Journal
JOURNAL OF APPLIED PHYSIOLOGY
Volume 116, Issue 10, Pages 1281-1289Publisher
AMER PHYSIOLOGICAL SOC
DOI: 10.1152/japplphysiol.01015.2013
Keywords
neuromuscular electrical stimulation; pulse duration; stimulation frequency; peripheral fatigue
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Funding
- Swiss Federal Institute of Sport Magglingen
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We compared the extent and origin of muscle fatigue induced by short-pulse-low-frequency [conventional (CONV)] and wide-pulse-high-frequency (WPHF) neuromuscular electrical stimulation. We expected CONV contractions to mainly originate from depolarization of axonal terminal branches (spatially determined muscle fiber recruitment) and WPHF contractions to be partly produced via a central pathway (motor unit recruitment according to size principle). Greater neuromuscular fatigue was, therefore, expected following CONV compared with WPHF. Fourteen healthy subjects underwent 20 WPHF (1 ms-100 Hz) and CONV (50 mu s-25 Hz) evoked isometric triceps surae contractions (work/rest periods 20: 40 s) at an initial target of 10% of maximal voluntary contraction (MVC) force. Force-time integral of the 20 evoked contractions (FTI) was used as main index of muscle fatigue; MVC force loss was also quantified. Central and peripheral fatigue were assessed by voluntary activation level and paired stimulation amplitudes, respectively. FTI in WPHF was significantly lower than in CONV (21,717 +/- 11,541 vs. 37,958 +/- 9,898 N.s P < 0,001). The reductions in MVC force (WPHF: -7.0 +/- 2.7%; CONV: -6.2 +/- 2.5%; P < 0.01) and paired stimulation amplitude (WPHF: -8.0 +/- 4.0%; CONV: -7.4 +/- 6.1%; P < 0.001) were similar between conditions, whereas no change was observed for voluntary activation level (P > 0.05). Overall, our results showed a different motor unit recruitment pattern between the two neuromuscular electrical stimulation modalities with a lower FTI indicating greater muscle fatigue for WPHF, possibly limiting the presumed benefits for rehabilitation programs.
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