A hydrodynamic-based dual-function microfluidic chip for high throughput discriminating tumor cells

化学 微通道 微流控 微流控芯片 Lift(数据挖掘) 炸薯条 体积流量 循环肿瘤细胞 纳米技术 红细胞 生物物理学 生物医学工程 色谱法 分析化学(期刊) 机械 电气工程 物理 癌症 数据挖掘 内科学 工程类 生物 医学 生物化学 材料科学 转移 计算机科学
作者
Yu-Jia Wei,Xing Wei,Xuan Zhang,Cheng-Xing Wu,Ji-Ying Cai,Mingli Chen,Jianhua Wang
出处
期刊:Talanta [Elsevier BV]
卷期号:273: 125884-125884 被引量:1
标识
DOI:10.1016/j.talanta.2024.125884
摘要

A hydrodynamic-based microfluidic chip consisted of two function units that could not only separate tumor cells (TCs) from whole blood but also remove residual blood cells was designed. The separation of TCs was achieved by a straight contraction-expansion array (CEA) microchannel on the front end of the chip. The addition of contractive structure brought a micro-vortex like Dean vortex that promoted cell focusing in the channel, while when cells entered the dilated region, the wall-induced lift force generated by the channel wall gave cells a push away from the wall. As the wall-induced lift force is proportional to the third power of the cell diameter, TCs with larger diameter will have a larger lateral migration under the wall-induced lift force, realizing the separation of TCs from blood sample. Fluorescent particles with diameters of 19.3 μm and 4.5 μm were used to simulate TCs and red blood cells, respectively, to verify the separation capacity of the proposed CEA microchannel for particles with different diameter. And a separation efficiency 98.7% for 19.3 μm particles and a removal rate 96.2% for 4.5 μm particles was observed at sample flow rate of 10 μL min−1 and sheath flow rate of 190 μL min−1. In addition, a separation efficiency about 96.1% for MCF-7 cells (stained with DiI) and removal rates of 96.2% for red blood cells (RBCs) and 98.7% for white blood cells (WBCs) were also obtained under the same condition. However, on account of the large number of blood cells in the blood, there will be a large number of blood cells remained in the isolated TCs, so a purification unit based on hydrodynamic filtration (HDF) was added after the separation microchannel. The purification channel is a size-dictated cell filter that can remove residual blood cells but retain TCs, thus achieving the purification of TCs. Combined the CEA microchannel and the purifier, the microchip facilitates sorting of MCF-7 cells from whole blood with a separation rate about 95.3% and a removal rate over 99.99% for blood cells at a sample flow rate of 10 μL min−1, sheath flow rate of 190 μL min−1 and washing flow rate of 63 μL min−1.
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