View clinical trials related to Exercise Training.
Filter by:Participants who train at The Micheli Center for Sports Injury Prevention, will undergo testing of muscular strength, range of motion, flexibility, aerobic capacity and muscular endurance. They will complete training with a certified trainer and injury prevention specialist until their specific goals are meet. Upon completion of training, they will fill out an injury questionnaire every three months for five to ten years.
Previous research is equivocal concerning if high intensity interval training is viewed as more aversive versus moderate exercise. Our data in active men and women showed that interval training is viewed as more enjoyable than higher volume moderate exercise.
This project aims to evaluate, in recent post-acute myocardial infarction (AMI) patients on dual antiplatelet therapy, the impact of regular exercise training on platelet aggregability and the correlation between the level of platelet aggregability and muscle sympathetic nerve activity (MSNA).
This study seeks to examine the effectiveness of training while in a hyperoxic-hyperbaric environment for exercise performance at altitude. Subjects will complete a short, high-intensity interval training (HIT) program inside the hyperbaric chamber.Before and after this training phase, all subjects will be tested for maximum aerobic capacity at a simulated high altitude of 15,000ft in a hypobaric chamber, as well as for molecular markers of mitochondrial oxidative capacity in a skeletal muscle biopsy. A group of individuals of similar characteristics completing this training program in a normoxic-normobaric environment will serve as a control.
The aims of this clinical trial are to assess the impacts on vascular function tests and circulating biomarkers of a short-term (12-week) low-to-median intensity exercise training or ARBs treatment in patients with DM and hypertension.
The benefits of exercise training in heart failure are well established. Its effects, however, have not been evaluated in Chagas cardiomyopathy (ChC). The investigators hypothesis is that the exercise training may improve functional capacity, quality of life (QoL), and reduce brain natriuretic peptide (BNP) levels in patients with ChC.
Lung or combined heart-lung transplantation represents an established treatment strategy for patients with end-stage lung disease. Transplantation results in an increased exercise capacity, a better quality of life and - depending on the pulmonary disease - a prolonged life compared to the natural course of the pulmonary disease. However, even after successful organ transplantation, patients realise the often inflated, unrealistic character of their previous expectations due to their continuing dependence on medication, regular control examinations and a higher risk of infections and allograft rejections. Patients have to cope with erupting demands in family, social and work life. It becomes evident that their lives have changed forever. In this context, limitations in mental health like depression and reduced quality of life (QoL) as well as diminished compliance may emerge or even persist. By five years post-transplant, about one-half of the patients meet the criteria of an anxiety disorder. Symptoms of a clinically relevant depression or mood disorder occur in 10 to 15 % of lung transplant patients. In addition, patients after lung transplantation are often in a poor physical condition and only hold a reduced functional status. Surgery itself, a prolonged weaning period during mechanical ventilation, sepsis, and especially the immunosuppressive medication may long-ranging or permanently limit physical activity, further reducing muscle mass and bodily function. Some positive effects of either psychological coping skills training or supervised exercise therapy after lung or heart-lung transplantation on QoL and functional status have been described in very few existing pilot studies with small numbers of patients and only short-term follow-up. In addition, although clear evidence points to a mutual amplifying effect of both psychological training and exercise therapy in patients coping with chronic disease, no such study has yet been conducted in the transplantation field. Therefore, the aim of the investigators randomised controlled study is to prove the differential benefit of a multi-modal resource-activating behavioural training programme combined with an intensified exercise training programme on functional status as well as on QoL in a four-armed design. The investigators hypotheses are: (H1) The multimodal resource-activating behavioural training programme will show better out-comes in the measures of global health-related QoL compared to a relaxation group. (H2) Participants in the intensified anaerobic exercise training will have better outcomes in the measures of exercise-related variables and lung function than the group with moderate aerobic exercise training. (H3) Participants in the behavioural intervention programme and the intensified exercise training will have better outcomes in the measures of global health-related QoL and exercise-related variables compared to the other groups.