A fully integrated 16-channel closed-loop neural-prosthetic CMOS SoC with wireless power and bidirectional data telemetry for real-time efficient human epileptic seizure control

Cheng Hsiang Cheng*, Ping Yuan Tsai, Tzu Yi Yang, Wan Hsueh Cheng, Ting Yang Yen, Zhicong Luo, Xin Hong Qian, Zhi Xin Chen, Tzu Han Lin, Wei Hong Chen, Wei Ming Chen, Sheng Fu Liang, Fu Zen Shaw, Cheng Siu Chang, Yue Loong Hsin, Chen-Yi Lee, Ming-Dou Ker, Chung-Yu Wu

*此作品的通信作者

研究成果: Article同行評審

111 引文 斯高帕斯(Scopus)

摘要

A 16-channel closed-loop neuromodulation system-on-chip (SoC) for human epileptic seizure control is proposed and designed. In the proposed SoC, a 16-channel neural-signal acquisition unit (NSAU), a biosignal processor (BSP), a 16-channel high-voltage-tolerant stimulator (HVTS), and wireless power and bidirectional data telemetry are designed. In the NSAU, the input protection circuit is used to prevent MOSFET from overstressing by the high-voltage stimulations. Hence, NSAUs can share electrodes with stimulators. The auto-reset chopper-stabilized capacitive-coupled instrumentation amplifiers (AR-CSCCIAs) are designed with the chopper-stabilized technique with a new offset reduction loop. The measured input-referred noise is 2.09 μ V rms and the noise-efficiency factor (NEF) is 3.78. The entropy-and-spectrum seizure detection algorithm is implemented in the BSP with 0.76-s seizure detection latency and 97.8% detection accuracy. When the seizure onset is detected by the BSP, the HVTS with adaptive supply control delivers 0.5-3-mA biphasic current stimulation to suppress the seizure onset. The proposed SoC is powered wirelessly, and the bidirectional data telemetry is realized through the same pair of coils in 13.56 MHz. The downlink data rate is 211 Kb/s with the binary phase-shift keying (BPSK) modulation and a new BPSK demodulator. The uplink data rate is 106 Kb/s with the load-shift keying (LSK) modulation. The proposed SoC is fabricated in a 0.18-μm CMOS technology and occupies 25 mm 2 . Electrical tests have been performed to characterize the SoC performance. In vivo animal experiments using mini-pigs have been performed to successfully verify the closed-loop neuromodulation functions on epileptic seizure suppression.

原文English
文章編號8463542
頁(從 - 到)3314-3326
頁數13
期刊IEEE Journal of Solid-State Circuits
53
發行號11
DOIs
出版狀態Published - 1 11月 2018

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