View clinical trials related to Exercise.
Filter by:The purpose of the present project is to investigate the physiological effects of two different types of exercise training in COPD patients. The patients will be examined before, during and after 8 weeks of training to evaluate the effect of different types of skeletal muscle stimulation on health related quality of life, 6 min walking distance, flow mediated dilation, and histological properties of skeletal muscle cells, regarding oxidative capacity, fiber type, purinergic receptor amounts and measures of systemic inflammation. The study will test the hypothesis that: Resistance training is superior to endurance training in patients with COPD
Objectives: 1) Determine the effect of 4-weeks of high intensity interval training (HIIT) and free acid form β-Hydroxy-β-methylbutyrate (HMB-FA) on VO2peak, lactate threshold, critical power, anaerobic working capacity and neuromuscular economy in a population of endurance trained individuals. 2) Determine the effect of 4-weeks of HIIT and HMB-FA on changes in skeletal muscle physiological cross-sectional area (PCSA=Volume/Fascicle length) and muscle quality (MQ=echo intensity) in the rectus femoris and vastus lateralis. Subjects: Fifty males and females between the ages of 18 - 35 will be recruited to participate in this study. Subject will be randomized to one of three groups: a control group (CTL), an HIIT only group (HIIT) or a group which will take the amino acid metabolite HMB and perform HIIT (HMB-HIIT). Individuals assigned to CTL will undergo baseline testing. They will then be asked to continue their normal exercise routine for 4 weeks and will undergo post-testing after this time period. Study Protocol: Two testing sessions, on nonconsecutive days, will occur at least 72 hours prior to the start of the training period. The same testing protocols will be repeated at the end of the 4-week training period. Testing protocols include performance testing (VO2peak, lactate threshold, critical power, anaerobic working capacity and neuromuscular economy) and anthropometric measures (physiological cross-sectional area and muscle quality). The training protocol for individuals in the experimental groups will consist of 4-weeks of high intensity interval training with three sessions per week on an electronically braked cycle ergometer. Individual work -loads will be calculated based on the outcomes from each participant's preliminary testing.
The aim of this study was to evaluate the influence of a fitness program from the application of Pilates on lung function, thoracoabdominal mobility and respiratory muscle strength in women.
The purpose of this research study is to test whether differing levels of physical fitness affects patterns of motor dexterity and brain activity that have been shown to differ due to aging. Testing will take place at the Atlanta VA Medical Center and at Emory University. Participants will be healthy adults within the target age range of 60-85 for the study. The study will require multiple visits over 15 months. There will be about 64 people volunteering for this study.
The investigators will simulate the conditions of a working, helmeted diver by using exercising, "head out" immersed subjects to test the following hypotheses: 1. An algorithm can be developed which predicts cognitive performance in immersed exercising divers, based on the exhaled carbon dioxide (PETCO2) and the diver's inspired partial pressures of oxygen and nitrogen (PIO2 and PIN2). 2. PETCO2 using mass spectrometry is an accurate estimate of arterial carbon dioxide (PaCO2) at rest and during immersed exercise and can be used as a PaCO2 surrogate at levels exceeding 50 mmHg and depths up to 158 fsw (gas density 6.4 g/l, similar to 165 fsw density of 6.8 g/l).
The aim of this study is to investigate the effect of remote ischemic preconditioning on biochemical and functional indices of cardiac function induced by a 30 km run in healthy trained long distance runners.
Beta-alanine, as a method to increase muscle carnosine, has been shown to enhance muscle buffering capacity and delay fatigue. Various fatigue tests have been utilized to examine the effectiveness of beta-alanine supplementation. The physical working capacity test has been used to show significant increases in physical working capacities following supplementation. The physical working capacity tests were originally developed by Moritani et al. 1981 and Devries et al. 1982 to measure the point of onset of muscular fatigue. It is hypothesized that beta-alanine will increase physical working capacity at heart rate threshold, thereby signifying a delay in fatigue.
Androgen Deprivation Therapy (ADT) is standard treatment for locally advanced or advanced Prostate Cancer (PC). The musculoskeletal toxicity associated with ADT is well established, leading to a decrease in muscle mass, increased fat percentage, weight gain, sexual dysfunction and increased risk of depression, fatigue, diabetes, cardiovascular disease and reduced quality of life. Numerous studies have shown an association between physical activity, physical capacity and quality of life in cancer patients and recent epidemiological research suggest that regular, moderate-intensity physical activity may have a positive effect on survival in men with prostate cancer. Within exercise physiology there is new evidence pointing to recreational soccer as a unique form of intermittent exercise that effectively stimulates aerobic and anaerobic energy delivery systems, leading to beneficial musculoskeletal, metabolic and cardiovascular adaptations of importance for health. It is our overall hypothesis that 12 weeks of recreational soccer training 2-3 times per week will improve the health profile of PC patients receiving ADT treatment.
This study evaluated the efficacy of a 12-week Internet intervention to help sedentary older adults adopt and maintain an exercise regimen. A total of 368 men and women over 55 years of age (x = 60.3; SD 4.9 ) were recruited and screened on line. They randomized into treatment and control groups and assessed at pre-test, 12 weeks, and at six months. The multivariate model was significant at posttest (p = .001; large effect size) and at six months (p = .001; medium effect size). At posttest, intervention participation showed significant improvement on 13 of 14 outcome measures compared to the control group. At six months, treatment group participants were found to maintain large gains compared to the Ctrl participants on all 14 measures.
Rationale: Proteins released from muscle during and shortly after exercise, often referred to as myokines, may be central to our understanding of the cross-talk during and after exercise between skeletal muscles and other organs, in particular the liver. So far only a few myokines are identified (e.g. IL-6, IL-8, IL-15, TNF-alpha). Taking into account the role of these several known myokines in developing insulin resistance, revealing new putative myokines might provide valuable information and a direction for future research on the pathogenesis and treatment of type 2 diabetes mellitus. Objective: The objective of the present study is to identify novel myokines, expression of which is altered in skeletal muscle after a single bout of exercise. Study design: experimental study. Study population: Ten healthy, male subjects between 40 and 60 years of age and BMI < 30 kg/m2, will participate in this study. Intervention: A single exercise bout that consists of one hour one-legged cycling on a adapted recumbent cycle ergometer at a submaximal rate. The non-exercising leg will serve as control for the exercising leg. Main study outcomes: Main study outcomes include upregulation of genes in skeletal muscle after exercise (with a focus on genes encoding myokines) and changes of blood plasma levels of selected proteins after exercise.