Stiffness and passive peak force changes at the ankle joint: the effect of different joint angular velocities

Objective. To compare peak force and stiffness at the ankle joint in response to repetitive dorsiflexion at two joint angular velocities (5 and 25 deg s −1). Design. Pre- post-repeated measures design. Background. Stretching affects the biomechanical properties of tissues. In many instances, stretch...

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Bibliographic Details
Published in:Clinical biomechanics (Bristol) 2002-08, Vol.17 (7), p.536-540
Main Authors: McNair, Peter J., Hewson, David J., Dombroski, Erik, Stanley, Stephen N.
Format: Article
Language:English
Subjects:
Achilles
Adult
Angular velocity
Ankle
Ankle Joint - physiology
Biomechanical Phenomena
Elasticity
Electromyography
Female
Humans
Male
Range of Motion, Articular
Speed
Stiffness
Stretching
Viscoelastic
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Summary:Objective. To compare peak force and stiffness at the ankle joint in response to repetitive dorsiflexion at two joint angular velocities (5 and 25 deg s −1). Design. Pre- post-repeated measures design. Background. Stretching affects the biomechanical properties of tissues. In many instances, stretching is performed in a cyclic manner. An important factor that might influence the effects of stretching is the speed at which the tissues are lengthened. Methods. Eighteen healthy subjects participated. A dynamometer repeatedly moved the ankle joint from 0 deg of dorsiflexion to 80% of maximum dorsiflexion over a 2 min period. Two joint angular velocities were examined: 5 and 25 deg s −1. Force and angle data were recorded simultaneously. Electromyographic activity from plantar and dorsiflexor muscles was monitored. The variables of interest were peak passive force and average stiffness at the first and last repetition of motion. Results. Peak force was significantly higher ( P0.05) across velocities at 2 min. Stiffness was greater at 25 deg s −1 initially ( P0.05) in stiffness across the joint angular velocities examined. Conclusion(s). The findings showed that while significant differences existed in stiffness and peak force across angular velocities at the start of the stretching motion, the differences decreased considerably with repeated motion, and were relatively similar within 2 min. Relevance It has long been thought that greater speeds of stretch are more likely to lead to muscle injury. Our findings suggest that it is most beneficial to stretch at a slow speed initially, thereafter, the speed of stretch may be increased.
ISSN:0268-0033
1879-1271
DOI:10.1016/S0268-0033(02)00062-1