectiveness of an electronically-mediated CardioMetabolic Program (eCMP) for therapeutic lifestyle change among adults with or at high risk for type 2 diabetes, heart disease, and/or stroke.
The purpose of this study is to investigate the prevalence of signs and symptoms of hypogonadism in three groups of testicular cancer survivors.
Observational epidemiologic studies have observed an inverse relationship between daily dietary magnesium intake and blood pressure (BP). Except for BP, magnesium may also beneficially affect other cardiovascular risk markers. Whether all these effects translate into improved vascular function is not known. Different vascular function markers at various stages on the pathway between diet and disease exist. One of these markers, vascular stiffness, is closely related to the process of atherosclerosis, an independent cardiovascular risk factor, and predictive of future cardiovascular events and mortality. To examine the integrated effects of interventions on cardiovascular risk, vascular stiffness may therefore serve as a marker at the later stage of cardiovascular disease development. Therefore, it is imperative to examine in a 24-week, randomized, double-blind, placebo-controlled, two-way parallel-group human intervention study, the effect of magnesium on vascular stiffness. Focus will be on carotid-femoral pulse wave velocity (PWV), the gold standard for the evaluation of vascular elasticity, to quantify vascular stiffness. Urinary excretion of magnesium will be used to assess dietary magnesium uptake. Furthermore, time courses of an increased magnesium intake on changes in BP, other markers reflecting vascular function, and plasma biomarkers related to low-grade inflammation and vascular activity will be measured to unravel possible cause-effect relationships.
Approximately 24% of the US adult population meet criteria for metabolic syndrome (MetS), diagnosed by a combination of abdominal obesity, elevated blood pressure, high triglyceride and low HDL-cholesterol level, and pre-diabetes. MetS quintuples the risk of diabetes, and doubles the risk of cardiovascular disease (CVD), particularly heart failure. Lifestyle modification is the initial step of treatment, but few studies have demonstrated early and sustained efficacy in remission of MetS. Our preliminary studies of a lifestyle change program for patients with MetS included a 1-year of development of an intervention by an interdisciplinary team of experts in medicine and the behavioral sciences. The investigators then tested the efficacy of the intervention in a treatment-only, proof-of-concept study. The investigators achieved our goal of 50% MetS remission after 2 years, in a sample of 26 patients. This study is the second step of a research program testing an innovative bio-behavioral intervention aimed at remitting MetS through lifestyle intervention, by focusing on eating patterns, daily activity, and stress management. The overarching objective of this research program is to determine the efficacy of the ELM lifestyle intervention to achieve remission of MetS. This purpose of the current study is to prepare for a large, randomized, clinical trial by conducting a smaller clinical trial that examines the acceptability of the ELM intervention (ELM Group) as compared to two other intervention arms (ELM Classes, ELM Individual).
The hypothesis of this study is that the daily consumption of 2 medium-sized pears for twelve weeks will improve blood pressure, lipid profiles, glycemic control and insulin resistance, inflammatory and oxidative status in men and women with metabolic syndrome. 50 men and women between the ages of 45 and 65 who have three of the five features of metabolic syndrome as defined by the Adult Treatment Panel III will be included in the study. After a two-week run-in phase, eligible men and women will be randomly assigned to one of two treatment groups: 1) 2 medium-sized pears; or 2) 50 g placebo powder daily for twelve weeks. After an initial telephone screening, all participants will be requested to report to the study site for their first visit. On the first visit (screening), participants will be provided with verbal and written explanation of the project. They will then be asked to sign an informed consent form, followed by measuring waist circumference, resting brachial blood pressure, fasting serum triglycerides, high density lipoprotein cholesterol, and glucose levels to confirm metabolic syndrome. Baseline assessments will be performed for medical history, medication use, dietary intake, and physical activity. Qualified participants will be scheduled for their second visit two weeks later (actual baseline data collection) and randomly assigned to their treatment group. On the second (baseline) visit between the hours of 6-11 A.M., blood pressure will be measured followed by blood draw and urine collection. Anthropometrics and body composition will be measured. Questionnaires regarding diet, physical activity, and gastrointestinal health will be performed. Participants will be provided with their assigned treatment and will receive standard instructions on how to fill out daily diaries for their treatment. All assessments will be repeated at 6- (third visit), and 12-week (final visit) intervals. All assessments and information will be collected after an overnight fast and 12 hours after the abstinence of caffeine and/or 24 hours after the last bout of moderate to heavy physical activity. After the initial 12 weeks, participants will undergo a 4-week washout period in which they will not consume either the intervention or the placebo. After the 4-week washout period, participants will crossover into the other group to receive either the intervention or placebo.
Cardiovascular disease (CVD) is one of the most important and frequent causes of death. Postprandial lipidemia (PPL) is an independent risk factor for CVD, besides the traditional risk factors e.g. hypertension, high LDL-cholesterol, family disposition of CVD and type 2 diabetes (T2D). A high PPL is associated with an increased risk of myocardial infarction and stroke. Reduction of increased PPL, as a part of CVD prevention, is therefore pivotal. Especially in groups with increased risk of CVD, like the metabolic syndrome (MeS) and T2D. Identification of a simple diet-related method will possibly result in reduction of CVD in healthy as well as high-risk subjects. The aim of this project is to investigate the effect of protein quality and the time factor of protein consumed as pre-meal prior to a fat-rich meal on responses of triglycerides and apolipoprotein B48 (ApoB48). Secondarily the aim is to study the responses of glucose, insulin, glucagon, amino acids, inflammatory markers, incretins, rate of gastric emptying and metabolomics. Also satiety feeling will be measured. Investigators hypothesize that whey protein consumed 15 minutes prior to a fat-rich isocaloric meal reduces triglyceride- and ApoB48 responses more compared to casein protein and gluten protein consumed 15 minutes prior to the meal and whey protein consumed 30 minutes prior to the meal in subjects with MeS. The investigators research will hopefully contribute to a better understanding of how PPL can be modified in a simple manner. It will promote innovation to the food industry for development and production of healthy food products, which can be applied in the fight against CVD in the background population in general and high-risk people in particular. Thus, the results of this project can impart knowledge of great importance both to the national and international food industry as well as the healthcare systems.
A human clinical consumption trial will be performed in volunteers with increased risk factors for cardiovascular disease (Metabolic Syndrome), which includes obesity and diabetes and related conditions over a period of 12 weeks with blood draws at baseline (0 weeks), 4, 8, and 12 weeks and a 24 hr urine collection on each blood draw day.