This article and any supplementary material should be cited as follows: Duclos C, Kemlin C, Lazert D, Gagnon D, Dyer JO, Forget R. Complex muscle vibration.

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Presentation transcript:

This article and any supplementary material should be cited as follows: Duclos C, Kemlin C, Lazert D, Gagnon D, Dyer JO, Forget R. Complex muscle vibration patterns to induce gait-like lower-limb movements: Proof of concept. J Rehabil Res Dev. 2014;51(2):245–52. Slideshow Project DOI: /JRRD JSP Complex muscle vibration patterns to induce gait-like lower-limb movements: Proof of concept Cyril Duclos, PhD; Claire Kemlin, MSc; David Lazert, MSc; Dany Gagnon, PhD; Joseph-Omer Dyer, PhD; Robert Forget, PhD

This article and any supplementary material should be cited as follows: Duclos C, Kemlin C, Lazert D, Gagnon D, Dyer JO, Forget R. Complex muscle vibration patterns to induce gait-like lower-limb movements: Proof of concept. J Rehabil Res Dev. 2014;51(2):245–52. Slideshow Project DOI: /JRRD JSP Aim – Test feasibility of delivering complex vibrations in time-organized manner. – Illustrate possibility of inducing alternate gait-in- place-like movements using these vibrations. Relevance – Muscle vibrations can induce motor responses and illusions of complex movements. – However, inducing gait-like cyclical movements and illusions requires application of multiple fast alternating vibrations to lower-limb muscles.

This article and any supplementary material should be cited as follows: Duclos C, Kemlin C, Lazert D, Gagnon D, Dyer JO, Forget R. Complex muscle vibration patterns to induce gait-like lower-limb movements: Proof of concept. J Rehabil Res Dev. 2014;51(2):245–52. Slideshow Project DOI: /JRRD JSP Method Patterns of vibration were based on normal gait kinematics. – Produced by 12 vibrators applied bilaterally on lower- limb flexors and extensors. Tested 1 s and 2 s cycle patterns of vibration. Vibrator responses were assessed and compared between patterns. – Used auto- and crosscorrelations and frequency analyses based on accelerometry measurements.

This article and any supplementary material should be cited as follows: Duclos C, Kemlin C, Lazert D, Gagnon D, Dyer JO, Forget R. Complex muscle vibration patterns to induce gait-like lower-limb movements: Proof of concept. J Rehabil Res Dev. 2014;51(2):245–52. Slideshow Project DOI: /JRRD JSP Results Vibrators showed good response to control signal: – High auto- (>0.8) and crosscorrelation (>0.06) coefficients. Vibrations induced cyclical, low-amplitude stepping-in-place movements that mimicked alternate walking movements with both legs, with 1 s and 2 s cycle durations, in: – 1 nondisabled participant. – 1 participant with spinal cord injury, standing, relaxed, with body-weight support.

This article and any supplementary material should be cited as follows: Duclos C, Kemlin C, Lazert D, Gagnon D, Dyer JO, Forget R. Complex muscle vibration patterns to induce gait-like lower-limb movements: Proof of concept. J Rehabil Res Dev. 2014;51(2):245–52. Slideshow Project DOI: /JRRD JSP Conclusion Electromechanical vibrators can: – Deliver complex cyclical vibrations. – Trigger gait-like lower-limb movements. Results warrant application of these vibration patterns on individuals with sensorimotor impairments to test their potential in gait rehabilitation.