高通道计数视网膜神经刺激器的冗余安全功能。

Shawn K Kelly, William F Ellersick, Ashwati Krishnan, Patrick Doyle, Douglas B Shire, John L Wyatt, Joseph F Rizzo
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引用次数: 6

摘要

提出了嵌入256通道视网膜假体集成电路的安全特性。视网膜的生物学和电极-组织界面的电化学要求对植入式视网膜刺激装置的安全特性进行仔细的规划和设计。我们描述了我们的ASIC的内部限制和通信安全特性,但我们关注的是电极组织接口的监测和保护电路。每个通道的两个独立电压监测电路在两相刺激周期的两个不同时间测量电极极化电压。监测器确保带电电极保持在电化学水窗电位内,放电电极保持在反电极电位附近的小窗口内。在脉冲之间将每个电极连接到对电极的开关可以防止各种设备故障。此外,我们描述了一个主动反馈系统的工作,以确保电极电压为零。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Redundant safety features in a high-channel-count retinal neurostimulator.

Redundant safety features in a high-channel-count retinal neurostimulator.

Redundant safety features in a high-channel-count retinal neurostimulator.

Redundant safety features in a high-channel-count retinal neurostimulator.

Safety features embedded in a 256-channel retinal prosthesis integrated circuit are presented. The biology of the retina and the electrochemistry of the electrode-tissue interface demand careful planning and design of the safety features of an implantable retinal stimulation device. We describe the internal limits and communication safety features of our ASIC, but we focus on monitoring and protection circuits for the electrode-tissue interface. Two independent voltage monitoring circuits for each channel measure the electrode polarization voltage at two different times in the biphasic stimulation cycle. The monitors ensure that the charged electrode stays within the electrochemical water window potentials, and that the discharged electrode is within a small window near the counter electrode potential. A switch to connect each electrode to the counter electrode between pulses protects against a wide range of device failures. Additionally, we describe work on an active feedback system to ensure that the electrode voltage is at zero.

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