Issue 33, 2023

Cell-free layer development and spatial organization of healthy and rigid red blood cells in a microfluidic bifurcation

Abstract

Bifurcations and branches in the microcirculation dramatically affect blood flow as they determine the spatiotemporal organization of red blood cells (RBCs). Such changes in vessel geometries can further influence the formation of a cell-free layer (CFL) close to the vessel walls. Biophysical cell properties, such as their deformability, which is impaired in various diseases, are often thought to impact blood flow and affect the distribution of flowing RBCs. This study investigates the flow behavior of healthy and artificially hardened RBCs in a bifurcating microfluidic T-junction. We determine the RBC distribution across the channel width at multiple positions before and after the bifurcation. Thus, we reveal distinct focusing profiles in the feeding mother channel for rigid and healthy RBCs that dramatically impact the cell organization in the successive daughter channels. Moreover, we experimentally show how the characteristic asymmetric CFLs in the daughter vessels develop along their flow direction. Complimentary numerical simulations indicate that the buildup of the CFL is faster for healthy than for rigid RBCs. Our results provide fundamental knowledge to understand the partitioning of rigid RBC as a model of cells with pathologically impaired deformability in complex in vitro networks.

Graphical abstract: Cell-free layer development and spatial organization of healthy and rigid red blood cells in a microfluidic bifurcation

Supplementary files

Article information

Article type
Paper
Submitted
17 Apr 2023
Accepted
24 Jul 2023
First published
31 Jul 2023
This article is Open Access
Creative Commons BY-NC license

Soft Matter, 2023,19, 6255-6266

Cell-free layer development and spatial organization of healthy and rigid red blood cells in a microfluidic bifurcation

Y. Rashidi, O. Aouane, A. Darras, T. John, J. Harting, C. Wagner and S. M. Recktenwald, Soft Matter, 2023, 19, 6255 DOI: 10.1039/D3SM00517H

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