2004) Muscle hypertrophy
following 5-week resistance training using a non-gravity-dependent exercise system.
Up to this point, several conclusions can be determined from the previous studies: 1) Resistance training increases protein synthesis as well as protein degradation, 2) This increase in protein synthesis is overshadowed by a corresponding elevation in protein degradation, resulting in a net negative protein balance, 3) The intake of dietary protein and/or amino acids after completion of a resistance training bout augments a net positive protein balance, resulting in the potential for skeletal muscle hypertrophy
over time (Cribb and Hayes, 2006; Cribb et al.
On the other hand, activation of the Akt/mTOR/p70S6K pathway gradually increased after more than 1 week, and the activation of these proteins, especially p70S6K, correlated with the amount of muscle hypertrophy
(Bodine et al.
Therefore, it seems that muscle hypertrophy
plays an important role in these track and field events because it determines the absolute muscle cross sectional area occupied by type II muscle fibres, which most probably contribute significantly to such a fast and powerful performance.
Contrary to our findings, Young and Young (2007) reported that creatine supplementation did not augment muscle hypertrophy
or force production in rat.
2001) ANG II is required for optimal overload-induced skeletal muscle hypertrophy
2010) reported resistance training (70% 1 RM, 4 sets of 10 repetitions, exercised twice weekly for 6 weeks) under hypoxic conditions improves muscle strength and induces muscle hypertrophy
faster than under normoxic conditions.
30) In this regard, although not everything is known about the molecular cell signaling that leads to muscle hypertrophy
responses, some plausible mechanisms have been suggested.
However, the analysis has clearly identified the risk of single muscle hypertrophy
The acute satellite cell response and skeletal muscle hypertrophy
following resistance training.
It is believed, according to the literature review, that chronic training using this same protocol could cause muscle hypertrophy
at the same muscle regions as shown in the study by Wakahara et al.
The mechanisms of muscle hypertrophy
and their application to resistance training.
occurs when muscle cells increase in size as a result of an increased workload.
Increase in intracompartmental pressure seen in muscle hypertrophy
or chronic exertional compartment syndrome (CECS) potentiates herniation .
Here we report a Chinese male with HCM and mild skeletal muscle hypertrophy
who was identified with a novel FHL1 mutation.