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European Journal of Sport Science Volume 20, 2020 - Issue 3: PLACEBO AND NOCEBO EFFECTS IN SPORT AND EXERCISE
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Cortical and spinal excitabilities are differently balanced in power athletes

Sidney Grosprêtre1 EA4660, C3S Culture Sport Health Society, University of Bourgogne Franche-Comté, Besançon, FranceCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0003-1023-5842
ORCID Icon,
Amandine Bouguetoch2 Cognition, Action and Sensorimotor Plasticity (CAPS), INSERM UMR1093, University of Bourgogne Franche-Comté, Dijon, France
&
Alain Martin2 Cognition, Action and Sensorimotor Plasticity (CAPS), INSERM UMR1093, University of Bourgogne Franche-Comté, Dijon, France
Pages 415-425 | Published online: 28 Jun 2019
 
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Abstract

It is recognised that power-sport practices have a particular effect on lower-limb neuromuscular parameters. Less is known about corticospinal network adaptation, however, or whether these adaptations are specific to the lower limb. In the present study, the corticospinal and spinal excitabilities of upper and lower limbs have been examined in a group of untrained participants (UT, n = 10) and compared to those of a group of well-trained athletes practicing parkour (PK, n = 10). This activity, consisting of overcoming obstacles offered by the urban environment, was chosen as a model of power activity. The motor evoked potentials (MEPs) induced by transcranial magnetic stimulations and H-reflexes and maximal M-waves evoked by peripheral nerve stimulations were elicited in both upper- (flexor carpi radialis [FCR]) and lower-limb muscles (soleus [SOL] and gastrocnemius medialis [GM]). The results tended toward an overall greater corticospinal excitability in PK than in UT (as evidenced by greater MEP/Mmax ratio) and lower spinal excitability (lower Hmax/Mmax). H/MMAX ratio was lower for PK (0.32) than for UT (0.41) in SOL (p = 0.02), while MEP/MMAX was greater for PK than for UT in FCR (PK: 0.12; UT: 0.06; P = 0.04) and in GM (PK: 0.05, UT: 0.03, P = 0.02). In both limbs, the decrease of spinal excitability induced by parkour practice was counterbalanced by an increase in cortical excitability. Finally, the present study indicates that such long-term power practice leads to similar corticospinal plasticity in upper and lower limbs, explained by the similar solicitation of those muscles. 

Acknowledgements

The authors are particularly grateful to the French Parkour Federation (Fédération de Parkour, FPK) for its help and support.

Disclosure statement

No potential conflict of interest was reported by the authors.

ORCID

Sidney Grosprêtre http://orcid.org/0000-0003-1023-5842

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