Musculoskeletal modeling to assess the feasibility of neuroprosthesis for high cervical spinal cord injury: 2nd joint conference of the IEEE engineering in medicine and biology society and the biomedical engineering society

机译：肌肉骨骼建模，以评估高颈脊髓损伤神经间质损伤的可行性：医学与生物学学会IEEE工程联席会议及生物医学工程学会

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A musculoskeletal model of the human shoulder and elbow was adapted to reflect the paralysis of an individual with a C4 level spinal cord injury. Simulations were then performed to determine the minimum number of muscles needed to restore a small set of simple but functionally important arm movements. We found that six was the minimum number of muscles and that the forces required of these muscles was typically modest. These results indicate that a neuroprosthesis for restoring arm movements in individuals with high tetraplegia should be feasible using existing technology.

机译：人肩部和肘部的肌肉骨骼模型适于反映具有C4水平脊髓损伤的个体的麻痹。然后进行仿真以确定恢复一小组简单但功能重要的臂运动所需的最小肌肉数。我们发现六个是肌肉的最小数量，这些肌肉所需的力量通常是适度的。这些结果表明，使用现有技术应可行的用于恢复具有高四锥形的臂运动的神经调节。

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《Joint Engineering in Medicine and Biology Society-Biomedical Engineering Society Conference》|2002年||共2页
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R. F. Kirsch; A. M. Acosta;
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原文格式 PDF
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中图分类 R318-53;
关键词
Biomechanics; Modeling; Shoulder; Spinal cord injury; Neuroprosthesis; FES; FNS;

机译：生物力学;建模;肩部;脊髓损伤;神经调节;FES;FNS;

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机译：肌肉骨骼建模，以评估高颈脊髓损伤神经间质损伤的可行性：医学与生物学学会IEEE工程联席会议及生物医学工程学会
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Musculoskeletal modeling to assess the feasibility of neuroprosthesis for high cervical spinal cord injury: 2nd joint conference of the IEEE engineering in medicine and biology society and the biomedical engineering society

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