动力外骨骼
物理医学与康复
外骨骼
软机器人
冲程(发动机)
医学
物理疗法
计算机科学
人工智能
机器人
工程类
机械工程
作者
Louis N. Awad,Jaehyun Bae,Kathleen O’Donnell,Stefano Rossi,Kathryn Hendron,Lizeth H. Sloot,Pawel Kudzia,Stephen P. Allen,Kenneth G. Holt,Terry D. Ellis,Conor J. Walsh
标识
DOI:10.1126/scitranslmed.aai9084
摘要
< 0.05). These improvements in paretic limb function contributed to a 20 ± 4% reduction in forward propulsion interlimb asymmetry and a 10 ± 3% reduction in the energy cost of walking, which is equivalent to a 32 ± 9% reduction in the metabolic burden associated with poststroke walking. Relatively low assistance (~12% of biological torques) delivered with a lightweight and nonrestrictive exosuit was sufficient to facilitate more normal walking in ambulatory individuals after stroke. Future work will focus on understanding how exosuit-induced improvements in walking performance may be leveraged to improve mobility after stroke.
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