View clinical trials related to Metabolic Syndrome.
Filter by:The objective of the study is to evaluate the safety of multi-organ denervation using the Integrated Radio Frequency (iRF) Denervation System. and to understand any potential improvement in hypertension and glycemic control.
Heart disease and diabetes are leading causes of death and disability in the US, especially among Veterans. Posttraumatic stress disorder (PTSD) is a disabling condition that also affects many Veterans. New research suggests that PTSD further increases the risk of developing heart disease and diabetes. What causes this increased risk is unknown. However, individuals with PTSD are often less physically active and make more unhealthy dietary choices than individuals without PTSD. Maintaining a physically active lifestyle, staying physically fit, and eating a healthy diet may be important for reducing the PTSD related risk for heart disease, diabetes and disability. The proposed research seeks to assess how important these lifestyle factors are for reducing the risk of heart disease, diabetes and disability in Veterans with and without PTSD. A better understanding of these lifestyle factors and cardiometabolic health in Veterans will help to clarify how lifestyle interventions can best be applied to the prevention and treatment of long-term disability in Veterans. Aim 1: To examine physical activity participation as a mechanism linking PTSD to cardiometabolic health and functioning in post-9/11 Veterans. This study will longitudinally assess associations between PTSD diagnosis, physical activity, cardiometabolic health, and functioning over time in 250 TRACTS participants. H1-1: Total self-report physical activity will mediate the effects of PTSD on cardiometabolic health and functioning over time, such that lower physical activity will increase the detrimental effect of PTSD on cardiometabolic health and functioning. H1-2: physical activity intensity will moderate the effect physical activity has on cardiometabolic health and functioning. Aim 2: To examine diet quality as a mechanism linking PTSD to cardiometabolic health and functioning in post-9/11 Veterans. This study will longitudinally assess associations between PTSD diagnosis, diet quality, cardiometabolic health, and functioning over time in 200 TRACTS participants. H2: Self-report dietary intake will mediate the effects of PTSD on cardiometabolic health and functioning over time, such that a poor diet will increase the detrimental effect of PTSD on cardiometabolic health and functioning. Supplemental Aim: To validate the use of a self-report clinical measure of physical activity against objective measure obtained via accelerometry. Objective measurement of physical activity is not often accessible or feasible for VA providers (e.g., time constraints). It is essential that quick self-report physical activity measures accurately reflect the physical activity of Veterans. This study will compare data from a self-report clinical physical activity measure to objectively measured physical activity/sedentary time (i.e., accelerometry), cardiorespiratory fitness, cardiometabolic health, functioning, and PTSD symptom severity in 100 post-9/11 Veterans. H1A-1: Self-report and objective measurement of physical activity will be significantly correlated. H1A-2: Both self-report and objectively measured physical activity/sedentary time will be associated with cardiorespiratory fitness, cardiometabolic health, functioning, and PTSD symptom severity.
This is a randomized, parallel two-arm clinical trial design to study the efficacy of time-restricted feeding on metabolic risk in postmenopausal women, who may be particularly vulnerable to disruption of circadian eating rhythms and the associated metabolic dysfunction. It is hypothesized that time-restricted feeding will improve insulin sensitivity, glucose tolerance, body weight, and other metabolic parameters in metabolically-unhealthy postmenopausal women.
