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Browse 4,295 clinical trials for obesity. Find studies that match your criteria and connect with research centers.
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NCT06344377
Obesity represents a serious global health issue with significant consequences, including an increased risk of chronic diseases. Statistics indicate a growing trend of obesity, highlighting the need to seek methods that improve fat tissue metabolism and reduce obesity-related complications. Previous research on animals has shown that betaine, a substance engaged in one-carbon metabolism, may enhance fat oxidation and lower adipose tissue. Therefore, the aim of the research will be to assess the impact of 8-week betaine supplementation on body composition and lipid metabolism markers, as well as expression of genes related to lipid metabolism, in a group of adult women with abdominal obesity. This study is designed in a placebo-controlled, double-blinded, randomized fashion. The participants will be overweight or obese pre-menopausal females. Upon enrollment, participants will be randomly assigned to one of two parallel groups: betaine (3g/d) or placebo. The supplementation period will last for 8 weeks. There will be three study meetings: T1 before supplementation, T2 after 4 weeks of supplementation, and T3 after 8 weeks of supplementation. Blood will be drawn and body composition measured, and adipose tissue biopsy taken at meetings T1 and T3. The T2 meeting will involve only body composition measurement. Study outcomes will include body mass and composition (including body fat percent), lipid profile, and the expression of genes related to lipid metabolism in adipose tissue and peripheral blood mononuclear cells.
NCT03525002
Obesity is a widespread disease with increasing prevalence and associated with serious secondary complications. So far, the origin of the disease, regardless of an existing positive energy balance, is not fully understood. In addition to environmental factors, the genetic background plays an important role in the pathogenesis of obesity. Of common genetic polymorphisms, variants in the fat mass and obesity associated gene (FTO) locus have the highest effect size on body weight. Animal and first clinical studies indicate that FTO variants interact with dopamine signaling in the brain, thus influencing the risk of overweight. In fact, preliminary results indicate that enhancing dopamine signaling with the dopamine agonist bromocriptine, depending on the FTO genotype, either induces weight loss or has a neutral effect on body weight. The planned clinical trial serves to develop a genotype-specific and thus individualized therapy approach for obesity. The influence of dopamine agonist therapy on weight loss as a function of the FTO (rs8050136) genotype is to be tested. Here, the greatest weight loss is expected to occur in subjects carrying the homozygous risk-allele (AA). So far, there are only a few established conservative therapy forms of obesity, so that bariatric interventions with an increasing rate are necessary to achieve weight loss and thus a reduction in overall morbidity and mortality. Among the approved drug therapies for obesity, bromocriptine is commonly used. In addition, some interventions require injections. An early, conservative individualized, genotype-specific treatment with little side-effects would enable simple treatment of obesity. Study design: 150 obese (BMI \> 30) subjects (50 / study center) will be enrolled in the study. The subjects will be stratified according to their FTO genotype (rs8050136). Subjects will be randomized into placebo or bromocriptine treatment group. Treatment will last for 18 weeks and a follow-up will be performed 30 weeks after baseline.