The role of the magnitude of muscle damage in hypertrophic responses

Abstract

It is not yet established whether muscle damage plays an important role in the chronic hypertrophic process in response to strength training in humans, since the magnitude of muscle damage is significantly attenuated throughout training sessions. Therefore, the aim of this study is investigate if the attenuation of muscle damage during training sessions reduces the rate of myofibrillar protein synthesis and activation of the intracellular mechanism of protein synthesis and, consequently, the magnitude of the hypertrophic response during 12 weeks of strength training in young men. It will be realized functional evaluations and muscle biopsies (before and immediately after the first, fifth and last training sessions) that will allow the analysis of the different magnitudes of muscle damage and their associated hypertrophic responses. The extent of damage will be assessed by quantification of maximum torque, sarcomeral Z-line integrity, disrupted desmin, ultrasound echo intensity. The rate of myofibrillar protein synthesis will be quantified through oral ingestion of deuterated water and muscle biopsies and the activation of hypertrophic mechanisms will be evaluated through the activation, proliferation and differentiation of satellite cells and myonuclei incorporation, and the responses of interleukin 15, fibroblast growth factor and growth factor induced by mechanical stress. The increase in muscle cross-sectional area will be evaluated both in whole muscle by the reconstruction technique of ultrasound images and in isolated fibers by histochemical analysis. Our hypothesis is that greater magnitudes of muscle damage (which will occur at the beginning of the training period) will induce a higher rate of myofibrillar protein synthesis and activation of the hypertrophic mechanism and with the course of training, the magnitude of damage will progressively be attenuated and the hypertrophic responses will also gradually decrease. (AU)