Modeling the neuromotor capacities of professional soccer player with a lower-limb injury during a Countermovement Jump

G. Memain; C. Carling; J. Bouvet; P. Maille; B. Tamalet; P. Fourcade; E. Yiou

doi:10.1051/sm/2025018

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Mov Sport Sci/Sci Mot, Publication ahead of print

Abstract

Publication ahead of print
Journal		Mov Sport Sci/Sci Mot


DOI		https://doi.org/10.1051/sm/2025018
Published online		13 June 2025

Movement & Sport Sciences - Science & Motricité

Article

Modeling the neuromotor capacities of professional soccer player with a lower-limb injury during a Countermovement Jump

G. Memain¹^,3^,4, C. Carling¹^,2^,5, J. Bouvet¹, P. Maille¹, B. Tamalet¹, P. Fourcade³^,4 and E. Yiou³^,4^*

¹ FIFA Medical Center of Clairefontaine, French Football Federation, France
² FFF Research Centre, Clairefontaine National Football Centre, French Football Federation, France
³ CIAMS Laboratory, Paris-Saclay University, Orsay, France
⁴ CIAMS Laboratory, Orléans University, Orléans, France
⁵ Laboratory Sport, Expertise and Performance (EA7370), French Institute of Sport (INSEP), Paris, France

^* e-mail: gmemain@fff.fr

Received: 28 June 2024
Accepted: 10 April 2025

Abstract

This study investigated the effects of lower-limb injuries on neuromotor capacities in a cohort of professional soccer players. Three injuries were assessed: chondropathy (CH, n = 10), thigh muscle-strain (MI, n = 15) and ACL-ruptures (ACLR, n = 15). Muscle activation, kinematics and kinetic parameters were recorded during a single-leg and double-leg Countermovement-jump. Values were compared to the dominant-leg of a healthy professional soccer players cohort (CT, n = 22). Results showed that ACLR was the most impactful injury particularly for kinetic variables: Reactive-Strength-Index-modified (p < 0.001, d = 1.1), jump height (p < 0.001, d = 1.1), rate-of-force development (p < 0.001, d = 1.0). CH was the second most impactful pathology (p < 0.001, d: 0.9–1.1) while results in MI were similar to CT (p > 0.05). Regarding kinematic variables, compensations were observable and dependent upon injury type. ACLR and CH were more impacted by compensation than MI using superior trunk-flexion and lateroflexion, lower knee-flexion in push-off and higher knee-flexion in landing. Concerning muscle activation, CT active more the semitendinous (p < 0.05, d = 0.6) and vastus-medialis (p < 0.05, d = 0.5). CH activated the most gastrocnemius-medium (p < 0.05, d = 0.6) and biceps-femoris for ACLR (p < 0.01, d = 0.7). Kinetics and muscle activation analysis during a vertical jump-test showed that CH and ACLR injuries were most impacted. It is useful to model the specific injury impact and manage rehabilitation and return-to-play processes.

Key words: neuromotor capacities / chondropathy / professional soccer player / ACLR / muscle strain / modeling / CMJ

Mots clés : capacité neuromotrice / chondropathie / footballeur professionnel / rupture-LCA / lésion musculaire / modélisation / CMJ

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