Katherine M Martinez1, Marie-Laure Mille, Yunhui Zhang, Mark W Rogers. 1. Department of Physical Therapy and Human Movement Sciences, Feinberg School of Medicine, Northwestern University, Chicago, IL. Electronic address: k-martinez@northwestern.edu.
Abstract
OBJECTIVES: To examine the stepping performance during voluntary and waist-pull perturbation-induced step initiation in people with chronic stroke. DESIGN: Repeated-measures single-case design. SETTING: University-based research laboratory. PARTICIPANTS: Community-dwelling stroke survivors (N=10). INTERVENTIONS: Not applicable. MAIN OUTCOME MEASURES: Ground reaction forces and kinematic data were recorded to assess anticipatory postural adjustments (APAs) and step characteristics for both voluntary and induced stepping conditions. RESULTS: Induced stepping was performed with both the paretic (35% trials) and nonparetic legs (65% trials). Induced first steps occurred earlier and were executed faster than rapid voluntary steps. Compared with voluntary stepping, induced first step APAs were shorter in duration. Step height was higher with the nonparetic leg for both stepping conditions. Use of the paretic leg increased (52%) during the diagonal perturbations that passively unloaded the stepping limb compared with the use of the paretic leg (33%) for forward perturbations. CONCLUSIONS: The results indicated differences in executing voluntary and induced stepping, and between the paretic and nonparetic limbs in individuals with chronic stroke. The findings suggested guidelines for using stepping as a component of neurorehabilitation programs for enhancing balance and mobility. Additional larger-scale studies remain to be undertaken to further investigate these issues.
OBJECTIVES: To examine the stepping performance during voluntary and waist-pull perturbation-induced step initiation in people with chronic stroke. DESIGN: Repeated-measures single-case design. SETTING: University-based research laboratory. PARTICIPANTS: Community-dwelling stroke survivors (N=10). INTERVENTIONS: Not applicable. MAIN OUTCOME MEASURES: Ground reaction forces and kinematic data were recorded to assess anticipatory postural adjustments (APAs) and step characteristics for both voluntary and induced stepping conditions. RESULTS: Induced stepping was performed with both the paretic (35% trials) and nonparetic legs (65% trials). Induced first steps occurred earlier and were executed faster than rapid voluntary steps. Compared with voluntary stepping, induced first step APAs were shorter in duration. Step height was higher with the nonparetic leg for both stepping conditions. Use of the paretic leg increased (52%) during the diagonal perturbations that passively unloaded the stepping limb compared with the use of the paretic leg (33%) for forward perturbations. CONCLUSIONS: The results indicated differences in executing voluntary and induced stepping, and between the paretic and nonparetic limbs in individuals with chronic stroke. The findings suggested guidelines for using stepping as a component of neurorehabilitation programs for enhancing balance and mobility. Additional larger-scale studies remain to be undertaken to further investigate these issues.
Keywords:
ANOVA; APA; BOS; COM; COP; Postural balance; Rehabilitation; Stroke; analysis of variance; anticipatory postural adjustment; base of support; center of mass; center of pressure
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