Eric M. Mosier scite author profile

It is suggested that firing rate characteristics of motor units (MUs) are influenced by the physical properties of the muscle. However, no study has correlated MU firing rates at recruitment, targeted force, or derecruitment with the contractile properties of the muscle in vivo. Twelve participants (age = 20.67 ± 2.35 yr) performed a 40% isometric maximal voluntary contraction of the leg extensors that included linearly increasing, steady force, and decreasing segments. Muscle biopsies were collected with myosin heavy chain (MHC) content quantified, and surface electromyography (EMG) was recorded from the vastus lateralis. The EMG signal was decomposed into the firing events of single MUs. Slopes and y-intercepts were calculated for 1) firing rates at recruitment vs. recruitment threshold, 2) mean firing rates at steady force vs. recruitment threshold, and 3) firing rates at derecruitment vs. derecruitment threshold relationships for each subject. Correlations among type I %MHC isoform content and the slopes and y-intercepts from the three relationships were examined. Type I %MHC isoform content was correlated with MU firing rates at recruitment (y-intercepts: r = -0.577; slopes: r = 0.741) and targeted force (slopes: r = 0.853) vs. recruitment threshold and MU firing rates at derecruitment (y-intercept: r = -0.597; slopes: r = 0.701) vs. derecruitment threshold relationships. However, the majority of the individual MU firing rates vs. recruitment and derecruitment relationships were not significant (P > 0.05) and, thus, revealed no systematic pattern. In contrast, MU firing rates during the steady force demonstrated a systematic pattern with higher firing rates for the lower- than higher-threshold MUs and were correlated with the physical properties of MUs in vivo.

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MAPK, androgen, and glucocorticoid receptor phosphorylation following high-frequency resistance exercise non-functional overreaching

Nicoll

Fry

Mosier

et al. 2019

Eur J Appl Physiol

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The Effects of Training Status and Muscle Action on Electromyographic Amplitude of the Vastus Lateralis

Trevino

Mosier

Herda

2015

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The change in motor unit firing rates at de‐recruitment relative to recruitment is correlated with type I myosin heavy chain isoform content of the vastus lateralis in vivo

et al. 2015

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The majority of the motoneuron pool had greater FRDEREC than FRREC , however, individuals with higher type I %MHC had a greater propensity to have MUs with FRREC > FRDEREC as indicated by the slope values. Overall, the contractile properties of the muscle (MHC) could partially explain the differences in MU firing rates at de-recruitment relative to recruitment. Thus, suggesting the fatigability of the muscle influences the alterations in MU firing rates from recruitment to de-recruitment.

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The influence of myosin heavy chain isoform content on mechanical behavior of the vastus lateralis in vivo

Trevino

Herda

Fry

et al. 2016

Journal of Electromyography and Kinesiology

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Eric M. Mosier

Influence of the contractile properties of muscle on motor unit firing rates during a moderate-intensity contraction in vivo

MAPK, androgen, and glucocorticoid receptor phosphorylation following high-frequency resistance exercise non-functional overreaching

The Effects of Training Status and Muscle Action on Electromyographic Amplitude of the Vastus Lateralis

The change in motor unit firing rates at de‐recruitment relative to recruitment is correlated with type I myosin heavy chain isoform content of the vastus lateralis in vivo

The influence of myosin heavy chain isoform content on mechanical behavior of the vastus lateralis in vivo

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