Victor W. Azizi Tarksalooyeh scite author profile

Victor W. Azizi Tarksalooyeh

3Publications

31Citation Statements Received

102Citation Statements Given

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Affiliations

University of Amsterdam

Publications

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Identifying the start of a platelet aggregate by the shear rate and the cell-depleted layer

Rooij

Závodszky

Tarksalooyeh

et al. 2019

J. R. Soc. Interface.

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Computer simulations were performed to study the transport of red blood cells and platelets in high shear flows, mimicking earlier published in vitro experiments in microfluidic devices with high affinity for platelet aggregate formation. The goal is to understand and predict where thrombus formation starts. Additionally, the need of cell-based modelling in these microfluidic devices is demonstrated by comparing our results with macroscopic models, wherein blood is modelled as a continuous fluid. Hemocell, a cell-based blood flow simulation framework is used to investigate the transport physics in the microfluidic devices. The simulations show an enlarged cell-depleted layer at the site where a platelet aggregate forms in the experiments. In this enlarged cell-depleted layer, the probability to find a platelet is higher than in the rest of the microfluidic device. In addition, the shear rates are sufficiently high to allow for the von Willebrand factor to elongate in this region. We hypothesize that the enlarged cell-depleted layer combined with a sufficiently large platelet flux and sufficiently high shear rates result in an haemodynamic environment that is a preferred location for initial platelet aggregation.

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Inflow and outflow boundary conditions for 2D suspension simulations with the immersed boundary lattice Boltzmann method

et al. 2018

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Supplementary material from "Identifying the start of a platelet aggregate by the shear rate and the cell-depleted layer"

Rooij¹,

Závodszky²,

Tarksalooyeh³

et al. 2019

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