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Phase-Dependent Effects of Closed-Loop Tactile Feedback on Gait Stability in Parkinson’s Disease

Peter C. Fino, Martina Mancini

2020IEEE Transactions on Neural Systems and Rehabilitation Engineering20 citationsDOIOpen Access PDF

Abstract

Gait disturbances in people with Parkinson's disease (PD) are a major cause for functional dependence and have recently been shown to be the largest risk factor for falls, institutionalization and death in PD. The use of external cues has been successful at improving gait in people with PD, but the effect of external cues on gait stability is unclear. We examined whether different forms of cueing, open-loop and closed-loop, influenced the local dynamic stability of three critical phases of gait. Forty-three adults with PD completed six, two-minute long walking trials in the following cued conditions: no cue (B), open-loop cueing, fixed auditory cue (OL), closed-loop cueing, tactile feedback delivered to wrist when the ipsilateral foot contacted with the ground (CL). Conditions were performed with and without a cognitive task. Kinematic data were recorded with inertial sensors. Only CL cueing was associated with changes in trunk stability, and these changes were only evident during the weight transfer phase of gait. Both OL and CL caused reductions in overall gait speed, stride length, and an increase in stride time. While CL cueing significantly influenced local dynamic stability during weight transfer, it remains unknown whether these changes are associated with more or less global stability. Future research will explore the clinical implications.

Topics & Concepts

GaitPhysical medicine and rehabilitationSTRIDEParkinson's diseasePsychologyTrunkGround reaction forceKinematicsCued speechMedicineDiseaseCognitive psychologyPhysicsPathologyEcologyBiologyClassical mechanicsBalance, Gait, and Falls PreventionCerebral Palsy and Movement DisordersParkinson's Disease Mechanisms and Treatments
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