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Metabolic Diseases clinical trials

View clinical trials related to Metabolic Diseases.

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NCT ID: NCT05806801 Recruiting - Obesity Clinical Trials

Metabolic Adaptations to Weight Loss With and Without Exercise

WAX
Start date: July 19, 2023
Phase: N/A
Study type: Interventional

Study Purpose: The combination of caloric restriction and exercise is the most common first-line treatment for obesity-related disorders, yet we know very little about how these two very different treatments work together. A deeper understanding about mechanisms underlying the health benefits of adding exercise to a weight loss program will not only aid efforts to optimize more effective lifestyle interventions, but it can also uncover novel targets for the treatment/prevention of obesity-related diseases. Although a reduction in body fat is the fundamental adaptation to weight loss, we know almost nothing about the effects that adding exercise has on structural and functional changes within fat tissue that may further enhance metabolic health. This is very important because many obesity-related metabolic health complications are tightly linked with abnormalities in abdominal fat tissue. We argue exercise-induced modifications in abdominal fat tissue will reveal persistent health benefits even if some weight is regained Study Summary: 10% Weight Loss Phase - Subject participation in the study will involve a series of metabolic tests before, at midpoint, and after undergoing a 10% weight loss program (with or without exercise training depending on group randomization). During this, subjects will be randomized into one of two different experimental groups: 1. Moderate Intensity Continuous Training (MICT) exercise group 2. No exercise (control) group Follow-up Phase: After completing the metabolic testing post-weight loss, all study-related diet and exercise supervision will end and subjects will be free to make their own choices regarding diet and exercise/physical activity behavior. Subjects will then be asked to complete follow-up testing at 2-, 4- and 6- months post-weight loss. Total involvement in the study for each subject will likely be about 10-13 months (4-7 months during weight loss phase, 6 months during follow-up phase).

NCT ID: NCT05784506 Not yet recruiting - Nutrition Clinical Trials

Metabolites Profiling Reveals Nutrient Processing Patterns Upon Dietary Loading

Start date: March 31, 2023
Phase: N/A
Study type: Interventional

The reasonable combination of macronutrients including carbohydrates, proteins and fat, is the basis of rational diet and beneficial to treatment of metabolic diseases including obesity and diabetes. Endocrine hormones play pivotal roles in regulation of nutrients metabolism and energy homeostasis. However, the dynamic metabolism following the consumption of macronutrients and the relationship between various metabolites and endocrine hormones during these procedures yet to be adequately explained nowadays. Therefore, in this study, the investigators selected glucose, protein, fat and mixed meal tolerance test (MMTT) for the loading tests, endocrine hormones and metabolites were detected to profile the molecular changes in the plasma. The investigators aimed to explore the nutrient processing patterns of various macronutrients and determine the interaction between metabolic hormones and metabolites.

NCT ID: NCT05781334 Recruiting - Heart Failure Clinical Trials

Optimizing In-hospital Use of Evidence-based Therapies for Patients With Cardio-Renal-Metabolic Disease

IMPLEMENT-CRM
Start date: June 9, 2023
Phase: N/A
Study type: Interventional

This study will be a prospective randomized implementation trial for patients hospitalized with heart failure, chronic kidney disease, and/or type 2 diabetes mellitus within Duke University Medical Center. The primary hypothesis is that a virtual quality improvement-based consult intervention will improve the rate of in-hospital evidence-based cardio-renal-metabolic medication use, particularly SGLT2 inhibitor therapy. Approximately 200 patients meeting eligibility criteria will be included in the study. Patients will be assigned into study groups, as defined by randomization of their treating clinician team to receiving the virtual consult versus not.

NCT ID: NCT05779644 Recruiting - Clinical trials for Diabetes Mellitus, Type 2

Effects of GLP-1RA on Body Weight, Metabolism and Fat Distribution in Overweight/Obese Patients With Type 2 Diabetes Mellitus

Start date: February 23, 2023
Phase: N/A
Study type: Interventional

The purpose of this study is to analyze the effects of GLP-1RA on blood glucose, body weight, glucose and lipid metabolism and fat distribution in overweight/obese patients with type 2 diabetes mellitus.

NCT ID: NCT05773183 Not yet recruiting - Obesity Clinical Trials

Exploring the Relationship Between Androgen Metabolism, Metabolic Disease and Skeletal Muscle Energy Balance in Men

