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Active clinical trials for "Metabolic Diseases"

Results 161-170 of 827

Concurrent Training and Metabolic Profile, Lung Function, Quality of Life and Stress

Sedentary LifestyleMetabolic Disorders5 more

Physical inactivity and sedentary time are highly prevalent worldwide and are associated with many adverse health outcomes. Workers adults spend two-thirds of their workday sitting, so they are particularly at risk. Exercise is considered a preventive and treatment tool for diseases, however, the effects of Concurrent Training (that is, aerobic plus resistance training) are not well established in healthy adults. This research project aims to analyze the effects of a concurrent training program on metabolic profile, lung function, stress and quality of life, as well as body composition and physical fitness in sedentary adults. This is a single-blinded two-arm RCT with parallel groups. After completion of baseline assessments, eligible participants will be randomized in a 1:1 ratio to participate in concurrent training group or control group. Repeat assessments will be taken immediately post 8 weeks and post 16 weeks of intervention.

Not yet recruiting12 enrollment criteria

Pro-Vegetarian Diets, Microbial/Metabolite Profiles and Cancer

Dietary HabitsFood Habits4 more

This projects aims to characterize dietary habits and nutrition quality of pro-vegetarian diets as compared to omnivorous diets. It also aims to stablish gut microbial and metabolit profiles of this dietary pattern, in order to elucidate the role of plant-based diets in cancer prevention and treatment.

Recruiting3 enrollment criteria

Evaluation of Body Composition Improvement With Visceral Adiposity-Focused Anti-Obesity Telehealth...

ObesityCardiovascular Diseases2 more

A retrospective review of body composition changes in patients who participate in a 9-week non-invasive intensive health care provider supervised weight loss program as an overall cohort and in sub-cohorts of interest.

Recruiting7 enrollment criteria

Endocrine, Metabolic, Cardiovascular and Immunological Aspects of Sex Chromosome Abnormalities in...

Sex Chromosome AbnormalityKlinefelter Syndrome4 more

Observational study of 160 patients with sex-chromosome abnormalities and 160 matched controls. Blood, fat, muscle, skin, buccal swaps, urine will be collected and analyzed for DNA, RNA and methylation patterns. The goal is to associated genotype and epigenetic changes with the phenotype of patients with sex-chromosome abnormalities. Patients participate in questionaries, dexa-scan of bones, fibroscan of liver, ultra sound of testicles and blood will be analyzed for organ specific blood work as well as immunological and coagulation components.

Recruiting2 enrollment criteria

Variation of Genes Controlling Carbohydrate and Lipid Metabolism

Diabetes MellitusType 25 more

Aim of the study is to investigate genes regulating glucose and lipid metabolism in subjects whose glucose metabolism, lipid metabolism, blood flow, or body fat distribution has been measured using positron emission tomography (PET), magnetic resonance imaging (MRI), magnetic resonance spectroscopy (MRS) or computed tomography (CT) as part of their previous participation in clinical trials conducted at Turku PET Centre. By combining information from PET, MRI, CT, proteomics, metabolomics and genetics analyses we aim to find connection between genetic variation and metabolic and cardiovascular disease.

Recruiting2 enrollment criteria

Metabotyping of Overweight and Obese Children

Metabolic DiseaseObesity1 more

Today's children are increasingly facing metabolic-related health issues, among which the worldwide prevalence of overweight and obesity is rising at an alarming pace. Childhood obesity is associated with the early onset of chronic diseases including an emergence of prediabetes and diabetes mellitus type 2. The decline of insulin sensitivity already years before puberty, exposes children to long- term complications prior the appearance of clinical symptoms and time of diagnosis. The shortened life expectancy and large economic burden imposed underlines the need for the identification of metabotypes at risk at an early stage. One's genetics, microbial gut composition and every aspect of the environment in which children are raised have been implicated in diet-related obesity rendering metabolomics a very powerful tool towards precision medicine. Yet, the excellence of stool in reflecting the intertwining thereof is completely unexplored for pediatric purposes, whereas blood sampling causing pain and stress for child and parent only captures a narrow fraction of the metabolome. As such, rectal sampling using a customised medical swab for optimal gut metabolome coverage is envisioned. Ambient laser desorption ionisation will be hyphenated to high-resolution mass spectrometry-based metabolomics to provide a framework for elucidating predictive and/or prognostic biomarkers for ever-increasing pediatric metabolic diseases such as obesity and (pre)diabetes.

