超高通量并行微流控涡旋驱动细胞分选

Extremely High-Throughput Parallel Microfluidic Vortex-Actuated Cell Sorting.

作者信息

Zhukov Alex A, Pritchard Robyn H, Withers Mick J, Hailes Tony, Gold Richard D, Hayes Calum, la Cour Mette F, Hussein Fred, Rogers Salman Samson

机构信息

Cellular Highways Ltd., Melbourn Science Park, Melbourn, Cambridgeshire SG8 6EE, UK.

TTP PLC, Melbourn Science Park, Melbourn, Cambridgeshire SG8 6EE, UK.

出版信息

Micromachines (Basel). 2021 Apr 2;12(4):389. doi: 10.3390/mi12040389.

DOI:10.3390/mi12040389

PMID:33918161

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8066247/

Abstract

We demonstrate extremely high-throughput microfluidic cell sorting by making a parallel version of the vortex-actuated cell sorter (VACS). The set-up includes a parallel microfluidic sorter chip and parallel cytometry instrumentation: optics, electronics and control software. The result is capable of sorting lymphocyte-sized particles at 16 times the rate of our single-stream VACS devices, and approximately 10 times the rate of commercial cell sorters for an equivalent procedure. We believe this opens the potential to scale cell sorting for applications requiring the processing of much greater cell numbers than currently possible with conventional cell sorting.

摘要

通过制作涡旋驱动细胞分选仪（VACS）的并行版本，我们展示了极高通量的微流控细胞分选。该装置包括一个并行微流控分选芯片以及并行细胞计数仪器：光学器件、电子设备和控制软件。其结果是能够以比我们的单流VACS设备快16倍的速度分选淋巴细胞大小的颗粒，对于同等操作，速度约为商用细胞分选仪的10倍。我们相信，这为扩大细胞分选规模带来了潜力，可用于处理比传统细胞分选目前所能处理的数量多得多的细胞的应用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b9b5/8066247/f8c15e419d15/micromachines-12-00389-g001.jpg

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本文引用的文献

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Separation of cancer cells using vortical microfluidic flows.利用涡旋微流体流动分离癌细胞。

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Lab Chip. 2017 Mar 29;17(7):1287-1296. doi: 10.1039/c6lc01560c.

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超高通量并行微流控涡旋驱动细胞分选

Extremely High-Throughput Parallel Microfluidic Vortex-Actuated Cell Sorting.

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