In-Flow Dielectrophoresis Sensor for Measuring the Dielectric Spectrum of Single Cells: Viable and Non-viable Cells

S. Afshar, A. Fazelkhah, E. Salimi, M. Butler, D. Thomson, G. Bridges
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引用次数: 2

Abstract

The dielectric properties of biological cells can be used to gain information on their physiology and morphology. We present a wideband dielectrophoresis (DEP) sensor that measures the dielectric spectrum of single cells while they flow through a microfluidic channel. We describe how an asymmetric co-planar electrode array can be used to apply DEP actuation to individual cells and then accurately measure their translation. This enables determination of the equivalent complex dielectric permittivity of the cell. Measurement over the beta-dispersion (interfacial) frequency range then facilitates determination of the cell's structural dimensions and the dielectric properties of its compartments. We measure the dielectric spectrums of viable and non-viable Chinese hamster ovary (CHO) cells, as induced through starvation, and show how they are related to changes in the cell’s membrane permittivity and cytoplasm conductivity.
用于测量单细胞介电谱的流内双向电泳传感器:活细胞和非活细胞
生物细胞的介电特性可用于获取其生理和形态信息。我们提出了一种宽带介质电泳(DEP)传感器,测量单个细胞流过微流体通道时的介电光谱。我们描述了如何使用非对称共面电极阵列将DEP驱动应用于单个细胞,然后精确测量它们的平移。这样就可以测定电池的等效复介电常数。在-色散(界面)频率范围内的测量有助于确定电池的结构尺寸及其隔室的介电特性。我们测量了饥饿诱导的有活力和无活力的中国仓鼠卵巢(CHO)细胞的介电光谱,并展示了它们与细胞膜介电常数和细胞质电导率变化的关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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