Locomotor adaptability in persons with unilateral transtibial amputation

Locomotor adaptation enables walkers to modify strategies when faced with challenging walking conditions. While a variety of neurological injuries can impair locomotor adaptability, the effect of a lower extremity amputation on adaptability is poorly understood. Determine if locomotor adaptability i...

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Bibliographic Details
Published in:PloS one 2017-07, Vol.12 (7), p.e0181120-e0181120
Main Authors: Darter, Benjamin J, Bastian, Amy J, Wolf, Erik J, Husson, Elizabeth M, Labrecque, Bethany A, Hendershot, Brad D
Format: Article
Language:English
Subjects:
Adaptability
Adaptation
Adaptation, Physiological
Adult
Amputation
Amputation - adverse effects
Amputation - rehabilitation
Ankle
Asymmetry
Belt conveyors
Biology and Life Sciences
Computer and Information Sciences
Engineering and Technology
Feedback
Fitness equipment
Humans
Leg amputation
Locomotion
Male
Medicine
Medicine and Health Sciences
Physical Sciences
Physical therapy
Prostheses
Rehabilitation
Spinal cord
Symmetry
Tibia - physiopathology
Tibia - surgery
Trauma
Walking
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Summary:Locomotor adaptation enables walkers to modify strategies when faced with challenging walking conditions. While a variety of neurological injuries can impair locomotor adaptability, the effect of a lower extremity amputation on adaptability is poorly understood. Determine if locomotor adaptability is impaired in persons with unilateral transtibial amputation (TTA). The locomotor adaptability of 10 persons with a TTA and 8 persons without an amputation was tested while walking on a split-belt treadmill with the parallel belts running at the same (tied) or different (split) speeds. In the split condition, participants walked for 15 minutes with the respective belts moving at 0.5 m/s and 1.5 m/s. Temporal spatial symmetry measures were used to evaluate reactive accommodations to the perturbation, and the adaptive/de-adaptive response. Persons with TTA and the reference group of persons without amputation both demonstrated highly symmetric walking at baseline. During the split adaptation and tied post-adaptation walking both groups responded with the expected reactive accommodations. Likewise, adaptive and de-adaptive responses were observed. The magnitude and rate of change in the adaptive and de-adaptive responses were similar for persons with TTA and those without an amputation. Furthermore, adaptability was no different based on belt assignment for the prosthetic limb during split adaptation walking. Reactive changes and locomotor adaptation in response to a challenging and novel walking condition were similar in persons with TTA to those without an amputation. Results suggest persons with TTA have the capacity to modify locomotor strategies to meet the demands of most walking conditions despite challenges imposed by an amputation and use of a prosthetic limb.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0181120