The effects of velocity on peak torque and neuromuscular responses during eccentric muscle actions

Ethan C. Hill; Terry J. Housh; Clayton L. Camic; Nathaniel D. M. Jenkins; Cory M. Smith; Kristen C. Cochrane; Joel T. Cramer; Richard J. Schmidt; Molly M. Monaghan; Glen O. Johnson

doi:10.3233/IES-150591

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The effects of velocity on peak torque and neuromuscular responses during eccentric muscle actions

Journal article

Peer reviewed

The effects of velocity on peak torque and neuromuscular responses during eccentric muscle actions

Ethan C. Hill, Terry J. Housh, Clayton L. Camic, Nathaniel D. M. Jenkins, Cory M. Smith, Kristen C. Cochrane, Joel T. Cramer, Richard J. Schmidt, Molly M. Monaghan and Glen O. Johnson

Isokinetics and exercise science, Vol.24(1), pp.1-6

01/01/2016

DOI: 10.3233/IES-150591

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Abstract

BACKGROUND: Previous investigations have examined the torque and neuromuscular responses to maximal concentric and isometric muscle actions. The literature, however, has paid less attention to the effects of performing maximal eccentric muscle actions. Furthermore, the available information in this regard is contradictory. OBJECTIVE: The purpose of the present investigation was to examine eccentric, isokinetic peak moment (PMe), electromyographic (EMG) amplitude (AMP), EMG mean power frequency (MPF), mechanomyographic (MMG) AMP, and MMG MPF patterns of responses to repeated, maximal, eccentric muscle actions at 60, 120, and 180 degrees/s. METHODS: Twelve resistance-trained men visited the laboratory on three occasions (separated by >= 72 h) and performed 30 repeated, maximal, eccentric muscle actions of the dominant leg extensors on an isokinetic dynamometer at randomly ordered velocities of 60, 120, and 180 degrees/s. RESULTS: There were no changes (p > 0.05) across the 30 repeated, eccentric muscle actions for PMe, MMG AMP, and EMG MPF for any of the velocities. There were, however, increases in EMG AMP and decreases in MMG MPF for each velocity. CONCLUSIONS: The decrease in MMG MPF, which reflects the global firing rate of the activated motor units, in conjunction with the lack of change in MMG AMP, which reflects motor unit recruitment, suggested that the increase in EMG AMP was due to motor unit synchronization.

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Details

Title: Subtitle: The effects of velocity on peak torque and neuromuscular responses during eccentric muscle actions
Creators: Ethan C. Hill - University of Nebraska–Lincoln
Terry J. Housh - University of Nebraska–Lincoln
Clayton L. Camic - University of Wisconsin–La Crosse
Nathaniel D. M. Jenkins - University of Nebraska–Lincoln
Cory M. Smith - University of Nebraska–Lincoln
Kristen C. Cochrane - University of Nebraska–Lincoln
Joel T. Cramer - University of Nebraska–Lincoln
Richard J. Schmidt - University of Nebraska–Lincoln
Molly M. Monaghan - University of Wisconsin–La Crosse
Glen O. Johnson - University of Nebraska–Lincoln
Resource Type: Journal article
Publication Details: Isokinetics and exercise science, Vol.24(1), pp.1-6
DOI: 10.3233/IES-150591
ISSN: 0959-3020
eISSN: 1878-5913
Publisher: Ios Press
Number of pages: 6
Language: English
Date published: 01/01/2016
Academic Unit: Center for Social Science Innovation; Injury Prevention Research Center; Health, Sport, and Human Physiology
Record Identifier: 9984259397902771

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