A significant body of evidence supports the protective role of exercise training (ET) in
cardiovascular diseases, skeletal muscle dystrophies, several types of cancer, Alzheimer …

Growing evidence has demonstrated exercise as an effective way to promote cardiovascular
health and protect against cardiovascular diseases However, the underlying mechanisms of …

SUMMARY 1 Maximal lactate steady state (MLSS) corresponds to the highest blood lactate
concentration (MLSSc) and workload (MLSSw) that can be maintained over time without …

MiRNAs regulate cardiac development, hypertrophy, and angiogenesis, but their role in
cardiac hypertrophy (CH) induced by aerobic training has not previously been studied …

Aerobic exercise training leads to a physiological, nonpathological left ventricular
hypertrophy; however, the underlying biochemical and molecular mechanisms of …

This study was designed to examine whether the mTOR signaling pathway would respond
to long-term different intensity exercises and to observe the impact of exercise upon possible …

Among the molecular, biochemical and cellular processes that orchestrate the development
of the different phenotypes of cardiac hypertrophy in response to physiological stimuli or …

Exercise training-induced cardiac hypertrophy occurs following a program of aerobic
endurance exercise training and it is considered as a physiologically beneficial adaptation …

Background The role of physical exercise in the prevention and treatment of cardiovascular
diseases has been well described, however, elevations in cardionecrotic biomarkers after …

Purpose Swimming exercise leads to a nonpathological, physiological left ventricular
hypertrophy. However, the potential molecular mechanisms are unknown. We investigated …