Resistance exercise training induces skeletal muscle hypertrophy, but repeated bouts
gradually attenuate this anabolic effect. Attenuation of mechanistic target of rapamycin …

The current dogma is that the muscle adaptation to resistance exercise is blunted when
combined with endurance exercise. The suggested mechanism (based on rodent …

The recovery period between bouts of exercise is one of the major factors influencing the
effects of resistance exercise, in addition to exercise intensity and volume. However, the …

Mechanistic target of rapamycin complex 1 (mTORC1) plays a central role in muscle protein
synthesis and repeated bouts of resistance exercise (RE) blunt mTORC1 activation …

The acute resistance exercise (RE)-induced phosphorylation of mTOR-related signaling
proteins in skeletal muscle can be blunted after repeated RE. The time frame in which the …

For over 10 years, we have known that the activation of the mammalian target of rapamycin
complex 1 (mTORC1) has correlated with the increase in skeletal muscle size and strength …

The regulation of cellular protein synthesis is a critical determinant of skeletal muscle growth
and hypertrophy in response to an increased workload such as resistance exercise. The …

Resistance training with eccentric contraction has been shown to augment muscle
hypertrophy more than other contraction modes do (ie, concentric and isometric contraction) …

Resistance training-induced muscle anabolism and subsequent hypertrophy occur most
rapidly during the early phase of training and become progressively slower over time …

Concurrent training, a combination of endurance (EE) and resistance exercise (RE)
performed in succession, may compromise the muscle hypertrophic adaptations induced by …