A Multi-Modality CMOS Sensor Array for Cell-Based Assay and Drug Screening

IF 3.8 2区医学 Q2 ENGINEERING, BIOMEDICAL IEEE Transactions on Biomedical Circuits and Systems Pub Date : 2015-12-01 DOI:10.1109/TBCAS.2015.2504984

T. Chi, Jong Seok Park, J. Butts, Tracy A. Hookway, Amy Su, Chengjie Zhu, Mark P. Styczynski, T. McDevitt, Hua Wang

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引用次数: 57

Abstract

In this paper, we present a fully integrated multi-modality CMOS cellular sensor array with four sensing modalities to characterize different cell physiological responses, including extracellular voltage recording, cellular impedance mapping, optical detection with shadow imaging and bioluminescence sensing, and thermal monitoring. The sensor array consists of nine parallel pixel groups and nine corresponding signal conditioning blocks. Each pixel group comprises one temperature sensor and 16 tri-modality sensor pixels, while each tri-modality sensor pixel can be independently configured for extracellular voltage recording, cellular impedance measurement (voltage excitation/current sensing), and optical detection. This sensor array supports multi-modality cellular sensing at the pixel level, which enables holistic cell characterization and joint-modality physiological monitoring on the same cellular sample with a pixel resolution of 80 μm×100 μm. Comprehensive biological experiments with different living cell samples demonstrate the functionality and benefit of the proposed multi-modality sensing in cell-based assay and drug screening.

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用于细胞检测和药物筛选的多模态CMOS传感器阵列

在本文中，我们提出了一个完全集成的多模态CMOS细胞传感器阵列，具有四种传感模式来表征不同的细胞生理反应，包括细胞外电压记录，细胞阻抗测绘，阴影成像和生物发光传感的光学检测以及热监测。传感器阵列由9个并行像素组和9个相应的信号调理块组成。每个像素组包括一个温度传感器和16个三模态传感器像素，而每个三模态传感器像素可以独立配置用于细胞外电压记录、细胞阻抗测量(电压激励/电流传感)和光学检测。该传感器阵列支持像素级的多模态细胞传感，可以在相同的细胞样本上实现整体细胞表征和联合模态生理监测，像素分辨率为80 μm×100 μm。不同活细胞样本的综合生物学实验证明了在基于细胞的分析和药物筛选中提出的多模态传感的功能和益处。

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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.