View clinical trials related to Body Composition, Beneficial.
Filter by:The main purpose of the present study was to investigate the effects of 12 weeks of resistance training (RT) on phase angle (PhA), body composition, inflammatory and oxidative stress biomarkers, in older women and to evaluate whether RT induced adaptations on body composition, inflammatory and oxidative stress biomarkers are related to healthy adaptations in PhA.
Rheumatoid arthritis (RA) is a chronic autoimmune disease with metabolic alterations due mainly by the liberation of catabolic cytokines leading to changes in body composition as rheumatoid cachexia. Dynamic exercise (DE) has demonstrated to improve muscular, strength and joint function as well as inflammatory process. Also, a diet focused on the consumption of certain fatty acids like the Mediterranean is recommended to reduce inflammation. The aim of this study is to assess the effect of a dynamic exercise program in combination with a Mediterranean diet in strength, joint mobility and disease activity in women with RA.
The HEPAFIT Study aims to examine whether a 6-months physical education program has benefits on hepatic metabolism and cardiovascular health as well as on selected physical fitness and mental health outcomes among adolescent overweight/obese from Bogota, Colombia.
Research has shown that body composition is a key component of health and future disease risk. Being overweight and obese is associated with a higher body fat composition, and a greater risk of developing type II diabetes and heart disease. The location where fat is stored in the body is becoming increasingly recognised an important predictor of risk, with extra fat around the abdomen and waist (referred to as the android pattern of fat distribution or 'apple' shape) thought to increase your disease risk than storing fat around the thighs and buttocks (gynoid pattern of fat distribution or 'pear' shape). As a result, there is significant interest in techniques to accurately monitor and detect changes in body composition, and also physiological and lifestyle factors which influence body fat, lean tissue mass and bone mineral density. This cross sectional human study will look at how physiological, behavioural and genetic factors relate to total body composition in 1,196 healthy men and women aged between 18 and 70 years. Interested applicants will be invited to attend for a single visit at the Hugh Sinclair Unit of Human Nutrition at the University of Reading. This visit lasts around two hours and includes noninvasive measures of body composition (bio-electrical impedance and dual energy x-ray absorptiometry), arterial stiffness and fasting measures of metabolic health. Diet and physical activity will then be monitored over a four day period using diet and activity diaries, and an activity monitor. The findings from this study will contribute to the evidence base on how subject characteristics influence body composition and inform on the design of future human studies on body composition methodology.
Dietary factors during infancy, e.g. high intakes of protein, fast carbohydrates and saturated fat increase the risk of adult obesity, type 2 diabetes and hypertension. However, current dietary recommendations to infants are based on traditions and experiences whereas research is basically lacking. Towards the end of the first year of life the infant will normally become increasingly suspicious towards fruits and vegetables. However, these foods are an important part of healthy eating. When and how these food items should be introduced into the diet of young children is unclear. New Nordic Diet, an initiative from the Nordic Council of Ministers calls for a larger intake of fruits, vegetables, whole grain, fish and game. In adults such diet improves weight and biomarkers of insulin resistance and cardiovascular disease. Since dietary preferences are founded early in life it is logical to introduce such a diet already when the child is starting complementary foods. In a randomized controlled study from 6 mo of age, we want to explore if a Nordic complementary diet with lower protein intake, more vegetable fats and a systematic introduction of fruits and greens will improve body composition, metabolic biomarkers, the composition of faecal microbiota (associated with obesity), cognitive development and the consumption of foods that can lay the foundation for better long-term diet. If the study has the expected results, these will have a direct impact on the dietary habits of Swedish children during infancy and childhood and thus their long-term health.
The purpose of this prospective cohort study is to investigate breast-milk and breastfeeding among infants who are exclusively and partially breastfed at 6 months of age in terms of characteristics that are hypothesised to contribute to growth and development of body composition in infancy. The scientific originality lies in the simultaneous sampling of multiple factors that are believed to contribute to growth and development of body composition in infancy, i.e. energy content of breast-milk, metabolism-regulating hormones in breast-milk, infant temperament and appetite. The selection of two predefined study groups, i.e. infants exclusively breastfed until 6 months of age and infants given complementary foods in addition to breast-milk from 3-4 months of age, gives the opportunity to describe, and perhaps up to some point compare, what now is described by the World Health Organization and in official Icelandic infant recommendations as "optimal feeding" and what studies have suggested is "common feeding" in many countries. The methods are carefully chosen, i.e. appropriate and non-invasive isotopes and validated questionnaires are used. To our knowledge, no study has reported breast-milk composition in exclusively vs. partially breastfed infants.
Purpose: To evaluate the effects of replacing breakfast with a high protein, high fat, high fiber meal replacement in overweight individuals, on body composition. Participants: Healthy, overweight and obese individuals (ages 18-45 yrs) with no history of disease. Procedures (methods): In a randomized control intervention, subjects will complete 5 different testing sessions (pre-screening, 2 baseline testing sessions, and 2 post testing sessions) as well as an 8 week intervention period. Pre-screening will include written informed consent, health history questionnaire, nutrition analysis, and baseline anthropometric measures. Baseline testing will be split into two sessions and include measurements of resting metabolic rate (RMR), body composition, blood and saliva hormones, mood, satiety, and health related quality of life questionnaires, and a cardiorespiratory fitness assessment. Subjects will be randomly assigned to treatment (8 week supplementation with meal replacement to be taken at breakfast) and control groups (continue normal eating habits) with 4 electronic correspondences throughout the supplementation period. All measures will be repeated in two post-testing sessions.
This study evaluates the effect of intermittent calorie restriction versus continued calorie restriction on weight loss, gene expression profile of subcutaneous adipose tissue and abdominal fat distribution.
Tobacco smoke is probably the single most significant source of toxic chemicals that humans are exposed to. Smoking is associated with a variety of pathological conditions such as cardiovascular and pulmonary diseases. In addition to the known harmful effects of cigarette smoking, several epidemiological studies identified tobacco use as a risk factor for sarcopenia, the loss of skeletal muscle mass and strength with advancing age. Previous studies examined skeletal muscles of smokers in comparison with muscles of non-smokers and found structural and metabolic damage in muscles of smokers. Quitting of smoking is known to be associated with weight gain. A previous study examined the effects of smoking cessation on body composition of post-menopausal women using dual-energy x-ray absorptiometry (DEXA). It was found that women who successfully quit smoking for a period of 16 months have significantly increased their body weight, fat mass, muscle mass and functional muscle mass in comparison with non-quitters women. For the first time, it was shown that smoking cessation is associated with an increase of functional muscle mass. Yet, the effects of quitting of smoking on muscle mass and muscle functional capabilities of younger subjects remain unclear. Therefore, we aim to investigate the effects of smoking cessation on muscle mass, muscle function and strength in heavy smoker's subjects. Our findings may shed light on the beneficial effects of smoking cessation regarding the status and function of skeletal muscle in heavy smokers and as a possible strategy to prevent or delay the progression of sarcopenia. Research hypothesis: Smoking cessation among adult heavy smokers will lead to increase in skeletal muscle mass and improvement of muscle function and strength compared with continued smokers.
The purpose of this study is to determine if physical exercise reduces the adverse changes in adipose tissue metabolism and insulin sensitivity that occurs in women during the menopausal transition.