案例研究:用于神经运动假体应用的人类运动皮质旋钮区域的多电极阵列的可靠性

M. Saleh, A. Caplan, M. Serruya, J. Donoghue
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引用次数: 0

摘要

使用长期植入的多电极阵列对运动皮层(MI)神经元进行细胞外记录,有望为计算机、外骨骼或假肢等外部设备提供高维输入信号。多电极阵列作为神经运动假肢(NMP)的传感器,重要的是它能长时间连续记录运动相关信号。最近的研究表明,从猴子的足够数量的心肌梗死神经元中连续记录长达1.5年的时间是可能的,从而实现对手臂运动的神经解码。Cyberkinetics神经技术系统公司启动了一项研究设备豁免(TOE)研究,调查BrainGate/spl贸易/神经接口系统的安全性和有效性,这是一种医疗设备,将该传感器与数据采集和处理设备相结合,以解码运动意图。该设备目前正在被研究作为一种手段,四肢瘫痪的人操作一系列辅助技术。本病例研究的初步结果提供了证据:(1)脊髓损伤后心肌梗死神经元保持活跃超过3年,(2)术后6个月可记录单位。这项技术为四肢瘫痪的人提供了一条新的大脑皮层输出通路,从而控制他们的肌肉。
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: reliability of multi-electrode array in the knob area of human motor cortex intended for a neuromotor prosthesis application
Extracellular recordings of motor cortex (MI) neurons, using a chronically implanted multi-electrode array, promise to yield a high dimensional input signal to external devices such as a computer, exoskeleton or prosthetic arm. For the multi-electrode array to be used as a sensor for a neuromotor prosthesis (NMP), it is important that it continually record movement-related signals over long time periods. Recent studies have demonstrated that it is possible to continually record for up to 1.5 years from a sufficient number of MI neurons in monkeys to enable neural decoding of arm movement. Cyberkinetics Neurotechnology Systems Inc. has initiated an investigational device exemption (TOE) study investigating the safety and efficacy of the BrainGate/spl trade/ Neural Interface System, a medical device that combines this sensor with data acquisition and processing devices to decode movement intent. This device is currently being investigated as a means for a quadriplegic person to operate a range of assistive technologies. Preliminary results from this case study provide evidence that (1) MI neurons remain active more than 3 years after spinal cord injury, (2) units can be recorded 6 months after surgery. This technology may benefit quadriplegic people by providing a new output pathway from the cortex, to control their muscles.
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