血凝块表面纤维蛋白积累和血小板动力学的多尺度模型。

Multiscale model of fibrin accumulation on the blood clot surface and platelet dynamics.

作者信息

Xu Zhiliang, Christley Scott, Lioi Joshua, Kim Oleg, Harvey Cameron, Sun Wenzhao, Rosen Elliot D, Alber Mark

机构信息

Department of Applied and Computational Mathematics, University of Notre Dame, Notre Dame, Indiana, USA.

出版信息

Methods Cell Biol. 2012;110:367-88. doi: 10.1016/B978-0-12-388403-9.00014-X.

DOI:10.1016/B978-0-12-388403-9.00014-X

PMID:22482956

Abstract

A multiscale computational model of thrombus (blood clot) development is extended by incorporating a submodel describing formation of fibrin network through "fibrin elements" representing regions occupied by polymerized fibrin. Simulations demonstrate that fibrin accumulates on the surface of the thrombus and that fibrin network limits growth by reducing thrombin concentrations on the thrombus surface and decreasing adhesivity of resting platelets in blood near thrombus surface. These results suggest that fibrin accumulation may not only increase the structural integrity of the thrombus but also considerably contribute toward limiting its growth. Also, a fast Graphics Processing Unit implementation is described for a multiscale computational model of the platelet-blood flow interaction.

摘要

通过纳入一个子模型来扩展血栓（血凝块）形成的多尺度计算模型，该子模型通过代表聚合纤维蛋白占据区域的“纤维蛋白元件”来描述纤维蛋白网络的形成。模拟结果表明，纤维蛋白在血栓表面积累，并且纤维蛋白网络通过降低血栓表面的凝血酶浓度以及减少血栓表面附近血液中静止血小板的粘附性来限制血栓生长。这些结果表明，纤维蛋白的积累不仅可能增加血栓的结构完整性，而且在很大程度上有助于限制其生长。此外，还描述了一种针对血小板 - 血流相互作用多尺度计算模型的快速图形处理单元实现方法。

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血凝块表面纤维蛋白积累和血小板动力学的多尺度模型。

Multiscale model of fibrin accumulation on the blood clot surface and platelet dynamics.

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