Differences in Supraspinal and Spinal Excitability During Various Force Outputs of the Biceps Brachii in Chronic and Non-Resistance Trained Individuals

Pearcey, Gregory E. P. and Power, Kevin E. and Button, Duane C. (2014) Differences in Supraspinal and Spinal Excitability During Various Force Outputs of the Biceps Brachii in Chronic and Non-Resistance Trained Individuals. PLoS ONE, 9 (5). ISSN 1932-6203

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Abstract

Motor evoked potentials (MEP) and cervicomedullary evoked potentials (CMEP) may help determine the corticospinal adaptations underlying chronic resistance training-induced increases in voluntary force production. The purpose of the study was to determine the effect of chronic resistance training on corticospinal excitability (CE) of the biceps brachii during elbow flexion contractions at various intensities and the CNS site (i.e. supraspinal or spinal) predominantly responsible for any training-induced differences in CE. Fifteen male subjects were divided into two groups: 1) chronic resistance-trained (RT), (n = 8) and 2) non-RT, (n = 7). Each group performed four sets of ,5 s elbow flexion contractions of the dominant arm at 10 target forces (from 10%–100% MVC). During each contraction, subjects received 1) transcranial magnetic stimulation, 2) transmastoid electrical stimulation and 3) brachial plexus electrical stimulation, to determine MEP, CMEP and compound muscle action potential (Mmax) amplitudes, respectively, of the biceps brachii. All MEP and CMEP amplitudes were normalized to Mmax. MEP amplitudes were similar in both groups up to 50% MVC, however, beyond 50% MVC, MEP amplitudes were lower in the chronic RT group (p,0.05). CMEP amplitudes recorded from 10–100% MVC were similar for both groups. The ratio of MEP amplitude/absolute force and CMEP amplitude/absolute force were reduced (p,0.012) at all contraction intensities from 10–100% MVC in the chronic-RT compared to the non-RT group. In conclusion, chronic resistance training alters supraspinal and spinal excitability. However, adaptations in the spinal cord (i.e. motoneurone) seem to have a greater influence on the altered CE.

Item Type: Article
URI: http://research.library.mun.ca/id/eprint/8243
Item ID: 8243
Additional Information: Memorial University Open Access Author's Fund
Department(s): Human Kinetics and Recreation, School of > Kinesiology
Date: 29 May 2014
Date Type: Publication
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