Particle Size Determination in Impedance Flow Cytometry Using Measured Opacity

Douwe S de Bruijn, K. F. Jorissen, W. Olthuis, A. van den Berg
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引用次数: 1

Abstract

Microfluidic electrical flow cytometry is a popular method to study a wide variety of biological cell properties. Unfortunately, when using coplanar electrodes, this method is sensitive to positional differences of passing particles or cells. In this work we present a novel compensation method to account for the particle position in a coplanar electrode setup using the measured electrical opacity. We demonstrate an accurate size discrimination of 5, 6 and 7 µm polystyrene beads irrespective of their position using the measured electrical opacity making use of the variation of electrical field strength with height in the channel. Thus, only two electrodes are required, which is favorable for microfluidic devices with size limitations.
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采用测量不透明度的阻抗流式细胞术测定颗粒大小
微流控电流式细胞术是研究多种生物细胞特性的常用方法。不幸的是,当使用共面电极时,这种方法对通过的粒子或细胞的位置差异很敏感。在这项工作中,我们提出了一种新的补偿方法,利用测量的电不透明度来解释共面电极设置中的粒子位置。我们利用电场强度随通道高度的变化,利用测量的电不透明度,证明了5,6和7 μ m聚苯乙烯珠的精确尺寸判别,而不管它们的位置如何。因此,只需要两个电极,这有利于具有尺寸限制的微流体装置。
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