View clinical trials related to Overweight.
Filter by:This double-blind randomized placebo-controlled trial will test the hypothesis that administration of Phaseolus Vulgaris supplementation to women in Lahore, Pakistan, who are overweight will induce the weight loss (Primary outcome) and changes in body composition (Waist circumference) secondary outcome.
A randomized, placebo controlled crossover study investigating the potential metabolic effects of the naturally occurring gut microbe Ruminococcus torques in healthy, overweight adults.
Obesity and overweight are noncommunicable diseases with increasing incidence in children, adolescents and adults. In 2016, more than 1.9 billion adults aged 18 and over were overweight and over 650 million were obese (WHO). In the EU-27 (Eurostat data), 45.7% of women and 60.2% of men were overweight, while 16.3% and 16.8%, respectively, were obese. The growing incidence of overweight and obesity generate worldwide increasing incidence of related conditions as cardiovascular diseases, diabetes, metabolic disorders, and cancer, with relevant socio-economical (increase in health costs, increase in disabilities) and environmental consequences (unsustainability of food models, increase in ecological footprint, worsening of climate changes). A transformation of food systems and individual behaviours are necessary to improve the quality of life and the sustainability of lifestyle, which should be oriented at preventing o treating overweight and obesity.
Circulating SCFAs reflect the net effect of what is produced in the large intestine from dietary fibre fermentation, bioavailability after considerable absorption by the enterocytes and in the liver and the elimination. It is yet unclear to what extent SCFA levels in systemic circulation is of importance for metabolic disease risk and diabetes aetiology. Recent high-impact studies strongly suggest beneficial metabolic effects of butyrate and adverse effects from propionate However, no study has yet investigated to what extent butyrate or propionate producing diets may influence metabolic risk factors for T2D across individuals with different butyrate or propionate producing capacity. The overall aim is to investigate individual's ability to generate high concentrations of butyrate and propionate in plasma after acute intake of different fibre rich foods in an extended postprandial setting. The aim is further to optimize time points for data collection to allow robust assessment of plasma-time concentration profiles of butyrate and propionate to establish a screening approach to identify individuals with high/low butyrate/propionate plasma concentrations. This will be used in later precision nutrition studies where diet will be tailored to high/low SCFA-metabotypes.
All the eligible participants after screening will be randomized into two groups (Group 1 and 2) by block randomization (block size of 4 and 6) using computer generated random number. Randomization is performed by the individual not involved in the study. Participants in both groups will receive individual counselling sessions to help them adhere to a reduced-calorie diet (500-kcal deficit per day relative to the energy expenditure estimated at the time) and increased physical activity (with 150 minutes per week of physical activity, such as walking). Both diet and activity will be recorded daily in a diary or by use of a smartphone application or other tools and were reviewed during counselling sessions. Participants in group 1 also receive oral Semaglutide along with diet and exercise. Treatment will be initiated with the 3 mg once-daily dose. The dose will be increased to 7 mg and then maximum of 14mg per day in 2-4weeks interval based on patient tolerance. Dose escalation schedule will be used to decrease the gastrointestinal side effects. Participants will be assessed for gastrointestinal complaints (nausea, vomiting) during escalation and follow-up. Once the desired dose is achieved, patient will remain at the maximum 14mg daily dose unless a reduction was warranted owing to problems with side effects. In such cases, investigators will reescalate the dose once symptoms are resolved or diminished.The absorption of oral Semaglutide is affected by food and fluid in the stomach, hence patients receiving oral Semaglutide will be instructed to take each tablet with up to 120 mL of water in the morning, in a fasting state, and a minimum of 30 min before the first meal of the day. Counselling will be done by a dietician or a similar qualified healthcare professional every 4th week via visits/phone contacts till the completion of the study. Participants have to physically visit the hospital at the end of 28 weeks for assessment.
The study's main objective is to investigate the effect of a probiotic (live bacteria), postbiotic (heat-treated bacteria) on obesity parameters.
The COVID-19 lockdown has represented an unedited model of increased metabolic risk in all age groups, due to negative changes in dietary habits, physical activity, lifestyle. These effects have been generally explored at a population level in distinct age groups. Potential intra-familial, specific effects in adults and children sharing the same socio-economic, cultural level and living habits have been scarcely explored. The investigators aimed to extend the previous observations concerning anthropometric data at the intra-familial level. In particular, The investigators prospectively characterized the variations in lifestyle habits and related outcomes over a 2 two months COVID-19 lockdown period, exploring both parents and their children. A cohort of 149 couple parent/children were prospectively enrolled. By a validated questionnaire The investigators explored changes of Body Mass Index (BMI) and individual lifestyle during a 2-month lockdown.
Investigate the effect of a probiotic (live bacteria) and postbiotic (heat-treated bacteria) strains in overweight individuals.
The overall purpose of this study is to identify how empagliflozin (a drug commonly used to treat type 2 diabetes) impacts skeletal muscle metabolic health among adults with prediabetes. Our aims are to: 1) Test the ability of empagliflozin to improve regulation of glucose metabolism (i.e., blood sugar) among overweight and obese individuals at risk for diabetes, and 2) Identify mechanisms to explain how empagliflozin may improve skeletal muscle glucose metabolism. We hypothesize empagliflozin will improve regulation of glucose metabolism due to changes in whole-body and skeletal muscle metabolism (e.g., increased rates of whole-body fat oxidation, evidence of impaired skeletal muscle mitochondrial respiratory function and increased energetic stress, lower accumulation of skeletal muscle lipids and improved skeletal muscle insulin signaling compared with placebo treatment).
The primary aim of the present study is to record changes in the health-related quality of life (HRQoL) of children/adolescents participating in the multi-professional group programme 'kinderleicht' in 2022 over the course of the eleven-month active phase. In addition, these data will be examined for correlation with changes in BMI, waist and hip circumference, and motor performance. Secondarily, the study addresses the questions of whether the recording of HROoL by means of the KINDL questionnaire is practicable for the programme leaders and what benefit can be gained from the analysed data for future cohorts.