高剪切力诱导血小板聚集起始阶段的血流动力学条件：一项结合实验和细胞的研究

Haemodynamic flow conditions at the initiation of high-shear platelet aggregation: a combined and cellular study.

作者信息

van Rooij B J M, Závodszky G, Hoekstra A G, Ku D N

机构信息

Computational Science Lab, Informatics Institute, University of Amsterdam, Amsterdam, The Netherlands.

Mechanical Engineering, Georgia Institute of Technology, Atlanta, GA, USA.

出版信息

Interface Focus. 2021 Feb 6;11(1):20190126. doi: 10.1098/rsfs.2019.0126. Epub 2020 Dec 11.

DOI:10.1098/rsfs.2019.0126

PMID:33335707

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7739908/

Abstract

The influence of the flow environment on platelet aggregation is not fully understood in high-shear thrombosis. The objective of this study is to investigate the role of a high shear rate in initial platelet aggregation. The haemodynamic conditions in a microfluidic device are studied using cell-based blood flow simulations. The results are compared with platelet aggregation experiments performed with porcine whole blood (WB) and platelet-rich-plasma (PRP). We studied whether the cell-depleted layer in combination with high shear and high platelet flux can account for the distribution of platelet aggregates. High platelet fluxes at the wall were found . In WB, the platelet flux was about twice as high as in PRP. Additionally, initial platelet aggregation and occlusion were observed in the stenotic region. In PRP, the position of the occlusive thrombus was located more downstream than in WB. Furthermore, the shear rates and stresses in cell-based and continuum simulations were studied. We found that a continuum simulation is a good approximation for PRP. For WB, it cannot predict the correct values near the wall.

摘要

在高剪切血栓形成过程中，血流环境对血小板聚集的影响尚未完全明确。本研究的目的是探究高剪切速率在初始血小板聚集中的作用。利用基于细胞的血流模拟研究微流控装置中的血流动力学状况。将结果与用猪全血（WB）和富血小板血浆（PRP）进行的血小板聚集实验进行比较。我们研究了细胞耗尽层与高剪切和高血小板通量相结合是否能解释血小板聚集体的分布情况。发现壁面处存在高血小板通量。在WB中，血小板通量约为PRP中的两倍。此外，在狭窄区域观察到了初始血小板聚集和阻塞现象。在PRP中，闭塞性血栓的位置比在WB中更靠下游。此外，还研究了基于细胞模拟和连续介质模拟中的剪切速率和应力。我们发现连续介质模拟对于PRP是一个很好的近似。对于WB，它无法预测壁面附近的正确值。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1178/7739908/866691c203a2/rsfs20190126-g1.jpg

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高剪切力诱导血小板聚集起始阶段的血流动力学条件：一项结合实验和细胞的研究

Haemodynamic flow conditions at the initiation of high-shear platelet aggregation: a combined and cellular study.

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