Since the HIV changed its course to the chronic disease, high incidence of metabolic syndrome both in HIV positive and negative subjects has become an issue. Given the successful peripheral suppression of HIV after introduction of combined antiretroviral therapy (cART), comorbidities associated with aging and cognitive functioning, play the main role in the overall quality of life and adherence to the therapy. Continuous low-level neuroinflammation results in continuous and diffuse neuronal death or dysfunction leading to a certain level of neurodegeneration. Additionally, metabolic syndrome contributes to neurodegeneration causing damage to the brain vasculature and provoking the ischemic incidents. The aim of this study would be to explore the influence of switching to the INSTI based cART using neuroimaging biomarkers of inflammation and neurodegeneration. The second aim would be to monitor these neuroimaging biomarkers in patients receiving INSTI-based cART in a one-year follow-up period. Additionally, we would compare the markers of metabolic syndrome and cognitive functioning (executive functions) in HIV-positive patients after switching to INSTI-based cART and in HIV-positive patients receiving INSTI-based cART from the start. This study represents a single-center, prospective, interventional, two-armed single study. Arm I will include 60 patients on PI/EFV based ART, stable on treatment, who are switched to INSTI based regimen at the beginning of the study due to side effects or long-term toxicities like hyperlipidemia, diarrhea, (PI), insomnia, headache (EFV), high Framingham score (PI/EFV). Arm II will include 60 patients initially on INSTI-based ART, stable on treatment. The same data sets will be collected for both groups of patients. The variables collected will be related to metabolic syndrome (levels of LDL and HDL cholesterol, triglycerides, fasting insulin, glucose, blood pressure, waist circumference, waist to hip and waist to height ratio), performance on neurocognitive tests and MR spectroscopy neuroinflammation and neurodegeneration markers at the beginning of the study, as well as in 12 months follow up. Presence of steatosis and visceral fat thickness will be assessed using ultrasonography of abdomen. The primary imaging will be performed at the time of enrollment of patients, along with the neurocognitive testing and blood sampling. The secondary imaging (follow up) will be performed 12 months after the initial, also followed by neurocognitive assessment and blood sampling. Anthropometric measurements will be acquired at the time of blood sampling. Statistical analysis will be performed after collecting the data. Our work could significantly contribute to the better life quality in the aging of HIV positive subjects in the domain of cognitive functioning, tightly associated with adherence and overall life quality.
The overarching aim of this project is to investigate effects of dietary interventions on nonalcoholic fatty liver disease (NAFLD) severity and to delineate the relationship with improvements in metabolic aberrations in liver-, fat- and muscle tissue, using a panel of state-of-the art techniques. The investigators will conduct a randomized clinical trial with three arms to investigate if micellar cassein isolate and whey protein supplementation as part of a high-protein diet during 4 weeks of weight maintenance and 20 weeks of hypocaloric intake (30% energy restriction) inducing modest weight loss (5% of baseline weight) has beneficial effects on NAFLD severity and metabolic aberrations compared to normal diet in NAFLD patients. It is hypothesized that: (i) a high-protein diet improves liver disease severity and metabolic function compared to a normal protein diet; (ii) Cassein provides greater benefits than whey; and(iii) these effects manifest during both weight maintenance and weight loss.
The purpose of the study is to determined the prevalence of obesity-hypoventilation syndrome in patients with metabolic syndrom.
Arterial disease is the leading cause of morbidity/mortality in Metabolic syndrome (MetS). This occurs early as evidenced by arterial dysfunction that, in turn, raises blood pressure and glucose. Health organizations recommend exercise in an intensity based manner to promote cardiovascular adaptation and prevent disease. Metformin is a common anti-diabetes medication that reduces future type 2 diabetes and cardiovascular risk. However, the optimal exercise dose to be combined with metformin for additive effects on vascular function is unknown. Based on the investigator's preliminary work, the overall hypothesis is that metformin blunts adaptation following high intensity exercise training (HiEx) by lowering mitochondrial derived oxidative stress signaling. The investigators further hypothesize that low intensity exercise (LoEx) training combined with metformin will promote additive effects on vascular function compared to LoEx or HiEx+metformin, and maintain/improve non-exercise physical activity patterns. In this double-blind trial, obese 30-60y MetS participants will be randomized to: 1) LoEx+placebo; 2) LoEx+metformin, 3) HiEx+placebo; or 4) HiEx+metformin for 16 weeks.
Participants will be randomized into one of two different experimental groups: 1) Exercise group and 2) No exercise (control group). Subject participation in the study will involve a series of metabolic tests before and after participants undergo a 10% weight loss program (with or without exercise training depending on group randomization). After completing this weight loss portion of the study, participants will then be required to adhere to a high calorie diet program to regain half of the weight the participant lost - followed by the same series of metabolic tests.
This is an intervention study aiming to test the effectiveness of a vegan diet, My Plate with low purine choices, and amla fruits on uric acid and other cardiometabolic risk factors in individuals with high serum uric acid levels.
The aim of this study is to investigate the effects of regular forest therapy under guidance of a licensed nature therapist on patients with metabolic syndrome and cardiovascular risks