View clinical trials related to Obesity, Abdominal.
Filter by:The investigators will randomize abdominally obese men and women at increased health risk to one of the following 4 conditions: 1) No-exercise, wait list controls (C), 2) Low volume, low intensity exercise (LVLI), 3) High volume, low intensity exercise (HVLI), 4) Low volume, high intensity exercise (LVHI). The primary aim of the trial is to determine the effects of varying exercise dose (energy expenditure, kcal) or intensity (relative to VO2max (cardiorespiratory fitness)) on waist circumference and glucose tolerance. The investigators will test the following hypotheses: 1) That the reduction in waist circumference and improvement in glucose tolerance in response to all treatments will be greater than controls. 2) That reduction in waist circumference and improvement in glucose tolerance in HVLI and LVHI will be greater than LVLI. 3) That hypotheses 1 and 2 are true independent of gender.
The purpose of this study is to determine the effectiveness of two different non-energy restricted controlled carbohydrate programs with the American Diabetes Associations' diet on glycosylated hemoglobin and other diabetes risk factors in obese adolescents with metabolic syndrome, a constellation of symptoms associated with the development of type 2 diabetes and cardiovascular disease.
The study is a year-long health-behaviour intervention in obese, male truck-drivers to lose weight moderately by 10%, using monthly individual counseling. The investigators hypothesize that lifestyle modification (increased physical activity, changes in eating habits, and improved schedule for sleep) through weight loss improves daytime alertness and quality of sleep, reduces daytime sleepiness, and improves cardiovascular risk factors and health-related fitness.
The overall aim of this study is to investigate the effects of GH treatment in men with the Metabolic Syndrome and a high risk of developing type 2 DM. Forty men with abdominal obesity and impaired glucose tolerance will be randomized to two parallel treatment groups with GH and placebo for 12 months. The subjects will receive treatment with recombinant human GH (Genotropin®) or placebo administered by a daily s.c. injection before bedtime. The initial dose of GH will be 0.4 IU per day increased to 0.8 IU after 2 weeks and to 1.2 IU after 4 weeks of treatment. Thus, the target dose is 1.2 IU per day which resembles approximately 0.015 IU/kg/day. The GH dose will be reduced by half in the event of side-effects. Oral and written instructions in terms of administration and dosage will be given. The treatment can be discontinued by the patient. The treatment should be discontinued if malignancy is discovered, DM developes, if the subject experience a cerebrovascular disease and in the event of any other side-effects that is considered as serious. The treatment code for each subject included in the trial will be kept at the Sahlgrenska University Hospital Pharmacy. This code can be broken on the request of the investigator. Compliance will be assessed by collecting empty vials from the study subjects. The treatment is discontinued at the end of the study.
In this randomized controlled trial, we will examine the effect of a 3-month exercise training (aerobic exercise versus resistance exercise) without calorie restriction on total and regional adiposity, and risk of type 2 diabetes in overweight children and adolescents.
Obesity, a condition that occurs when a person has too much body fat, affects about 31% of people in the United States. It is associated with increased risk of diabetes, high blood pressure, high cholesterol, and cardiovascular disease. Abdominal obesity, in particular, is also associated with low levels of growth hormone, a hormone that affects rate of growth and the way the body uses energy. Growth hormone releasing hormone (GHRH) is a substance that makes the body naturally increase its own growth hormone levels. Administering GHRH to people who are obese may help return their growth hormone levels to normal and, in turn, may lead to reduced abdominal fat and improved cardiovascular function. This study will evaluate the effectiveness of synthetic GHRH in decreasing the amount of abdominal fat and improving cardiovascular function in people who are obese.
Reductions in fat oxidation and resting metabolic rate (RMR) are associated with normal aging and are accelerated with menopause. As a result, postmenopausal women have an increased risk of abdominal obesity and ultimately the metabolic complications that lead to the insulin resistance syndrome and its associated risks (hyperlipidemia, type 2 diabetes, and coronary heart disease). Thus, there is a need to determine the most successful treatment to reduce visceral obesity in postmenopausal women. The purpose of this study is to determine if dietary-induced weight loss alone and/or weight loss combined with exercise at low and high- intensities differentially affect the reduction in visceral adipose tissue in postmenopausal women with abdominal obesity.
The purpose of the study was to assess the effects of equivalent diet- or exercise-induced weight loss and related insulin resistance in abdominally obese women.
The aim of the present study is to assess the effect of a high intake of industrially produced trans fatty acids for 16 weeks on abdominal obesity and risk markers of type 2 diabetes and heart disease in healthy, moderately overweight, postmenopausal women.
Obesity is one of the leading causes of cardiovascular-related diseases, including diabetes and heart disease. Obesity, and more specifically abdominal obesity, may cause decreased growth hormone (GH) levels. It is believed that GH deficiency may contribute to increased cardiovascular risk by affecting insulin resistance, inflammatory markers, and blood cholesterol levels. This study will determine the occurrence of GH deficiency in abdominal obesity and whether GH deficiency is associated with increased cardiovascular risk beyond traditional risk factors.