Manual stabilization reveals a transient role for balance control during locomotor adaptation
Sungwoo Park, James M. Finley
Abstract
We investigated the role of dynamic balance during adaptation to a split-belt treadmill by measuring whole body angular momentum with or without holding on to a handrail. The initial step length asymmetry and associations between balance and asymmetry reduced when holding on to a handrail during early adaptation. These findings indicate that dynamic balance mostly contributes to the initial phase of adaptation when people are exposed to an asymmetric walking constraint.
Topics & Concepts
AsymmetryAngular momentumTreadmillPhysicsBalance (ability)Physical medicine and rehabilitationKinematicsControl theory (sociology)PsychologySimulationComputer scienceClassical mechanicsPhysical therapyControl (management)MedicineArtificial intelligenceQuantum mechanicsBalance, Gait, and Falls PreventionCerebral Palsy and Movement DisordersMotor Control and Adaptation