Systems Neuroscience Section, Department of Rehabilitation for Brain Functions, Research Institute of National Rehabilitation for Persons with Disabilities, Saitama, Japan.
Department of Neurological Surgery, Chiba University Graduate School of Medicine, Chiba, Japan.
Sci Rep. 2018 Nov 14;8(1):16787. doi: 10.1038/s41598-018-35211-y.
Brain-computer interfaces (BCIs) enable communication with others and allow machines or computers to be controlled in the absence of motor activity. Clinical studies evaluating neural prostheses in amyotrophic lateral sclerosis (ALS) patients have been performed; however, to date, no study has reported that ALS patients who progressed from locked-in syndrome (LIS), which has very limited voluntary movement, to a completely locked-in state (CLIS), characterized by complete loss of voluntary movements, were able to continue controlling neural prostheses. To clarify this, we used a BCI system to evaluate three late-stage ALS patients over 27 months. We employed steady-state visual evoked brain potentials elicited by flickering green and blue light-emitting diodes to control the BCI system. All participants reliably controlled the system throughout the entire period (median accuracy: 83.3%). One patient who progressed to CLIS was able to continue operating the system with high accuracy. Furthermore, this patient successfully used the system to respond to yes/no questions. Thus, this CLIS patient was able to operate a neuroprosthetic device, suggesting that the BCI system confers advantages for patients with severe paralysis, including those exhibiting complete loss of muscle movement.
脑机接口 (BCI) 能够实现与他人的交流,并允许在没有运动活动的情况下控制机器或计算机。已经对肌萎缩侧索硬化症 (ALS) 患者中的神经假体进行了临床研究; 然而,迄今为止,尚无研究报告称,从运动受限综合征 (LIS) 进展为完全闭锁状态 (CLIS) 的 ALS 患者能够继续控制神经假体,LIS 具有非常有限的自主运动。为了澄清这一点,我们使用 BCI 系统在 27 个月内评估了三名晚期 ALS 患者。我们使用闪烁的绿色和蓝色发光二极管产生的稳态视觉诱发电位来控制 BCI 系统。所有参与者在整个期间都可靠地控制了系统(中位数准确性: 83.3%)。一名进展为 CLIS 的患者能够继续以高精度操作该系统。此外,该患者成功使用该系统回答了是/否问题。因此,该 CLIS 患者能够操作神经假体设备,这表明 BCI 系统为严重瘫痪患者带来了优势,包括那些表现出完全丧失肌肉运动的患者。