Active3 enrollment criteria

The Impact of Glomerular Disorders on Bone Quality and Strength

Glomerular DiseaseBone Diseases2 more

The primary objectives of this study are to: (1) determine the impact of glomerular disease on bone strength and (2) investigate the pathophysiologic underpinnings of impaired bone strength in glomerular disease.

Recruiting22 enrollment criteria

Rare and Atypical Diabetes Network

Diabetes MellitusDiabetes Mellitus Progression5 more

RADIANT is a network of 14 clinical sites and several laboratories dedicated to the study of atypical diabetes. The objective of this study is to define new forms of diabetes and the unique mechanisms underlying these forms of atypical diabetes. The specific aims are to: Identify and enroll individuals and families with undiagnosed rare and atypical forms of diabetes. Determine the etiologic basis of the metabolic disorder among individuals and families with novel forms of rare and atypical diabetes. Understand the pathophysiology of individuals and families with novel forms of rare and atypical forms of diabetes.

Recruiting20 enrollment criteria

Natural History of the Human Biological Response to Environmental Exposure and Injury

InflammationNormal Controls1 more

Background: Environmental exposures like pollution, diet, and stress can help cause human diseases, or make them worse. Researchers want to better understand how injury and inflammation are caused by these exposures. They want to collect biological and environmental samples and other data. They may use the samples to measure a range of factors, like hormones, toxins, and chemicals. This will help them improve their studies. Objective: To identify and understand how environmental exposures contribute to human disease. Eligibility: Healthy adults ages 18 and older Design: Participants will be screened with questions about their health history, demographics, and medicines they take. Participants may give blood, hair, stool, saliva, and/or urine samples. They may have a skin punch biopsy to collect skin cells. They may give fingernail or toenail clippings. They may give a sample of exhaled breath. Participants may give a sputum sample. They will inhale a saline mist and cough mucus into a cup. Participants may have their nasal passages brushed, scraped, or washed. Participants may give cheek cell samples. They will swish mouthwash and spit it into a cup. Participants who produce sperm may give samples. Participants may have bronchoscopy to collect fluid. A saline solution will be put into their lung and then suctioned out, washing areas of the lung. Participants may have a pelvic or transvaginal ultrasound. They may have lung function tests. Participants may collect household dust, urine, or stool at home. Participants will complete surveys about their health, diet, and exposures. Participation will last for one or more study visits. Participants may be contacted in the future to take part in other studies.

Recruiting10 enrollment criteria

Natural History, Physiology, Microbiome and Biochemistry Studies of Propionic Acidemia

Metabolic DiseasePropionic Acidemia1 more

Background: People s bodies need to break down food into the chemicals. These chemicals are used for energy and growth. Some people cannot process all chemicals very well. Too much of some chemicals can cause diseases. One of these diseases is called propionic acidemia (PA). People with PA can have problems with growth, learning heart, abdomen, and other organs. Researchers want to better understand how these problems happen. Objective: To learn more about propionic acidemia and the genes that might contribute to it. Eligibility: People at least 2 years old with PA who can travel to the clinic Some unaffected family members Design: Participants will have a 3 to 5-day hospital visit every year or every few years. Family members may have just 1 visit. During the family member visit, they may have: Medical history Physical exam Samples of blood and urine Questions about diet and a food diary Doctors and nurses may do additional studies: Samples of saliva, skin and stool Fluid from a gastronomy tube, if participants have one Dental and eye evaluations A kidney test - a small amount of dye will be injected and blood will be collected. Consultations with specialists A test of calories needed at rest. A clear plastic tent is placed over the participant to measure breathing. Stable isotope study. Participants will take a nonradioactive substance then blow into a bag. Photos taken of the face and body with underwear on Ultrasound of the abdomen Heart tests Hand x-ray Brain scan Participants may have other tests if study doctors recommend them. They will get the results of standard medical tests and genetic tests.

Recruiting10 enrollment criteria
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