基于MEMS的微流控通道血细胞分选芯片

2022 3rd International Conference on Smart Electronics and Communication (ICOSEC) Pub Date : 2022-10-20 DOI:10.1109/ICOSEC54921.2022.9952048

S. Ramya, S. Praveen Kumar, T. K. Srinivasan, T. Aravind, G. Ram, D. Lingaraja

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引用次数: 0

摘要

本研究采用液压跳跃概念分离和捕获血细胞。采用二维微流控仿真模型创建了该器件。在许多医学测试中，由于基于生物标记物和抗原的分离技术固有的困难，感兴趣的细胞的物理特征，如大小、可变形性和电磁特性变得更加重要。在本研究中，利用固有的流体动力学效应研究了微通道中的细胞/颗粒分选。通过改变通道高度，将微流体通道中的高速流动转变为具有高势能的流动，就像在大流体中一样，可以引起微流体的水力跳变。不同大小的细胞都有自己的腔室，比如9微米和4微米的细胞。该微流控装置可用于全血红细胞和白细胞的分选

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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MEMS based Chip for Blood Cell Sorting using Microfluidic Channel

Hydraulic jump concept is used to separate and capture blood cells in this study. The two-dimensional microfluidic simulation model is used to create the devices. In many medical tests, physical features of cells of interest, such as size, deformability, and electric and magnetic properties, have become more important because of the inherent difficulties of isolation techniques based on biomarkers and antigens. In this study, cell/particle sorting in microchannels is investigated by using the inherent hydrodynamic effects. Microfluidic hydraulic jumps may be induced by turning high-speed flow in a microfluidic channel into a flow that has high potential energy by varying the channel height, much as in macrofluidics. Cells of varying sizes have their own chambers, such as those measuring 9 and 4 micrometres. The proposed microfluidic device can be used for sorting RBCs and WBCs from whole blood sample

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2022 3rd International Conference on Smart Electronics and Communication (ICOSEC)

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