View clinical trials related to Mitochondrial Biogenesis.
Filter by:This parallel-arm trial study investigates the effects of restricting arterial blood flow during cycling exercise on citrate synthase. Participants will be randomized to either a blood flow restricted or non-blood flow restricted exercise training group. Both groups will complete seven, 30-minute exercise sessions over a 14-day period.
This study examines the impact of exercise intensity on the 12-hour time-course of mitochondrial biogenic gene and protein expression in human skeletal muscle. Briefly, participants will perform two experimental sessions involving an acute bout of work-matched low- or high-intensity interval cycling exercise in a randomized crossover fashion, two weeks apart. Skeletal muscle biopsies will be obtained from the vastus lateralis (3 from each leg) before and 1, 3, 6, 9, and 12 hours post-exercise. Changes in the expression of various transcription factors and mitochondrial proteins will be examined at the mRNA and protein level to determine the time-course of changes in these factors differs between exercise protocols of different intensities.
This crossover study investigates the effects of restricting arterial blood flow during cycling exercise on PGC-1α and its upstream signalling pathways. In a randomized order, participants will exercise once for 30 minutes with restricted blood flow and then will exercise once for 30 minutes with no blood flow restriction.
This study will test if inhalation of Carbon Monoxide (CO) will increase the numbers of mitochondria in heart muscle. Mitochondria are the small components of muscle and other cells that convert fuel and oxygen to the easily usable forms of energy (ATP) that power all cell's activities. Adequate numbers of healthy mitochondria are essential to heart cell function. From animal and other studies we have reason to believe that breathing small amounts of CO will signal the body to increase the numbers of mitochondria in heart cells. We propose to test this theory in heart valve surgery patients by examining a small sample of heart tissue (from the right atrial appendage) that is routinely cut out during the preparation of the patient for cardio-pulmonary bypass and that would otherwise be discarded by the surgeon. Muscle samples from two groups of subjects will be compared. One group will breath CO and the other group will breath room air. If CO is effective, we should notice an increase in the numbers of mitochondria in the group that was exposed to CO compared to the group that breathed room air.