TY - JOUR T1 - Persons post-stroke restore step length symmetry by walking asymmetrically JF - bioRxiv DO - 10.1101/799775 SP - 799775 AU - Purnima Padmanabhan AU - Keerthana Sreekanth Rao AU - Shivam Gulhar AU - Kendra M. Cherry-Allen AU - Kristan A. Leech AU - Ryan T. Roemmich Y1 - 2019/01/01 UR - http://biorxiv.org/content/early/2019/10/10/799775.abstract N2 - Background Restoration of step length symmetry is a common rehabilitation goal after stroke. Persons post-stroke often retain the capacity to walk with symmetric step lengths (“symmetric steps”); however, the resulting walking pattern remains effortful. Two key questions with direct implications for rehabilitation have emerged: 1) how do persons post-stroke generate symmetric steps, and 2) why do symmetric steps remain so effortful?Objective To understand how persons post-stroke generate symmetric steps and how the resulting gait pattern relates to the metabolic cost of transport.Methods Ten persons post-stroke walked on an instrumented treadmill under two conditions: preferred walking and symmetric stepping (using visual feedback). We recorded kinematic, kinetic, and metabolic data during both conditions.Results Persons post-stroke restored step length symmetry using energetically expensive, asymmetric patterns. Impaired paretic propulsion and abnormal vertical movement of the center of mass were evident during both preferred walking and symmetric stepping. These deficits contributed to diminished positive work performed by the paretic limb on the center of mass in both conditions. Decreased positive paretic work correlated with increased metabolic cost of transport, decreased self-selected walking speed, and increased asymmetry in limb kinematics.Conclusions It is important to consider the mechanics used to restore symmetric steps when designing interventions to improve walking after stroke. Facilitating symmetric steps via increased paretic propulsion or enabling paretic limb advancement without excessive vertical movement may enable persons post-stroke to walk with a less effortful, more symmetric gait pattern. ER -