Issue 2, 2020

Cross-sectional focusing of red blood cells in a constricted microfluidic channel

Abstract

Constrictions in blood vessels and microfluidic devices can dramatically change the spatial distribution of passing cells or particles and are commonly used in biomedical cell sorting applications. However, the three-dimensional nature of cell focusing in the channel cross-section remains poorly investigated. Here, we explore the cross-sectional distribution of living and rigid red blood cells passing a constricted microfluidic channel by tracking individual cells in multiple layers across the channel depth and across the channel width. While cells are homogeneously distributed in the channel cross-section pre-contraction, we observe a strong geometry-induced focusing towards the four channel faces post-contraction. The magnitude of this cross-sectional focusing effect increases with increasing Reynolds number for both living and rigid red blood cells. We discuss how this non-uniform cell distribution downstream of the contraction results in an apparent double-peaked velocity profile in particle image velocimetry analysis and show that trapping of red blood cells in the recirculation zones of the abrupt construction depends on cell deformability.

Graphical abstract: Cross-sectional focusing of red blood cells in a constricted microfluidic channel

Associated articles

Supplementary files

Article information

Article type
Paper
Submitted
27 Aug 2019
Accepted
27 Nov 2019
First published
29 Nov 2019

Soft Matter, 2020,16, 534-543

Cross-sectional focusing of red blood cells in a constricted microfluidic channel

A. Abay, S. M. Recktenwald, T. John, L. Kaestner and C. Wagner, Soft Matter, 2020, 16, 534 DOI: 10.1039/C9SM01740B

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