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Sex‐related differences in motor unit behavior are influenced by myosin heavy chain during high‐ but not moderate‐intensity contractions

Alex A. Olmos, Adam J. Sterczala, Mandy E. Parra, Hannah L. Dimmick, Jonathan D. Miller, Jake A. Deckert, Stephanie A. Sontag, Philip M. Gallagher, Andrew C. Fry, Trent J. Herda, Michael A. Trevino

2023Acta Physiologica17 citationsDOIOpen Access PDF

Abstract

Abstract Aims Motor unit recruitment and firing rate patterns of the vastus lateralis (VL) have not been compared between sexes during moderate‐ and high‐intensity contraction intensities. Additionally, the influence of fiber composition on potential sex‐related differences remains unquantified. Methods Eleven males and 11 females performed 40% and 70% maximal voluntary contractions (MVCs). Surface electromyographic (EMG) signals recorded from the VL were decomposed. Recruitment thresholds (RTs), MU action potential amplitudes (MUAP AMP ), initial firing rates (IFRs), mean firing rates (MFRs), and normalized EMG amplitude (N‐EMG RMS ) at steady torque were analyzed. Y ‐intercepts and slopes were calculated for MUAP AMP , IFR, and MFR versus RT relationships. Type I myosin heavy chain isoform (MHC) was determined with muscle biopsies. Results There were no sex‐related differences in MU characteristics at 40% MVC. At 70% MVC, males exhibited greater slopes ( p = 0.002) for the MUAP AMP , whereas females displayed greater slopes ( p = 0.001–0.007) for the IFR and MFR versus RT relationships. N‐EMG RMS at 70% MVC was greater for females ( p < 0.001). Type I %MHC was greater for females ( p = 0.006), and was correlated ( p = 0.018–0.031) with the slopes for the MUAP AMP , IFR, and MFR versus RT relationships at 70% MVC ( r = −0.599–0.585). Conclusion Both sexes exhibited an inverse relationship between MU firing rates and recruitment thresholds. However, the sex‐related differences in MU recruitment and firing rate patterns and N‐EMG RMS at 70% MVC were likely due to greater type I% MHC and smaller twitch forces of the higher threshold MUs for the females. Evidence is provided that muscle fiber composition may explain divergent MU behavior between sexes.

Topics & Concepts

Motor unitIsometric exerciseElectromyographyInternal medicineCardiologyMotor unit recruitmentMedicineFast twitch muscleMyosinVastus lateralis muscleAnatomyEndocrinologyAnimal scienceBiologyPhysical medicine and rehabilitationSkeletal muscleBiophysicsMuscle activation and electromyography studiesMotor Control and AdaptationSports Performance and Training
Sex‐related differences in motor unit behavior are influenced by myosin heavy chain during high‐ but not moderate‐intensity contractions | Litcius