Author: Liao LR, Lam FM, Pang MY, Jones AY, Ng GY.
1Department of Rehabilitation Sciences, Hong Kong Polytechnic University, Hong Kong, China; 2Department of Physiotherapy, Guangdong Provincial Work Injury Rehabilitation Hospital, Guangzhou, China; 3School of Rehabilitation Sciences, Griffith University, Australia.
Conference/Journal: Med Sci Sports Exerc.
Date published: 2013 Jul 29
Other: Word Count: 271
It has been previously shown that whole-body vibration (WBV) can augment muscle activity in young healthy adults. However, the electromyography response of leg muscles during WBV in individuals with stroke is unknown. The objective of this study was to determine the influence of WBV on the activity of the vastus lateralis (VL) and gastrocnemius (GS) muscles during the performance of different exercises in chronic stroke patients.
Forty-five chronic stroke patients were studied. Each subject was exposed to three WBV conditions of 1. no WBV, 2. low-intensity WBV protocol [peak acceleration: 0.96 unit of gravitational constant (G)], and 3. high-intensity WBV protocol (peak acceleration: 1.61G) while performing 8 different static exercises involving upright standing, semi squat, deep squat, weight-shifted-forward, weight-shifted-backward, weight-shifted-to-the-side, forward lunge and single-leg-standing. Bilateral VL and GS muscle activity was recorded with surface electromyography (EMG), and expressed as percentage of the EMG amplitude recorded during a maximal voluntary contraction of the respective muscles (%MVC).
Two-way analysis of variance with repeated measures revealed that exposure to WBV (low- and high-intensity protocols) significantly increased VL and GS EMG amplitude (large effect size, partial η= 0.135-0.643, p<0.001) on both the paretic and non-paretic sides in different exercise conditions, compared with no WBV. No significant difference in EMG magnitude was found between the high- and low-intensity WBV protocols (p>0.05). With a few exceptions, WBV enhanced EMG activity in the paretic and non-paretic leg muscles to a similar extent in different exercise conditions.
Leg muscle activity was increased significantly with addition of WBV. Further clinical trials are needed to determine the effectiveness of different WBV protocols for strengthening leg muscles in chronic stroke patients.