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Adiposity clinical trials

View clinical trials related to Adiposity.

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NCT ID: NCT06343987 Recruiting - Clinical trials for Metastatic Breast Cancer

The FEMA Study: Feasibility of Exercise in Patients With Metastatic Breast Cancer and Adiposity

Start date: February 19, 2024
Phase: N/A
Study type: Interventional

The goal of this clinical trial is to test a physical activity program in patients with metastatic breast cancer and overweight receiving endocrine-based treatment. The aim of the study is to assess the feasibility and metabolic efficacy of a 12-week physical activity program in this patient group. The hypothesis is that improving metabolic health through physical activity can optimize cancer care. Participants will randomized 2:1 to either a physical activity program or care as usual.

NCT ID: NCT06326853 Not yet recruiting - Acromegaly Clinical Trials

Neuroendocrine Mechanisms in Adiposity: An Integrated Approach to the Characterization of Potential Pharmacological Novel Targets Based on Experimental and Clinical Models

Start date: July 2024
Phase:
Study type: Observational

The goal of this observational study is to evaluate, retrospectively and prospectively, the effect of different hormonal and neuropeptide dysfunctions on the body composition of patients suffering from hypothalamic-pituitary pathologies, and to evaluate the potential beneficial effect of surgical and medical treatments with agonists and antagonists of hypothalamic neuropeptides, currently available, on the development and treatment of adiposity and negative cross-talk between adiposity and muscle/bone tissue

NCT ID: NCT06264882 Recruiting - Aging Clinical Trials

Cardiometabolic Consequences of the Loss of Ovarian Function

LILAC
Start date: June 1, 2024
Phase: Phase 4
Study type: Interventional

The menopause transition is associated with a decrease in artery health and an increased risk for weight gain in storing fat in the stomach area which may increase the risk for heart disease. The purpose of this research is to study how the decrease in estrogen at menopause changes artery health and fat gain, and risk of disease in women as they age. The first aim in this study will determine whether short term and long term low estrogen levels in premenopausal women decreases artery function and whether this is related to an increase in fat in the stomach area. The second aim will determine whether the changes in artery health and body fat are related to changes in a pathway that breaks down an important amino acid called tryptophan. This pathway is thought to play a role in regulating the aging process. Therefore, the investigators will determine whether the decrease in artery health and the increase in body fat in the stomach region with low estrogen is related to changes in this pathway in the blood, in vascular cells and fat tissue. Because estrogen levels fluctuate in premenopausal women, the investigators will use an approach (intervention) that controls estrogen levels to address these aims. The investigators will use a medication that is typically used to treat endometriosis or uterine fibroids to lower estrogen levels and an estrogen patch to increase estrogen in some women. Some women will receive a patch that has no estrogen (called a placebo patch). The intervention period will be 20 weeks. The study will provide us with new knowledge on how low estrogen with menopause affects artery health and fat gain estrogen.

NCT ID: NCT06223035 Recruiting - Adiposity Clinical Trials

Myokine Identification Following Acute Exercise

Start date: April 18, 2024
Phase: N/A
Study type: Interventional

Exercise stimulates a cascade of responses within the human body. For example, exercise results in the release of proteins into the circulation which communicate with cells and organs throughout the body. In fact, recent human research identified more than 600 proteins are released into the blood circulation following short-term exercise, many of which are predicted to come from the skeletal muscle and target the fat tissue. However, identification of these muscle-secreted proteins and their target tissue (i.e. fat tissue) remains extremely challenging. This challenge is because tissue needs to be collected from multiple sites (skeletal muscle and fat) and at multiple timepoints (before and after exercise). This study seeks to address these challenges through the collection of fat and blood both before and after short-term exercise followed by protein detection (of the blood) and gene expression (of the fat tissue).

NCT ID: NCT06208345 Recruiting - Childhood Obesity Clinical Trials

Early Life Intervention in Pediatrics Supported by E-health

ELIPSE-I
Start date: February 16, 2024
Phase: N/A
Study type: Interventional

Childhood obesity in early life contributes to the development of specific NCDs, i.e. adult obesity. Unhealthy diet and low level of physical activity are lifestyle risk behaviors associated with chronic, systemic inflammation, which promotes the pathogenesis of NCDs. Early preventive measures to improve lifestyle behavior are of utmost importance. The aim of ELIPSE-I is to assess whether an eHealth application intervention for parents is feasible and efficacious in lowering total energy intake/total energy expenditure (TEI/TEE) ratio in their children with BMI >97 centile (ELIPSE-I).