MMetdMH
Start date: March 12, 2023
Phase:
Study type: Observational

This study relates to men with hypogonadism, a condition describing a deficiency of androgens such as testosterone. Deficiency of these hormones occurs in men due to testicular (primary) or hypothalamic-pituitary (secondary) problems or may be observed in men undergoing androgen deprivation therapy for prostate cancer. Testosterone plays an important role in male sexual development and health, but also plays a key role in metabolism and energy balance. Men with testosterone deficiency have higher rates of metabolic dysfunction. This results in conditions such as obesity, nonalcoholic fatty liver disease, diabetes, and cardiovascular disease. Studies have confirmed that treating testosterone deficiency with testosterone can reduce the risk of some of these adverse metabolic outcomes, however cardiovascular mortality remains higher than the general population. We know that testosterone deficiency therefore causes metabolic dysfunction. However, research to date has not established the precise mechanisms behind this. In men with hypogonadism there is a loss of skeletal muscle bulk and function. Skeletal muscle is the site of many critical metabolic pathways; therefore it is likely that testosterone deficiency particularly impacts metabolic function at this site. Men with testosterone deficiency also have excess fat tissue, this can result in increased conversion of circulating hormones to a type of hormone which further suppresses production of testosterone. The mechanism of metabolic dysfunction in men with hypogonadism is therefore multifactorial. The purpose of this study is to dissect the complex mechanisms linking obesity, androgens and metabolic function in men. Firstly, we will carry out a series of detailed metabolic studies in men with testosterone deficiency, compared to healthy age- and BMI-matched men. Secondly, we will perform repeat metabolic assessment of hypogonadal men 6 months after replacement of testosterone in order to understand the impact of androgen replacement on metabolism. Lastly, we will perform the same detailed metabolic assessment in men with prostate cancer before and after introduction of a drug which causes testosterone deficiency for therapeutic purposes.

NCT ID: NCT05772364 Recruiting - Orthopedic Disorder Clinical Trials

High- Versus Low-calcium Water for Bone Health

Start date: March 2, 2023
Phase: N/A
Study type: Interventional

The experimental study investigates which metabolic responses of calcium and parathyroid hormone are observable in blood and urine in a cohort of 41 healthy adults following a sequence of different exposures: low-calcium water first and high-calcium water afterward.

NCT ID: NCT05764200 Not yet recruiting - Insulin Sensitivity Clinical Trials

Acute Microbial Switch

Start date: July 1, 2023
Phase: N/A
Study type: Interventional

In this project the investigators will test if it is possible to measure changes in intestinal gas production after supplementation of a complex fiber mixture over a 36 hour period in both lean normoglycemic individuals and individuals with insulin resistance and/or prediabetes with overweight when compared with a placebo Changes in intestinal gas production will also be related to energy expenditure, substrate metabolism, microbial composition and related metabolites in feces, blood and urine.

NCT ID: NCT05762263 Active, not recruiting - Blood Pressure Clinical Trials

The Effect of Flexitarian, Time-restricted Eating on Cardiometabolic Traits in Normal Weight, Young Men

FlexiFast
Start date: April 1, 2023
Phase: N/A
Study type: Interventional

The goal of this factorial randomized controlled trial is to find out whether time-restricted eating and flexitarian diet (on its own and combined) can improve cardiometabolic health markers in normal weight, young men with metabolic abnormalities? Participants will be assigned to four groups: control, flexitarian, time-restricted eating and time-restricted eating + flexitarian. Investigators will look for men with elevated fasting blood glucose or blood lipids level or blood pressure and with normal body weight and waistline. Participants from the flexitarian group will be asked to follow a diet that has been carefully designed for them by the PI and dietitian for the period of 8 weeks. Participants from the control group will receive general healthy eating recommendations. We aim to investigate if the experiment had any effect on changes in metabolic, inflammation and nutritional markers, blood pressure and body weight and composition. Also, the effect of diets on men's sleep, general wellbeing and satisfaction with treatment will be investigated. The proposed study can test a potentially effective nutritional intervention which is feasible to adopt and sustainable (in line with recent planetary diet recommendations). Confirming its effectiveness can fill the research gap, providing new knowledge and approach to the prevention and treatment of metabolic abnormalities in young, lean men.

NCT ID: NCT05755321 Active, not recruiting - Obesity Clinical Trials

From Skin Fibroblasts to Neural Stem Cells to Investigate in Vitro the Impact of Diabetes on Adult Neurogenesis

Start date: January 1, 2020
Phase:
Study type: Observational

Obesity and glucose intolerance or overt diabetes are increasing at an alarming rate in the population, and are bound to become a public health issue and a major cause of disability, loss of independence and high social costs in the near future. A large body of evidence has in recent years highlighted, among the negative effects of overnutrition and glucose dysmetabolism, also an acceleration of cognitive decline and of brain senescence, through cellular (vascular, neuronal, or both) and molecular mechanisms still incompletely clarified. Understanding how overweight and impaired glucose homeostasis negatively affect brain function represents both a major scientific challenge and an avenue to early detection and possibly prevention of this invalidating complication. The aim of this project is to obtain neuronal progenitor-like cells from skin fibroblasts in order to correlate patient-specific metabolism to adult neural stem cell (NSC) and neuronal function in vitro.

NCT ID: NCT05748444 Recruiting - Cystic Fibrosis Clinical Trials

The Relationship Between Diet and Glycemic Response and Inflammatory Markers in Children With Cystic Fibrosis

Start date: January 1, 2023
Phase:
Study type: Observational [Patient Registry]

The aim of this study is to determine the relationship between diets of children with cystic fibrosis and glycemic responses and some inflammatory markers.