基于超宽带遥测技术的清醒行为对象VLSI神经监测系统

IF 3.8 2区医学 Q2 ENGINEERING, BIOMEDICAL IEEE Transactions on Biomedical Circuits and Systems Pub Date : 2010-08-03 DOI:10.1109/ISCAS.2010.5537299

Elliot Greenwald, M. Mollazadeh, N. Thakor, Wei Tang, E. Culurciello

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引用次数: 41

摘要

长期监测清醒行为受试者的神经元活动可以为神经科学和神经工程应用提供有关脑动力学的基本信息。在这里，我们提出了一个微型，轻量级，低功耗的记录系统，用于监测清醒行为动物的神经活动。该系统集成了两个定制设计的超大规模集成芯片，一个是采用0.5 μm互补金属氧化物半导体技术制造的神经接口模块，另一个是采用0.5 μm蓝宝石上硅(SOS)技术制造的超宽带发射机模块。该系统以1mb /s的速率对16个通道的神经数据进行放大、滤波、数字化和传输。整个系统包括VLSI电路、数字接口板、电池和定制外壳，体积小、重量轻(24克)，因此可以长期安装在小动物身上。该系统耗电4.8毫安，由一块3.7 v、200毫安的可充电锂离子电池供电，可连续记录长达40小时。实验台式表征以及在体内多通道神经记录从清醒行为的大鼠在这里提出。

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A VLSI Neural Monitoring System With Ultra-Wideband Telemetry for Awake Behaving Subjects

Long-term monitoring of neuronal activity in awake behaving subjects can provide fundamental information about brain dynamics for neuroscience and neuroengineering applications. Here, we present a miniature, lightweight, and low-power recording system for monitoring neural activity in awake behaving animals. The system integrates two custom designed very-large-scale integrated chips, a neural interface module fabricated in 0.5 μm complementary metal-oxide semiconductor technology and an ultra-wideband transmitter module fabricated in a 0.5 μm silicon-on-sapphire (SOS) technology. The system amplifies, filters, digitizes, and transmits 16 channels of neural data at a rate of 1 Mb/s. The entire system, which includes the VLSI circuits, a digital interface board, a battery, and a custom housing, is small and lightweight (24 g) and, thus, can be chronically mounted on small animals. The system consumes 4.8 mA and records continuously for up to 40 h powered by a 3.7-V, 200-mAh rechargeable lithium-ion battery. Experimental benchtop characterizations as well as in vivo multichannel neural recordings from awake behaving rats are presented here.

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来源期刊

IEEE Transactions on Biomedical Circuits and Systems 工程技术-工程：电子与电气

CiteScore

10.00

自引率

13.70%

发文量

174

审稿时长

3 months

期刊介绍： The IEEE Transactions on Biomedical Circuits and Systems addresses areas at the crossroads of Circuits and Systems and Life Sciences. The main emphasis is on microelectronic issues in a wide range of applications found in life sciences, physical sciences and engineering. The primary goal of the journal is to bridge the unique scientific and technical activities of the Circuits and Systems Society to a wide variety of related areas such as: • Bioelectronics • Implantable and wearable electronics like cochlear and retinal prosthesis, motor control, etc. • Biotechnology sensor circuits, integrated systems, and networks • Micropower imaging technology • BioMEMS • Lab-on-chip Bio-nanotechnology • Organic Semiconductors • Biomedical Engineering • Genomics and Proteomics • Neuromorphic Engineering • Smart sensors • Low power micro- and nanoelectronics • Mixed-mode system-on-chip • Wireless technology • Gene circuits and molecular circuits • System biology • Brain science and engineering: such as neuro-informatics, neural prosthesis, cognitive engineering, brain computer interface • Healthcare: information technology for biomedical, epidemiology, and other related life science applications. General, theoretical, and application-oriented papers in the abovementioned technical areas with a Circuits and Systems perspective are encouraged to publish in TBioCAS. Of special interest are biomedical-oriented papers with a Circuits and Systems angle.