Issue 16, 2017

Front microrheology of the non-Newtonian behaviour of blood: scaling theory of erythrocyte aggregation by aging

Abstract

We introduce a new framework to study the non-Newtonian behaviour of fluids at the microscale based on the analysis of front advancement. We apply this methodology to study the non-linear rheology of blood in microchannels. We carry out experiments in which the non-linear viscosity of blood samples is quantified at different haematocrits and ages. Under these conditions, blood exhibits a power-law dependence on the shear rate. In order to analyse our experimental data, we put forward a scaling theory which allows us to define an adhesion scaling number. This theory yields a scaling behaviour of the viscosity expressed as a function of the adhesion capillary number. By applying this scaling theory to samples of different ages, we are able to quantify how the characteristic adhesion energy varies as time progresses. This connection between microscopic and mesoscopic properties allows us to estimate quantitatively the change in the cell–cell adhesion energies as the sample ages.

Graphical abstract: Front microrheology of the non-Newtonian behaviour of blood: scaling theory of erythrocyte aggregation by aging

Article information

Article type
Paper
Submitted
25 Oct 2016
Accepted
24 Mar 2017
First published
27 Mar 2017
This article is Open Access
Creative Commons BY license

Soft Matter, 2017,13, 3042-3047

Front microrheology of the non-Newtonian behaviour of blood: scaling theory of erythrocyte aggregation by aging

C. Trejo-Soto, E. Costa-Miracle, I. Rodriguez-Villarreal, J. Cid, M. Castro, T. Alarcon and A. Hernandez-Machado, Soft Matter, 2017, 13, 3042 DOI: 10.1039/C6SM02412B

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