A Battery-Powered Ankle Exoskeleton Improves Gait Mechanics in a Feasibility Study of Individuals with Cerebral Palsy
Autor: | Taryn A. Harvey, Jennifer L Lawson, Zachary F. Lerner |
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Rok vydání: | 2019 |
Předmět: |
Adult
Male Orthotic Devices medicine.medical_treatment 0206 medical engineering Biomedical Engineering 02 engineering and technology Knee extension Cerebral palsy Young Adult Humans Medicine Child Muscle Skeletal Gait Rehabilitation Electromyography business.industry Cerebral Palsy Robotics Mechanics medicine.disease 020601 biomedical engineering Metabolic cost Biomechanical Phenomena Exoskeleton medicine.anatomical_structure Child Preschool Gait analysis Feasibility Studies Female Ankle business Wireless Technology human activities Ankle Joint |
Zdroj: | Annals of Biomedical Engineering. 47:1345-1356 |
ISSN: | 1573-9686 0090-6964 |
DOI: | 10.1007/s10439-019-02237-w |
Popis: | Neuromuscular impairment associated with cerebral palsy (CP) often leads to life-long walking deficits. Our goal was to evaluate the ability of a novel untethered wearable ankle exoskeleton to reduce the severity of gait pathology from CP. In this clinical feasibility study of five individuals with CP, we used instrumented gait analysis to quantify how powered plantar-flexor assistance affected gait mechanics following multi-visit acclimation. Compared to how each participant walked normally, walking with untethered exoskeleton assistance resulted in improved ankle plantar-flexion and knee extension; residual flexion deformity across the lower-extremity improved by a clinically significant 14.4° (p = 0.022). Powered plantar-flexor assistance increased average total positive ankle power by 44% (p = 0.037), and resulted in a 30% reduction in average negative biological ankle power (p = 0.004) and a 29% reduction in average positive hip power (p = 0.009). These findings suggest that powered ankle assistance augmented, rather than simply replaced, biological function to produce a more efficient gait pattern, which was corroborated by a 19% improvement in metabolic cost of transport (p = 0.011). This study provides evidence in support of the continued investigation of ankle assistance in mobility and rehabilitation interventions for this patient population. |
Databáze: | OpenAIRE |
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