Fisher Lee E, Miller Michael E, Bailey Stephanie N, Davis John A, Anderson James S, Rhode Lori, Tyler Dustin J, Triolo Ronald J
Department of Biomedical Engineering, Case Western Reserve University, Cleveland, OH 44106, USA.
IEEE Trans Neural Syst Rehabil Eng. 2008 Oct;16(5):473-8. doi: 10.1109/TNSRE.2008.2003390.
This paper describes the performance of a 16-channel implanted neuroprosthesis for standing and transfers after spinal cord injury including four-contact nerve-cuff electrodes stimulating the femoral nerve for knee extension. Responses of the nerve-cuffs were stable and standing times increased by 600% over time-matched values with a similar eight-channel neuroprosthesis utilizing muscle-based electrodes on vastus lateralis for knee extension.
本文描述了一种用于脊髓损伤后站立和转移的16通道植入式神经假体的性能,该假体包括四个接触式神经袖套电极,用于刺激股神经以实现膝关节伸展。神经袖套的反应稳定,与使用基于肌肉的电极在股外侧肌上进行膝关节伸展的类似八通道神经假体相比,站立时间随时间匹配值增加了600%。
