Stepping strategies used by post-stroke individuals to maintain magins of stability during walking

L. Hak, J.H.P. Houdijk, P. van der Wurff, M.R. Prins, A. Mert, P.J. Beek, J.H. van Dieen

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    Abstract

    Background People recovering from a stroke are less stable during walking compared to able-bodied controls. The purpose of this study was to examine whether and how post-stroke individuals adapt their steady-state gait pattern to maintain or increase their margins of stability during walking, and to examine how these strategies differ from strategies employed by able-bodied people. Methods Ten post-stroke individuals and 9 age-matched able-bodied individuals walked on the Computer Assisted Rehabilitation Environment. Medio-lateral translations of the walking surface were imposed to manipulate gait stability. To provoke gait adaptations, a gait adaptability task was used, in which subjects occasionally had to hit a virtual target with their knees. We measured medio-lateral and backward margins of stability, and the associated gait parameters walking speed, step length, step frequency, and step width. Findings Post-stroke participants showed similar medio-lateral margins of stability as able-bodied people in all conditions. This was accomplished by a larger step width and a relatively high step frequency. Post-stroke participants walked overall slower and decreased walking speed and step length even further in response to both manipulations compared to able-bodied participants, resulting in a tendency towards an overall smaller backward margins of stability, and a significantly smaller backward margin of stability during the gait adaptability task. Interpretation Post-stroke individuals have more difficulties regulating their walking speed, and the underlying parameters step frequency and step length, compared to able-bodied controls. These quantities are important in regulating the size of the backward margin of stability when walking in complex environments. © 2013 Elsevier Ltd.
    Original languageEnglish
    Pages (from-to)1041-1048
    Number of pages7
    JournalClinical Biomechanics
    Volume28
    Issue number9-10
    Early online date7 Nov 2013
    DOIs
    Publication statusPublished - 2013

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