Stride length regulation in Parkinson's disease: the use of extrinsic, visual cues

doi:10.1093/brain/123.10.2077

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Brain, Vol. 123, No. 10, 2077-2090, October 2000
© 2000 Oxford University Press

Stride length regulation in Parkinson's disease: the use of extrinsic, visual cues

Gwyn N. Lewis¹, Winston D. Byblow¹ and Sharon E. Walt²

¹ Human Motor Control Laboratory and ² Auckland Gait Laboratory, Department of Sport and Exercise Science, University of Auckland, New Zealand

Correspondence to: Winston Byblow, Department of Sport and Exercise Science, University of Auckland, Private Bag 92019, Auckland, New Zealand E-mail: w.byblow{at}auckland.ac.nz

It has been well documented that marked improvements in thehypokinetic gait pattern of Parkinson's disease patients arepossible with the use of appropriate visual cues. This projectserved to evaluate Parkinson's disease gait performance as wellas residual processing capacity while using fixed or gait-regulatedvisual cues. Three-dimensional kinematic, kinetic and electromyographicgait analysis was carried out on 14 patients and 14 matchedcontrols in baseline conditions and with two types of visualcues: taped step length (SL) markers and an individualized subject-mountedlight device (SMLD). A probe reaction time paradigm was invokedto assess residual processing capacity. Ratings of perceivedtask load were also made using the NASA-Task Load Index. Stridelength and gait velocity were reduced in patients in baselineconditions. Both of these parameters increased to control levelswith the use of visual cues. These alterations were generallyaccompanied by modifications of lower limb kinematics and kineticstowards control subjects. Perceived task load was higher inall conditions and was further elevated by the use of the SMLDfor both groups. Patients produced larger overall reaction times,although reaction time was not different between baseline andSL marker conditions. Reaction time was increased in both groupswhen using the SMLD. The overarching finding is that stridelength can be regulated in Parkinson's disease using stationaryvisual cues without increased central processing capacity orperceived effort. This may occur via utilization of visual feedback,reducing the patients' reliance on kinaesthetic feedback forthe regulation of movement amplitude.

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