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Blood flow restriction increases motor unit firing rates and input excitation of the biceps brachii during a moderate-load muscle action

Alex A. Olmos, Tony R. Montgomery, Kylie N. Sears, B. Roth, Lyric D. Richardson, Taylor K. Dinyer-McNeely, Shane M. Hammer, Haley C. Bergstrom, Ethan C. Hill, Pasquale J. Succi, Sean M. Lubiak, Michael A. Trevino

2024Journal of Sports Sciences14 citationsDOI

Abstract

This study examined the effects of blood flow restriction (BFR) on motor unit (MU) behaviour of the biceps brachii (BB) during a single non-exhausting submaximal muscle action. Twenty adults performed maximal voluntary contractions (MVCs) of the elbow flexors, followed by an isometric trapezoidal muscle action at 40% MVC during BFR and control (CON) visits. Surface electromyographic signals recorded from the BB during the 40% MVCs were decomposed. Recruitment thresholds (RTs), MU action potential amplitudes (MUAPAMPS), initial firing rates (IFRs), mean firing rates (MFRs) at steady force, and normalized EMG amplitude (N-EMGRMS) were analysed. Y-intercepts and slopes were calculated for the MUAPAMP, IFR, and MFR vs. RT relationships. Y-intercepts for the IFR and MFR vs. RT relationships and N-EMGRMS increased during BFR (p < 0.05) collapsed across sex. The slopes for the IFR and MFR vs. RT relationships decreased during BFR (p < 0.05) collapsed across sex. The y-intercepts and slopes for the MUAPAMP vs. RT relationships were not different (p > 0.05) between treatments or sex. BFR during the 40% MVC increased IFRs, MFRs, and N-EMGRMS. However, the similar MUAPAMPS observed between treatments may suggest that a greater load is necessary to recruit additional MUs when performing a single submaximal short-duration muscle action with BFR.

Topics & Concepts

BicepsBlood flow restrictionMotor unitBiceps brachii musclePhysical medicine and rehabilitationMotor unit recruitmentBlood flowElectromyographyFlow (mathematics)MechanicsMedicineAnatomyPhysicsResistance trainingCardiologyPhysical therapyCardiovascular and exercise physiologyMuscle activation and electromyography studiesHeart Rate Variability and Autonomic Control