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Cognition affects gait adaptation after split-belt treadmill training in Parkinson's disease

Sanskriti Sasikumar, Gianluca Sorrento, Anthony E. Lang, Antonio P. Strafella, Alfonso Fasano

2023Neurobiology of Disease10 citationsDOIOpen Access PDF

Abstract

Split-belt treadmill (SBTM) training has been proposed to improve gait symmetry and overall gait performance of patients with Parkinson's disease (PD). To determine whether patient's baseline features affect gait adaptation to SBTM in PD with freezing of gait (FOG). Twenty participants with idiopathic PD and treatment-resistant FOG underwent several clinical assessments including the Toronto Cognitive Assessment (TorCA) prior to treadmill training. Velocity of the treadmill was adjusted to over-ground walking speed. During SBTM training, the belt velocity on the least-affected side was reduced by 25%. Participants who adapted to SBTM training demonstrated cognitively intact TorCA scores ( p < 0.001), particularly intact working memory (p < 0.001). After-effects correlated with normal total TorCA ( p = 0.02), working memory and visuospatial (p < 0.001) function. Cognitive impairment, particularly impaired working memory, reduces gait adaptation and after-effects in PD with FOG. This is informative for trials studying prolonged effects of SBTM training in FOG. • A split-belt treadmill (SBTM) can target gait asymmetry in Parkinson's disease. • Gait adaptation to a SBTM relies on intact working memory. • After-effects duration from SBTM training requires intact visuospatial function. • Cognitive status influences trials studying prolonged effects of SBTM training.

Topics & Concepts

GaitPhysical medicine and rehabilitationTreadmillParkinson's diseaseCognitionGait trainingPhysical therapyMedicineWorking memoryPsychologyDiseaseRehabilitationNeuroscienceInternal medicineBalance, Gait, and Falls PreventionMotor Control and AdaptationParkinson's Disease Mechanisms and Treatments
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