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High-Throughput White Blood Cell (Leukocyte) Enrichment from Whole Blood Using Hydrodynamic and Inertial Forces

机译：利用流体动力和惯性力从全血中富集高通量白细胞（白细胞）

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摘要

A microfluidic chip, which can separate and enrich leukocytes from whole blood, is proposed. The chip has 10 switchback curve channels, which are connected by straight channels. The straight channels are designed to permit the inertial migration effect and to concentrate the blood cells, while the curve channels allow the Dean flow to further classify the blood cells based on the cell sizes. Hydrodynamic suction is also utilized to remove smaller blood cells (e.g., red blood cell (RBC)) in the curve channels for higher separation purity. By employing the inertial migration, Dean flow force, and hydrodynamic suction in a continuous flow system, our chip successfully separates large white blood cells (WBCs) from the whole blood with the processing rates as high as 1 × 10 cells/sec at a high recovery rate at 93.2% and very few RBCs (~0.1%).

机译：提出了一种可以从全血中分离和富集白细胞的微流控芯片。该芯片具有10条折回曲线通道，这些通道通过直线通道连接。直通道设计为允许惯性迁移效果并集中血细胞，而弯曲通道则允许Dean流根据细胞大小进一步对血细胞进行分类。流体动力抽吸还用于去除弯道中较小的血细胞（例如红血球（RBC）），以实现更高的分离纯度。通过在连续流系统中利用惯性迁移，迪安流动力和流体动力吸力，我们的芯片成功地从全血中分离出大白细胞（WBC），处理速度高达1×10细胞/秒回收率为93.2％，几乎没有RBC（〜0.1％）。

著录项

期刊名称 Micromachines
作者
Batzorig Lombodorj; Horas Cendana Tseng; Hwan-You Chang; Yen-Wen Lu; Namnan Tumurpurev; Chun-Wei Lee; Batdemberel Ganbat; Ren-Guei Wu; Fan-Gang Tseng;
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年(卷),期 2020(11),3
年度 2020
页码 -1
总页数 13
原文格式 PDF
正文语种
中图分类
关键词
blood separation; microfluidics;

机译：血液分离;微流控;

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专利

1. Label-free microfluidic enrichment of ring-stage Plasmodium falciparum-infected red blood cells using non-inertial hydrodynamic lift [J] . Thomas M Geislinger, Sherwin Chan, Kirsten Moll, Malaria Journal . 2014,第S1期

机译：使用非惯性流体动力提升技术无标记地微循环富集环期恶性疟原虫感染的红细胞
2. High-throughput residual white blood cell counter enabled by microfluidic cell enrichment and reagent-containing patch integration [J] . Kim Byeongyeon, Shin Suyeon, Lee Yujin, Sensors and Actuators . 2019,第MARa期

机译：通过微流体富集和含试剂的贴片整合实现高通量残留白细胞计数器
3. Inertial microfluidic cube for automatic and fast extraction of white blood cells from whole blood [J] . Nature reviews Cancer . 2020,第2期

机译：惯性微流体立方体用于全血自动和快速提取白细胞
4. High-throughput white blood cells (leukocytes) separation and enrichment from whole blood by hydrodynamic and inertial force [C] . Tseng Horas-Cendana, Wu Ren-Guei, Chang Hwan-You, Micro Electro Mechanical Systems (MEMS), 2012 IEEE 25th International Conference on . 2012

机译：通过流体动力和惯性力从全血中分离和富集高通量白细胞（白细胞）
5. Cerebral ischemia and reperfusion injury: The role of the white blood cell and white blood cell modulation by pentoxifylline. [D] . Heinel, Lynn Ann. 1992

机译：脑缺血和再灌注损伤：己酮可可碱对白细胞和白细胞的调节作用。
6. Label-free microfluidic enrichment of ring-stage Plasmodium falciparum-infected red blood cells using non-inertial hydrodynamic lift [O] . Thomas M Geislinger, Sherwin Chan, Kirsten Moll, 2014

机译：使用非惯性流体动力提升技术无标记地微循环富集环期恶性疟原虫感染的红细胞
7. High-Throughput Separation of White Blood Cells From Whole Blood Using Inertial Microfluidics [O] . Jun Zhang, Dan Yuan, Ronald Sluyter, 2017

机译：使用惯性微流体从全血中血细胞的高通量分离

High-Throughput White Blood Cell (Leukocyte) Enrichment from Whole Blood Using Hydrodynamic and Inertial Forces

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