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How many contractions are required to assess the electromyographic amplitude versus isometric force relationship?

By Matt S. Stock, Alexander S. Drusch and Brennan J. Thompson

Abstract

Studies have demonstrated that the electromyographic (EMG) amplitude versus submaximal isometric force relationship is relatively linear. The purpose of this investigation was to determine the minimum number of contractions required to study this relationship. Eighteen men (mean age = 23 years) performed isometric contractions of the leg extensors at 10–90% of the maximum voluntary contraction (MVC) in 10% increments while surface EMG signals were detected from the vastus lateralis and vastus medialis. Linear regression was used to determine the coefficient of determination, slope coefficient, and y-intercept for each muscle and force combination with successively higher levels included in the model (i.e., 10–30%, … 10–90% MVC). For the slope coefficients, there was a main effect for force combination (P \u3c .001). The pairwise comparisons showed there was no difference from 10–60% through 10–90% MVC. For the y-intercepts, there were main effects for both muscle (vastus lateralis [4.3 μV RMS] \u3e vastus medialis [−3.7 μV RMS]; P = .034) and force combination (P \u3c .001), with similar values shown from 10–50% through 10–90% MVC. The linearity of the absolute EMG amplitude versus isometric force relationship for the vastus lateralis and vastus medialis suggests that investigators may exclude high force contractions from their testing protocol

Topics: EMG, Muscle, Motor unit, Kinesiology
Publisher: Hosted by Utah State University Libraries
Year: 2014
OAI identifier: oai:digitalcommons.usu.edu:hper_facpub-1394
Provided by: DigitalCommons@USU
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