Micromachines (Apr 2021)

Extremely High-Throughput Parallel Microfluidic Vortex-Actuated Cell Sorting

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

DOI
https://doi.org/10.3390/mi12040389
Journal volume & issue
Vol. 12, no. 4
p. 389

Abstract

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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.

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