Active clinical trials for "Obesity"

The aim of this study is to explore whether and how high circulating levels of endothelin-1 (ET-1) in obese and overweight children may contribute to impair adiponectin (Ad) production, release and vascular activity

The purpose of this study is to observe the effect of lack or excess of Vitamin D in the first, second and third trimester on child birth weight, fat content and the secretion of metabolism related hormone, and clinical follow-up their offspring obesity.

The aim of the present study is to asses the effect of obesity on anaerobic exercise's growth hormone (GH) response.

This study examines risk factors for type 2 diabetes in children representing multiple discrete ethnic groups. It also examines the short term effects of school-based health education supervised exercise on metabolic risk factors for type 2 diabetes mellitus in children. The investigators hypothesize that exercise and health education will significantly improve insulin sensitivity in all children, especially in children who are already insulin resistant, thereby lowering the risk that they will go on to develop type 2 diabetes mellitus. The specific hypotheses being tested are: Insulin resistance will be most evident in overweight children while an impaired ability of the pancreas to release insulin will be most evident in children with a family history of type 2 diabetes mellitus. Exercise will significantly improve insulin resistance (as measured by the fasting glucose/insulin ratio) with little effect on insulin secretory capacity in children. Participation in a school-based health, nutrition, and exercise education program will have long term beneficial effects on health related behaviors and on insulin resistance in all children, regardless of their level of diabetes risk.

The prevalence of pediatric obesity is increasing at an unprecedented rate. Obese children are at risk for the development of insulin resistance, relative insulin deficiency and type 2 diabetes mellitus. However, the cause of insulin resistance remains an area of scientific interest. The study of type 2 diabetes in children is limited by the lack of a non-invasive method to evaluate insulin resistance. Recent studies have suggested that mitochondrial dysfunction is associated with, and perhaps predictive of insulin resistance in adult relatives of individuals with type 2 diabetes. Mitochondria generate energy in muscle tissue through the production of ATP, and are important in the metabolism of both glucose and fat. This study evaluates a novel, non invasive, safe method for predicting insulin resistance and diabetes in children using a magnetic resonance imaging (MRI) based technique to measure mitochondrial function. We propose to investigate mitochondrial function and glucose metabolism in obese and non-obese children in early, mid and late puberty. Analyses will be conducted to investigate the presence of mitochondrial dysfunction in obese children, to evaluate the contribution of mitochondrial dysfunction to insulin resistance, and to determine the contribution of pubertal status to mitochondrial dysfunction and insulin resistance. The successful completion of this study would provide evidence to support the hypothesis that mitochondrial dysfunction plays a role in insulin resistance and diabetes in children. In addition, it would provide a new technique for the prediction of disease states and perhaps lead to the development of preventative therapeutics for insulin resistance and type 2 diabetes in children. We hypothesize that mitochondrial dysfunction will mirror the progression of insulin resistance and precede and predict abnormal glucose metabolism in a population with pediatric obesity

In this study investigators will investigate the beneficial metabolic sequelae of Liraglutide in patients with obesity or overweight; including changes in vital signs, anthropometric characteristics (weight, body mass index and body composition), biochemical parameters, metabolomics and micro-ribonucleotide acid (miRNA) molecules from blood tests. Liraglutide is a commercially available analogue of a gut hormone physiologically produced in our bowel in response to food, licenced for the treatment of overweight or obesity. Liraglutide will be offered to patients attending National Health System (NHS) or private clinics within indication and according to their agreed clinical management. Investigators aim to collect real-life information for this study along with planned clinical management from patients who agree to their treatment and to take part in our study. Patients will be able to withdraw from treatment and study at any time without giving any explanation. If successful, this study will help us combine clinical, biochemical and molecular information which will allow us to gain deeper understanding on the mechanisms behind the beneficial metabolic effects of Liraglutide in overweight and obesity. Data generated from this study will hopefully help us acquire funding for a larger multicentre study; the results of which can have substantial impact on millions of people with overweight or obesity around the world.

The prevalence of obesity is increasing and affects more than 650 million people of all ages to become one of the foremost global health threats. Obesity is a complex syndrome that can seriously impair health through a broad range of complications such as cardiovascular disease, type 1 and 2 diabetes (T1D and T2D), cancer, musculoskeletal disorders, psychosocial imbalances, and reduced quality of life, and impacts the treatment of other conditions. Weight reduction has been shown to have a positive effect on these co-morbidities and may increase the effectiveness of treatments specific for other co-morbidities. Lifestyle modification is an integral part of the weight management journey, but is often insufficient on its own, and can be complimented by pharmacological and surgical add-on treatments to achieve greater and more sustainable weight loss, as appropriate. It is likely that there are subgroups of patients that are more suited to certain types of treatment and results risk dilution of perceived efficacy unless these groups are identified and treatment is personalised. The aim of this project is to identify pathophysiologically and clinically meaningful subgroups of obesity by performing Next Generation Sequencing (NGS) approaches and network based algorithm that will allow the optimisation of prevention and treatment of obesity and its complications.

In the UK, 25% of the adults are affected by metabolic syndrome (NHS, 2016). Metabolic syndrome is a cluster of different conditions including: hyperglycaemia, insulin resistance hypertriglyceridemia, dyslipidaemia and hypertension. Such individuals also have increased risk of developing type 2 diabetes and cardiovascular disease. The factors contributing to the development of metabolic syndrome are potentially numerous and understudied in humans, with much of what we think we know coming from animal research. Recent animal studies have pointed towards gut health playing a role in metabolic health. More specifically it has been suggested that changes in the composition of the gut microbiota may drive insulin resistance and type 2 diabetes through a mechanism that is linked to increased gut permeability and the development of metabolic endotoxemia and inflammation. Yet, this link has not been confirmed in humans. This research will look at the relationship between diet, physical activity, sleeping patterns, obesity status and age etc. and measures of gut bacterial composition, gut barrier function and metabolic health. Findings will provide us with new insights on the effect of different physiological and behavioural/ lifestyle variables on gut health and metabolic function.

Comparison of the prevalence of obstructive sleep apnea (OSA), measured by polysomnography in normal weight patients with central obesity by body mass index (BMI) and waist hip ratio (WHR), with normal weight patients without central obesity by BMI and WHR. Evaluation of arterial stiffness and vascular age in normal weight patients with central obesity and in normal weight patients without central obesity. Determination of the exercise response characteristics in OSA patients.

The purpose of this study is to compare the metabolic phenotype of a range of body weights in individuals with and without Type 1 diabetes.