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Alpha band oscillations in common synaptic input are explanatory of the complexity of isometric knee extensor muscle torque signals

Fennell, Christopher, Mauger, Alexis R., Hopker, James G. (2024) Alpha band oscillations in common synaptic input are explanatory of the complexity of isometric knee extensor muscle torque signals. Experimental Physiology, 109 (11). pp. 1938-1954. ISSN 0958-0670. (doi:10.1113/ep092031) (KAR id:106836)

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Abstract

We investigated whether the strength of oscillations in common synaptic input was explanatory of knee extensor (KE) torque signal complexity during fresh and fatigued submaximal isometric contractions, in adults aged from 18 to 90 years. The discharge times of motor units were derived from the vastus lateralis muscle of 60 participants using high-density surface EMG, during 20 s isometric KE contractions at 20% of maximal voluntary contraction, performed before and after a fatiguing repeated isometric KE contraction protocol at 60% of maximal voluntary contraction. Within-muscle coherence Z-scores were estimated using frequency-domain coherence analysis, and muscle torque complexity was assessed using multiscale entropy analysis and detrended fluctuation analysis. Alpha band (5–15 Hz) coherence was found to predict 23.1% and 31.4% of the variance in the complexity index under 28-scales (CI-28) and detrended fluctuation analysis α complexity metrics, respectively, during the fresh contractions. Delta, alpha and low beta band coherence were significantly increased due to fatigue. Fatigue-related changes in alpha coherence were significantly predictive of the fatigue-related changes in CI-28 and detrended fluctuation analysis α. The fatigue-related increase in sample entropy from scales 11 to 28 of the multiscale entropy analysis curves was significantly predicted by the increase in the alpha band coherence. Age was not a contributory factor to the fatigue-related changes in within-muscle coherence and torque signal complexity. These findings indicate that the strength of alpha band oscillations in common synaptic input can explain, in part, isometric KE torque signal complexity and the fatigue-related changes in torque signal complexity.

Item Type: Article
DOI/Identification number: 10.1113/ep092031
Uncontrolled keywords: common synaptic input, muscle fatigue, muscle torque, physiological complexity
Subjects: Q Science > QP Physiology (Living systems)
Divisions: Divisions > Division of Natural Sciences > Sport and Exercise Sciences
Funders: University of Kent (https://ror.org/00xkeyj56)
Depositing User: James Hopker
Date Deposited: 09 Aug 2024 16:40 UTC
Last Modified: 08 Nov 2024 11:37 UTC
Resource URI: https://kar.kent.ac.uk/id/eprint/106836 (The current URI for this page, for reference purposes)

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