NCT ID: NCT06189001 Recruiting - Adiposity Clinical Trials

The Role of Oxytocin-receptor Signalling in Physiological Regulation of Eating Behaviour in Individuals With Obesity

FOxy
Start date: January 1, 2024
Phase: N/A
Study type: Interventional

The present study evaluates appetite, glucose metabolism, gastrointestinal motility and energy expenditure in men and women with obesity (BMI 30-40 kg/m2) under oxytocin exposure compared to placebo.

NCT ID: NCT06175988 Not yet recruiting - Eating Behavior Clinical Trials

Visceral Adiposity, Vagal Tone and Food Preferences: a Pilot Study

ObVague
Start date: December 11, 2023
Phase:
Study type: Observational

Food preferences are defined by a number of measurable parameters, such as per se food choices, sensitivity of taste and olfactory sensory perceptions, hedonic appreciation of foods ("liking") and motivation to consume them ("wanting"). These food preferences are fundamental to the quality of food intake, and are therefore a key factor influencing weight loss or maintenance of a stable weight. Obesity is also associated with reduced sensory sensitivity to taste and smell, as well as disturbances in the responses of the food reward system. However, the internal, or physiological, mechanisms impacting these food preferences are still poorly understood. To date, several studies seem to point to the role of body composition, in particular visceral adiposity, or adiposity surrounding the digestive organs. Indeed, a high level of visceral adiposity is associated with the onset of numerous cardiometabolic disorders, but also with altered sensory perceptions. This relationship could be mediated by the vagus nerve, which connects the digestive organs to the brain, enabling the perception of internal signals sent by the body, such as feelings of hunger or satiety. Low vagal activity is associated not only with abdominal obesity, but also with reduced sensory sensitivity to taste and smell, and changes in food choices in favor of energy-dense foods (rich in fats and/or sugars). Electrical stimulation of the vagus nerve is now recognized as a possible treatment for morbid obesity in the USA, but the mechanisms leading to the expected weight loss are still debated. Similarly, an increase in vagal tone has been found in patients who have undergone bariatric surgery for the treatment of severe complicated to morbid obesity, in parallel with sensory disturbances. The overall aim of this project is to explore and confirm the relationship between visceral adiposity and various food preference parameters, such as olfactory and gustatory perceptions and reward system responses, involving liking and wanting certain foods and associated behaviors. This project also aims to shed light on the possible mediation of the vagus nerve in this relationship.

NCT ID: NCT06153654 Recruiting - Adiposity Clinical Trials

Role of the Nasal Environment in Obesity

Start date: July 30, 2021
Phase:
Study type: Observational

The primary aim of this study is to investigate the nasal environment in obese and lean individuals.

NCT ID: NCT06129110 Recruiting - Obesity Clinical Trials

Effect of Weight Loss on Intermuscular Adipose Tissue (IMAT) Signaling

Start date: January 1, 2024
Phase: N/A
Study type: Interventional

The goal of this intervention study is to learn about how weight loss impacts molecular signaling of intermuscular adipose tissue (IMAT) in individuals with obesity. The main question it aims to answer is how inflammatory molecules secreted by IMAT promote muscle insulin resistance and inflammation, and how these same molecules are diminished after weight loss. Following screening visits involving body composition measures, blood testing, strength testing, and a thigh muscle biopsy, participants will go through a 12-week dietary intervention for weight loss. After 12 weeks, this will be followed by the same testing and biopsies that were completed before the intervention. Researchers will then compare outcomes of individuals who lost weight to individuals who did not lose weight.

NCT ID: NCT05992688 Recruiting - Clinical trials for Microbial Colonization

The Sweet Kids Study (Stevia on Weight and Energy Effect Over Time)

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

This is an 8 to14-week three-arm randomized controlled in children 8 to 12 years old. The main purpose of the study is to evaluate if stevia (as with other sweeteners and consistent with prior research in children and adults) has benefits for weight control and metabolic function relative to caloric sweeteners, and whether it provides benefits in this regard similar to water.