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    The passive, human calf muscles in relation to standing II: the short range stiffness lies in the contractile component

    Loram, Ian D., Maganaris, Constantinos N. and Lakie, Martin (2007) The passive, human calf muscles in relation to standing II: the short range stiffness lies in the contractile component. Journal of physiology, 584 (2). pp. 677-692. ISSN 0022-3751

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    Abstract

    Using short duration perturbations, previous attempts to measure the intrinsic ankle stiffness during human standing have revealed a substantial stabilising contribution (65-90% normalised to load stiffness "mgh"). Others regard this method as unsuitable for the low frequency conditions of quiet standing and believe the passive contribution to be small (10-15%). This latter view, consistent with a linear Hill-type model, argues that during standing, the contractile portion of the muscle is much less stiff than the tendon. Here, for upright subjects, we settle this issue by measuring the stiffness of the contractile portion of the passive calf muscles using low frequency ankle rotations. Using ultrasound we tracked the changes in muscle contractile length and partitioned the ankle rotation into contractile and extra-contractile (series elastic) portions. Small ankle rotations of 0.15 and 0.4 degrees show a contractile to series elastic stiffness ratio (Kce/Kse) of 12+/-9 and 6.3+/-10 respectively with both elements displaying predominantly elastic behaviour. Larger, 7 degree rotations reveal the range of this ratio. It declines in a non- linear way from a high value (Kce/Kse=18+/-11) to a low value (Kce/Kse=1+/-0.4) as rotation increases from 0.1 to 7 deg. There is a marked transition at around 0.5 deg. The series elastic stiffness (Kse/mgh) remains largely constant (77+/-13 %) demonstrating the contractile component origin of passive, short range stiffness. The linear Hill-type model does not describe the range related stiffness relevant to the progression from quiet standing to perturbed balance and movement and can lead to inaccurate predictions regarding human balance.

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