Elodie Saruco1, Aymeric Guillot2,3, Arnaud Saimpont2, Franck Di Rienzo2, Anne Durand4,5, Catherine Mercier4,5, Francine Malouin4,5, Philip Jackson5,6. 1. Claude Bernard University of Lyon, Interuniversity Laboratory of Motor Biology (LIBM), Villeurbanne, France - elodie.saruco@univ-lyon1.fr. 2. Claude Bernard University of Lyon, Interuniversity Laboratory of Motor Biology (LIBM), Villeurbanne, France. 3. Institut Universitaire de France, Paris, France. 4. Department of Rehabilitation, Laval University, Québec, QC, Canada. 5. Center for Interdisciplinary Research in Rehabilitation and Social Integration, Québec, QC, Canada. 6. Department of Psychology, Laval University, Québec, QC, Canada.
Abstract
BACKGROUND: Amputation of a lower-limb results in a severe decrease of functional mobility that deeply alters independent living. Motor imagery (MI) refers to the mental representation of an action without engaging its actual execution. The repetitive use of MI has been shown to contribute to promote motor recovery and phantom-limb pain alleviation. AIM: Given the importance of invoking accurate images to benefit from MI practice, and considering the link between motor capacities and MI, the present study investigated the effect of a rehabilitation program on MI ability in patients with lower-limb amputation. DESIGN: Observational and longitudinal study. SETTING: Patients recruited from the Amputation program at the Institut de Réadaptation en Déficience Physique de Québec (IRDPQ), in Quebec City, Canada. POPULATION: Patients with trans-tibial or transfemoral amputation, following a rehabilitation program as outpatients. METHODS: MI ability of the patients was measured at three different time points along the course of physical therapy. RESULTS: The data revealed a positive effect of the rehabilitation program on MI accuracy of locomotor tasks, and greater MI vividness and accuracy for single-joint movements that patients were still able to physically perform. CONCLUSIONS: These findings suggest that MI abilities and actual motor performance are mirrored in a congruent fashion. CLINICAL REHABILITATION IMPACT: Therapists should consider this critical aspect when including MI practice in rehabilitation programs among patients with lower-limb amputation.
BACKGROUND: Amputation of a lower-limb results in a severe decrease of functional mobility that deeply alters independent living. Motor imagery (MI) refers to the mental representation of an action without engaging its actual execution. The repetitive use of MI has been shown to contribute to promote motor recovery and phantom-limb pain alleviation. AIM: Given the importance of invoking accurate images to benefit from MI practice, and considering the link between motor capacities and MI, the present study investigated the effect of a rehabilitation program on MI ability in patients with lower-limb amputation. DESIGN: Observational and longitudinal study. SETTING:Patients recruited from the Amputation program at the Institut de Réadaptation en Déficience Physique de Québec (IRDPQ), in Quebec City, Canada. POPULATION: Patients with trans-tibial or transfemoral amputation, following a rehabilitation program as outpatients. METHODS: MI ability of the patients was measured at three different time points along the course of physical therapy. RESULTS: The data revealed a positive effect of the rehabilitation program on MI accuracy of locomotor tasks, and greater MI vividness and accuracy for single-joint movements that patients were still able to physically perform. CONCLUSIONS: These findings suggest that MI abilities and actual motor performance are mirrored in a congruent fashion. CLINICAL REHABILITATION IMPACT: Therapists should consider this critical aspect when including MI practice in rehabilitation programs among patients with lower-limb amputation.
Authors: Shriya S Srinivasan; Greta Tuckute; Jasmine Zou; Samantha Gutierrez-Arango; Hyungeun Song; Robert L Barry; Hugh M Herr Journal: Sci Transl Med Date: 2020-12-09 Impact factor: 17.956
Authors: Arnaud Saimpont; Francine Malouin; Anne Durand; Catherine Mercier; Franck di Rienzo; Elodie Saruco; Christian Collet; Aymeric Guillot; Philip L Jackson Journal: Sci Rep Date: 2021-07-02 Impact factor: 4.379