B. Thurgood, N. M. Ledbetter, David J. Warren, Gregory A. Clark, Reid R. Harrison
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引用次数: 9
摘要
我们提出了一种用于无线神经刺激的集成电路的设计,以及实验台上和体内的实验结果。该芯片能够驱动100个具有不同振幅、持续时间、相间延迟和重复率的恒流脉冲的单独刺激电极。刺激是使用双相(阴极和阳极)电流源,从神经系统注入和收回电荷。无线通信和电源是在2.765 mhz的感应链路上实现的。操作刺激器只需要两个片外组件:一个用于电源调节的10-nF电容器和一个用于电源和命令接收的线圈。该芯片采用市售的0.6 μ m 2P3M BiCMOS工艺制造。通过植入猫坐骨神经的犹他倾斜电极阵列,该芯片能够激活运动纤维产生肌肉抽搐,并激活感觉纤维以招募体感觉皮层的诱发电位。
Wireless integrated circuit for 100-channel neural stimulation
We present the design of an integrated circuit for wireless neural stimulation, along with bench-top and in-vivo experimental results. The chip has the ability to drive 100 individual stimulation electrodes with constant-current pulses of varying amplitude, duration, interphasic delay, and repetition rate. The stimulation is done using a biphasic (cathodic and anodic) current source, injecting and retracting charge from the nervous system. Wireless communication and power are achieved over a 2.765-MHz inductive link. Only two off-chip components are needed to operate the stimulator: a 10-nF capacitor to aid in power supply regulation and a coil for power and command reception. The chip was fabricated in a commercially available 0.6-mum 2P3M BiCMOS process. The chip was able to activate motor fibers to produce muscle twitches via a Utah Slanted Electrode Array implanted in cat sciatic nerve, and to activate sensory fibers to recruit evoked potentials in somatosensory cortex.
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