Liu Xiao, Demosthenous Andreas, Vanhoestenberghe Anne, Jiang Dai, Donaldson Nick
University College London, London WC1E 6BT, UK.
IEEE Trans Biomed Circuits Syst. 2012 Jun;6(3):216-27. doi: 10.1109/TBCAS.2011.2174360.
This paper presents an integrated stimulator that can be embedded in implantable electrode books for interfacing with nerve roots at the cauda equina. The Active Book overcomes the limitation of conventional nerve root stimulators which can only support a small number of stimulating electrodes due to cable count restriction through the dura. Instead, a distributed stimulation system with many tripole electrodes can be configured using several Active Books which are addressed sequentially. The stimulator was fabricated in a 0.6-μm high-voltage CMOS process and occupies a silicon area of 4.2 × 6.5 mm(2). The circuit was designed to deliver up to 8 mA stimulus current to tripole electrodes from an 18 V power supply. Input pad count is limited to five (two power and three control lines) hence requiring a specific procedure for downloading stimulation commands to the chip and extracting information from it. Supported commands include adjusting the amplitude of stimulus current, varying the current ratio at the two anodes in each channel, and measuring relative humidity inside the chip package. In addition to stimulation mode, the chip supports quiescent mode, dissipating less than 100 nA current from the power supply. The performance of the stimulator chip was verified with bench tests including measurements using tripoles in saline.
本文介绍了一种集成刺激器,它可嵌入可植入电极册中,用于与马尾神经根进行接口连接。有源电极册克服了传统神经根刺激器的局限性,由于穿过硬脑膜的电缆数量限制,传统刺激器只能支持少量刺激电极。相反,使用多个可顺序寻址的有源电极册,可以配置一个具有许多三极电极的分布式刺激系统。该刺激器采用0.6μm高压CMOS工艺制造,占用的硅面积为4.2×6.5mm²。该电路设计为从18V电源向三极电极提供高达8mA的刺激电流。输入焊盘数量限制为五个(两条电源线和三条控制线),因此需要特定的程序来将刺激命令下载到芯片并从中提取信息。支持的命令包括调整刺激电流的幅度、改变每个通道中两个阳极处的电流比以及测量芯片封装内的相对湿度。除了刺激模式外,该芯片还支持静态模式,从电源汲取的电流小于100nA。通过包括在盐水中使用三极电极进行测量的台架测试,验证了刺激器芯片的性能。