Centre for Brain Repair, University of Cambridge, Cambridge, UK.
J Neural Eng. 2012 Feb;9(1):016010. doi: 10.1088/1741-2560/9/1/016010. Epub 2012 Jan 19.
Neural interfaces are implanted devices that couple the nervous system to electronic circuitry. They are intended for long term use to control assistive technologies such as muscle stimulators or prosthetics that compensate for loss of function due to injury. Here we present a novel design of interface for peripheral nerves. Recording from axons is complicated by the small size of extracellular potentials and the concentration of current flow at nodes of Ranvier. Confining axons to microchannels of ~100 µm diameter produces amplified potentials that are independent of node position. After implantation of microchannel arrays into rat sciatic nerve, axons regenerated through the channels forming 'mini-fascicles', each typically containing ~100 myelinated fibres and one or more blood vessels. Regenerated motor axons reconnected to distal muscles, as demonstrated by the recovery of an electromyogram and partial prevention of muscle atrophy. Efferent motor potentials and afferent signals evoked by muscle stretch or cutaneous stimulation were easily recorded from the mini-fascicles and were in the range of 35-170 µV. Individual motor units in distal musculature were activated from channels using stimulus currents in the microampere range. Microchannel interfaces are a potential solution for applications such as prosthetic limb control or enhancing recovery after nerve injury.
神经接口是将神经系统与电子电路连接的植入式设备。它们旨在长期使用,以控制辅助技术,如肌肉刺激器或假肢,以弥补因受伤而导致的功能丧失。在这里,我们提出了一种用于周围神经的新型接口设计。由于细胞外电势小,电流在郎飞结处集中,因此记录轴突很复杂。将轴突限制在直径约 100µm 的微通道中会产生放大的电势,而与节点位置无关。将微通道阵列植入大鼠坐骨神经后,轴突通过通道再生形成“迷你束”,每个束通常包含约 100 个有髓纤维和一个或多个血管。再生的运动轴突重新连接到远端肌肉,这可以通过肌电图的恢复和部分防止肌肉萎缩来证明。从迷你束中很容易记录到由肌肉拉伸或皮肤刺激引起的传出运动电位和传入信号,其幅度在 35-170µV 之间。使用微安范围内的刺激电流,可以从通道中激活远端肌肉中的单个运动单位。微通道接口是假肢控制或增强神经损伤后恢复等应用的潜在解决方案。
