案例研究:头部定位和颈部肌电图用于高颈性四肢瘫痪患者的光标控制。

Q Medicine
Matthew R Williams, Robert F Kirsch
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引用次数: 10

摘要

我们使用两种不同的用户界面评估了高度颈脊髓损伤(SCI)患者控制计算机屏幕上光标的能力:(1)通过头戴式方向传感器测量头部运动;(2)使用早期研究中植入的4通道上肢神经假体获得来自头部和颈部四个肌肉的肌电图(EMG)信号。受试者在一个二维的、中心向外的、目标获取任务中将光标移动到屏幕上的一组目标上,并通过各种性能测量来评估其位置和速度控制的准确性。受试者使用这两种命令源的表现也与一组未禁用的受试者的表现进行了比较。头部定向提供了更准确的表现,但反应不如肌电图。两个命令源都显示了一些方向依赖的性能,移动到对角线位置的目标是通过一系列连续的运动而不是通过直线路径执行的。总的来说,SCI受试者使用每个命令源的表现与使用相同接口和执行相同任务的非残疾人群的表现相似。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Case study: Head orientation and neck electromyography for cursor control in persons with high cervical tetraplegia.

We evaluated the ability of an individual with a high cervical spinal cord injury (SCI) to control a cursor on a computer screen using two different user interfaces: (1) head movements measured via a head-mounted orientation sensor and (2) electromyography (EMG) signals from four head and neck muscles acquired using a 4-channel implanted upper-limb neuroprosthesis that had been deployed in an earlier study. The subject moved the cursor to a set of targets on the screen in a two-dimensional, center-out, target-acquisition task, and his performance was evaluated with a variety of performance measures to assess both position and velocity control accuracy. The subject's performance with both command sources was also compared with the performance of a group of nondisabled subjects. Head orientation provided more accurate performance but was less responsive than EMG. Both command sources showed some directionally dependent performance, with movement to diagonally located targets being performed by a series of sequential motions rather than via straight paths. Overall, the SCI subject's performance with each command source was similar to that reported for a nondisabled population using the same interfaces and performing the same task.

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CiteScore
1.64
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