一种用于连续流下乳腺癌细胞无标记定量的高通量芯片实验室系统

M.K. Aslan , Y. Demircan Yalcin , E. Ozgur , U. Gunduz , S. Eminoglu , H. Kulah , T. Akin
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引用次数: 4

摘要

本文提出了一种结合微流控DEP通道和CMOS图像传感器的LOC系统,用于连续流动下MCF-7细胞的标签和无透镜检测和实时计数。利用集成在DEP通道下方的CMOS图像传感器,在流动中精确检测和计数被捕获和释放的MCF-7细胞,这在文献中是第一次。CMOS图像传感器每秒可捕获391帧(fps),可以检测以高达130 μl/min (0.468 m/s)的流速流过通道的释放细胞。因此,所提出的系统能够检测高流量下的细胞,而传统的细胞定量技术如荧光标记变得不可用。检测到的细胞通过计算机程序自动计数,整个系统的计数准确率达95%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A High Throughput Lab-On-A-Chip System for Label Free Quantification of Breast Cancer Cells under Continuous Flow

This paper presents an LOC system combining microfluidic DEP channel with a CMOS image sensor for label and lens free detection and real-time counting of MCF-7 cells under continuous flow. Trapped and then released MCF-7 cells are accurately detected and counted under flow with a CMOS image sensor integrated underneath the DEP channel, for the first time in the literature. CMOS image sensor can capture 391 frames per second (fps) that allows detection of the released cells flowing through the channel with a flow rate up to 130 μl/min (0.468 m/s). Therefore, the proposed system is able to detect the cells under high flow where conventional techniques for cell quantification such as fluorescent tagging become unusable. Detected cells are automatically counted with a computer program and the counting accuracy of the whole system is 95%.

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