A CMOS capacitance sensor that monitors cell viability

IEEE Sensors, 2005. Pub Date : 2005-10-31 DOI:10.1109/ICSENS.2005.1597915
S. Prakash, P. Abshire
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引用次数: 37

Abstract

We describe a CMOS capacitance sensor for measuring the capacitive behavior of living cells in a culture environment, in the presence of weak electric fields. The underlying physical phenomenon results primarily from polarization of the ionic cloud surrounding the cell in aqueous medium. The measured capacitance depends on a variety of factors including cell morphology, membrane integrity, medium pH and extra cellular ionic concentration and serves as an indicator of cell health. The capacitance sensor uses the principle of charge sharing and maps sensed capacitance values to voltages. The sensor chip has been fabricated in a commercially available 0.5 mum, 2-poly 3-metal CMOS technology. The sensors have been successfully used for long term monitoring of cell viability in vitro
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监测细胞活力的CMOS电容传感器
我们描述了一种CMOS电容传感器,用于测量在培养环境中存在弱电场的活细胞的电容行为。潜在的物理现象主要是由水介质中围绕电池的离子云的极化引起的。测得的电容取决于多种因素,包括细胞形态、膜完整性、介质pH和细胞外离子浓度,并作为细胞健康的指标。电容传感器采用电荷共享原理,并将感应电容值映射到电压。该传感器芯片采用商用的0.5 μ m、2-聚- 3金属CMOS技术制造。该传感器已成功用于体外细胞活力的长期监测
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IEEE Sensors, 2005.
IEEE Sensors, 2005.
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