View clinical trials related to Exercise Training.
Filter by:This pilot study aims to investigate the effects of 8-week SMARTfit training versus conventional physical training on motor function, cognition and brain functional connectivity in individuals with PD. The investigators hypothesize that clinical and physical performance will improve after SMARTfit training more than after conventional physical training.
The impact of blood flow restriction (BFR) on exercise and hemodynamic responses will be studied. The use of BFR will be studied during yoga and low-intensity aerobic exercise in healthy subjects with no history of chronic illness ranging from 18-40 years of age. This study will evaluate several conditions related to cardiovascular physiology in order to determine the safety and efficacy of this type of exercise training. First, the effects of two distinct types of BFR cuffs (BStrong and Hokanson) will be studied during low-intensity aerobic exercise on vascular function. Second, the effect of yoga will be studied with and without the use of BStrong bands on vascular function. Outcome measures include acute effects on endothelial function i.e. flow-mediated dilation, arterial stiffness, beat-by-beat blood pressure, heart rate, RPE (rate of perceived exertion), and blood lactate. For this intervention, the BFR cuffs will be used during exercise to evaluate its safety and efficacy. Since BFR is becoming a widely popular method of exercise, it is important to study its safety and hemodynamic effects.
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.