Issue 4, 2024
From the journal:

Lab on a Chip

Survival of P. falciparum infected red blood cell aggregates in elongational shear flow

Anna M. Jötten,ab   Anabelle Schepp,a   Adam Machon,c   Kirsten Moll,d   Mats Wahlgren,d   Timm Krüger ORCID logo c  and  Christoph Westerhausen ORCID logo *aef  

* Corresponding authors

a Institute of Physics, University of Augsburg, 86159 Augsburg, Germany
E-mail: christoph.westerhausen@gmail.com

b Faculty of Physics, Ludwig-Maximilians-Universität München, 80539 Munich, Germany

c School of Engineering, Institute for Multiscale Thermofluids, University of Edinburgh, Edinburgh EH9 3FB, UK

d Department of Microbiology, Tumor and Cell Biology, Karolinska Institutet, 171 77 Stockholm, Sweden

e Physiology, Institute of Theoretical Medicine, Faculty of Medicine, University of Augsburg, 86159 Augsburg, Germany

f Center for Advanced Analytics and Predicitve Sciences, University of Augsburg, 86159 Augsburg, Germany

Abstract

Rosetting, the formation of red blood cell aggregates, is a life-threatening condition in malaria tropica and not yet fully understood. We study rosette stability using a set of microfluidic stenotic channels, with varied narrowing angle and erythrocytes of blood groups O and A. We find reduced ability of a rosette to pass a stenosis without disruption, the longer the tapered part of the constriction and the narrower the stenosis is. In general, this ability increases with rosette size and is 5–15% higher in blood group A. The experimental results are substantiated by equivalent experiments using lectin-induced red blood cell aggregates and a simulation of the underlying protein binding kinetics.

Graphical abstract: Survival of P. falciparum infected red blood cell aggregates in elongational shear flow

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Article information

DOI
https://doi.org/10.1039/D3LC00552F
Article type
Paper
Submitted
22 Jun 2023
Accepted
20 Dec 2023
First published
11 Jan 2024

Lab Chip, 2024,24, 787-797

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Survival of P. falciparum infected red blood cell aggregates in elongational shear flow

A. M. Jötten, A. Schepp, A. Machon, K. Moll, M. Wahlgren, T. Krüger and C. Westerhausen, Lab Chip, 2024, 24, 787 DOI: 10.1039/D3LC00552F

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