Dopamine replacement therapy normalizes reactive step length to postural perturbations in Parkinson's disease

Abstract

BackgroundPostural instability is one of the most disabling motor symptoms of Parkinson’s disease (PD) given its association with falls and loss of independence. Previous studies have assessed biomechanical measures of reactive stepping in response to perturbations, showing that individuals with PD exhibit inadequate postural responses to regain balance. Research questionDoes dopamine replacement therapy normalize step length in response to balance perturbations? MethodsIn this study, we estimated reactive step length, to a postural perturbation, retrospectively from a dataset of frontal plane video using 2D motion tracking and direct linear transform methods. We compared two perturbation methods: support surface translation and shoulder pull (the clinical standard) in 14 individuals with PD and 13 without PD (on and off medication), with and without partial body weight support (BWS). The primary outcome was the length of the first step taken to regain balance after the perturbation analyzed with mixed effects ANOVA, with post hoc analysis of anteroposterior (AP) and mediolateral (ML) components. ResultsPD OFF medication exhibited shorter reactive step length compared to PD ON and compared to control groups for the surface translation perturbations, but no significant difference was observed for the shoulder pull perturbations. SignificanceDopamine replacement therapy affects step length in response to perturbation more robustly for surface translations than for a pull by the shoulders.