Neuromuscular electrical stimulation training induces atypical adaptations of the human skeletal muscle phenotype: a functional and proteomic analysis.

@article{Gondin2011NeuromuscularES,
  title={Neuromuscular electrical stimulation training induces atypical adaptations of the human skeletal muscle phenotype: a functional and proteomic analysis.},
  author={Julien Gondin and Lorenza Brocca and Elena Bellinzona and Giuseppe D’Antona and Nicola A. Maffiuletti and Danilo Miotti and Maria Antonietta Pellegrino and Roberto Bottinelli},
  journal={Journal of applied physiology},
  year={2011},
  volume={110 2},
  pages={
          433-50
        }
}
The aim of the present study was to define the chronic effects of neuromuscular electrical stimulation (NMES) on the neuromuscular properties of human skeletal muscle. Eight young healthy male subjects were subjected to 25 sessions of isometric NMES of the quadriceps muscle over an 8-wk period. Needle biopsies were taken from the vastus lateralis muscle before and after training. The training status, myosin heavy chain (MHC) isoform distribution, and global protein pattern, as assessed by… 
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Neuromuscular Electrical Stimulation Induces Skeletal Muscle Fiber Remodeling and Specific Gene Expression Profile in Healthy Elderly
TLDR
Data demonstrates that NMES is effective in producing physiological adaptation on Vastus Lateralis of active healthy elderly as well as providing new insights for further research on elderly who experienced muscle detriment for periodic or permanent immobility.
Variability in muscle adaptation to electrical stimulation.
TLDR
The MHC isoform distribution did not correlate with MFCV, thus implying that the proportion of different fibre types cannot be estimated from this electrophysiological variable, and the plasticity of the myosin heavy chain phenotype following neuromuscular electrical stimulation was investigated.
Development of a neuromuscular electrical stimulation protocol for sprint training.
TLDR
The development of a tolerable neuromuscular electrical stimulation protocol that induces skeletal muscle adaptations similar to those observed with sprint training is described, suggesting that NMES has the potential to bring the benefits of sprint exercise to individuals who are unable to tolerate traditional sprint training.
Lack of functional effects of neuromuscular electrical stimulation on skeletal muscle oxidative metabolism in healthy humans.
TLDR
Muscle hypertrophy induced by NMES could impair peripheral O(2) diffusion, possibly counterbalancing, in vivo, the fast-to-slow phenotypic changes that were observed in vitro, in a previous work, in the same subjects of the present study.
The effect of high-frequency neuromuscular electrical stimulation training on skeletal muscle properties in mice
TLDR
It is demonstrated that surface NMES induced muscle hypertrophy and instigated an improvement in the contractile properties of the TA muscle in mice, which appears to be suitable for the study of hypertrophic processes.
Individualized isometric neuromuscular electrical stimulation training promotes myonuclear accretion in mouse skeletal muscle
TLDR
A new mouse model of myonuclear accretion relying on the main function of skeletal muscles, i.e., force production in response to electrical stimuli, will be of utmost interest to further understand the role of MuSCs in skeletal muscle adaptations.
Functional and muscular effects of neuromuscular electrical stimulation in patients with severe COPD: a randomized clinical trial.
BACKGROUND The mechanisms through which neuromuscular electrical stimulation (NMES) training may improve limb muscle function and exercise tolerance in COPD are poorly understood. We investigated the
Effects of training intensity in electromyostimulation on human skeletal muscle
TLDR
Low-intensity NMES could increase MT, muscle fiber CSA, and muscle strength in healthy human skeletal muscles, however, the magnitude of increase is lower in low-intensity than in high- intensity NMES training.
Effect of neuromuscular electrical stimulation on skeletal muscle size and function in patients with breast cancer receiving chemotherapy.
TLDR
It is demonstrated that NMES induces muscle fiber hypertrophy and fiber type shifts in MHC II fibers, but had minimal effects on fiber contractility and promoted reductions in subsarcolemmal mitochondria.
Neuromuscular Electrical Stimulation: A New Therapeutic Option for Chronic Diseases Based on Contraction-Induced Myokine Secretion
TLDR
The current evidence supporting NMES as an effective physical exercise substitute for inducing myokine production and its potential applications in health and disease is reviewed.
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TLDR
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