View clinical trials related to Muscle Hypertrophy.
Filter by:The purpose is to examine the effects of time-restricted eating (TRE; consuming all calories within an 8-hour period each day) vs. normal eating (CON; consuming same kcals and protein as TRE, but during a 10-13 hr eating window each day) during 8 weeks of resistance exercise on body composition and muscle mass (whole muscle and single fiber), muscular performance, anabolic protein signaling, single muscle fiber characteristics, and the gut microbiome in well-trained young men and women.
Recent research suggests that performing resistance exercise training with relatively light loads is equally as effective at increasing muscle mass and muscle strength as performing resistance exercise training with relatively heavy loads. Whether or not performing resistance exercise with relatively heavy loads or light loads is equally as effective between the upper- and lower-body within the same individual has never been investigated. Given the substantial individual variance in resistance exercise training-induced changes in muscle mass and strength, this study is designed to quantify the relative influence that extrinsic training variables (e.g., load), as opposed to intrinsic muscle-based predisposition, has on resistance training-induced changes in muscle mass and muscle strength.
How much weight an individual lifts per workout does not dictate the relative increase in muscle size the individual gains following weeks of training, which is contrary to current strength training dogma. Specifically, researchers have concluded that so long as an individual performs resistance exercise with maximum effort, it is not necessary to lift with relatively heavy loads. However, other laboratories, on the basis of surface electromyography measurements, have challenged the thesis that lighter loads can result in the hypertrophy of larger, type II muscle fibres. Therefore, the purpose of this study was to combine surface electromyography measurements with direct measurements of muscle fibre activation to see if muscle fibre activation was truly dependent on load. The investigators hypothesized that all muscle fibres would be activated when the resistance exercise was performed with maximal effort.