View clinical trials related to Metabolic Disease.
Filter by:The aim of GENESIS clinical study is to map the HLA genomic region in the Greek population and evaluate possible correlations with selected underlying diseases.
Background: Pyrimidine and purine metabolism disorders (DPPMs) affect how the body metabolizes chemicals called pyrimidines and purines. DPPMs can cause dysfunctions throughout the body, especially in the brain, blood, kidneys, and immune system. People with DPPMs might have no symptoms, mild symptoms, or they may have severe, chronic symptoms, that can be fatal. DPPMs are not well understood, and researchers want to learn more about what causes them and how to treat them. Objective: To learn more about factors that affect DPPMs by comparing test results from affected, uaffected family members, and healthy people. Eligibility: Three types of participants are needed: people aged 1 month and older with DPPMs; their family members who do not have DPPMs; and healthy volunteers. Design: Participants with DPPMs will come to the clinic once a year; some may be asked to come more often. At each visit, all affected participants will have a physical exam and give samples of blood, urine, saliva, and stool. Depending on their symptoms, they may also have other procedures, such as: Swabs of their skin and inside the mouth. Tests of their heart, kidney, brain, and nerve function. Questionnaires about what they eat. Dental exams, and exams of their hearing and vision. Tests of their learning ability. Monitoring of their physical activity. Imaging scans. Photographs of their face and body. These tests may be spread over up to 7 days. Affected participants may remain in the study indefinitely if they wish to. Healthy volunteers and family members will have 1 study visit. They will have a physical exam and may be asked to give blood, urine, saliva, and stool samples.
To test the hypothesis that active BAT improves metabolic health by buffering postprandial metabolites plasma metabolites and energy expenditure will be compared in volunteers with and without active BAT. Both groups will receive test meals with protein, fat and carbohydrates separately, so that the individual impacts of these macronutrients on diet induced thermogenesis and the buffering function of BAT can be derived. BAT biopsies will be taken before and after the test meals for molecular analysis.
The Continence, Sexual and Metabolic Health (CONTROL 4 LIFE) study will evaluate the recovery of continence, sexual function, and health outcomes in individuals who have undergone surgery for prostate cancer. The purpose of this study is to better understand the timelines of recovery for these outcomes after surgery for prostate cancer. As part of this study, all participants will receive resources offered by Alberta Health Services regarding pre- and post-prostatectomy care, including information on pelvic floor exercises. Through the CONTROL 4 LIFE study, the investigators will also be evaluating outcomes related to physical activity, fitness and quality of life. These assessments will enable the investigators to better understand how well and how long it takes for individuals to recover after surgery for prostate cancer.
The purpose of this study is to assess the effects of an 8-week supervised high-intensity interval training (HIIT) program (vs. physical activity recommendations according to current guidelines) on a comprehensive panel of circulating sphingolipids in middle-aged females and males at elevated cardiometabolic risk.
The aim of this study is to investigate how a short versus a long transit time impacts the gut microbiome's response to a high-fiber and a low-fiber diet, respectively. Such insights could help us understand personal responses to diets and be a first step towards personalized dietary recommendations targeting the gut microbiome.
The purpose of this study is to conduct a three-arm 52-week, randomized controlled trial with double blind treatment to evaluate the effects of a drug called tirzepatide in combination with an innovative, culturally-appropriate, intensive lifestyle intervention (ILI) delivered by community health workers (CHWs) in Latino adults with obesity. Participants will be randomized to 1) standard care (SC, n=25); 2) culturally-tailored dietary and behavioral intensive lifestyle intervention (ILI, n=25) provided by CHWs plus placebo; or 3) ILI plus tirzepatide (ILI-TRZ) for 52 weeks to evaluate the intervention's effect on: i) weight loss; ii) clinical efficacy (change in body fat mass, liver fat, intra-abdominal fat mass and intrahepatic triglyceride content, oral glucose tolerance, glycemic control, insulin sensitivity and b-cell function, plasma lipids, blood pressure, sleep duration, quality and behaviors, physical performance scores); iii) adherence and fidelity to the intervention (adherence to the intervention and barriers to long term adherence, quality-of-life, fidelity of the implementation by CHWs, CHW's and study participants' acceptability and satisfaction with the intervention and eating behaviors. Placebo or tirzepatide will be injected subcutaneously in the abdomen or thigh once a week for 12 months.
This research study collects health-related information and blood samples to better understand how body composition, lifestyle habits, and diet influence meta-inflammatory monocytes (MiMos) in adolescents. The hypothesis of this study is that adolescents at risk for metabolic disease have enhanced MiMo related activities leading to insulin resistance.
This project aims to explore the relationship between healthy lifespan and nutrition through a 10-year longitudinal study in Zhejiang Province. The cohort will include individuals in a wide range of age groups. The demographic, diet, lifestyle information, health status, and corresponding bio-samples will be collected carefully. It will give a deeper insight to the relation between nutrition and healthy aging and longevity. Ultimately, this research will contribute to evidence-based nutrition interventions to improve health outcomes and enhance quality of life.
Habitual short sleep duration (< 7 hours/night) increases the risk of cardiovascular disease (CVD) and all-cause mortality. Yet most adults, especially emerging adults (i.e., 18-25 years) do not achieve the National Sleep Foundation recommendation of 7-9 hours of sleep each night. Additionally, the American Heart Association recently included sleep duration in the "Life's Essential 8". This recent development emphasizes the importance of sleep and the need to advance our understanding of how sleep impacts cardiometabolic health (CMH), particularly in emerging adults, a population whose CVD risk trajectory is malleable. Specifically, emerging adulthood is a critical age window when age-related loss of CMH accelerates. Based on my previous work and others, both self-reported and objective measures of poor sleep (e.g., duration, variability) are linked to early signs of elevated CVD risk in emerging adults, such as microvascular dysfunction and elevated central blood pressure (BP), which precede the development of hypertension.