闭塞性动脉血栓形成的计算研究。

IF 3 3区 医学 Q2 BIOPHYSICS
Jian Du, Aaron L. Fogelson
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引用次数: 0

摘要

狭窄动脉中闭塞性血栓的产生涉及数百万循环血小板在高剪切流下的快速沉积。该过程是由血小板之间形成几种不同类型的分子键介导的;这些结合物捕获运动中的血小板,并在流动中稳定生长中的血栓。我们用两阶段连续模型研究了动脉闭塞性血栓形成的机制。该模型明确跟踪了两种类型的板间键的形成和破裂,其速率与局部流动条件相耦合。血小板在血栓中的运动是由血小板间结合产生的粘弹性力和流体阻力之间的竞争引起的。我们的模拟结果表明,只有在模型参数范围的特定组合下,如结合形成和破裂速率、血小板活化时间和血小板附着所需的结合数量,才会形成稳定的闭塞性血栓。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A computational investigation of occlusive arterial thrombosis

A computational investigation of occlusive arterial thrombosis

The generation of occlusive thrombi in stenotic arteries involves the rapid deposition of millions of circulating platelets under high shear flow. The process is mediated by the formation of molecular bonds of several distinct types between platelets; the bonds capture the moving platelets and stabilize the growing thrombi under flow. We investigated the mechanisms behind occlusive thrombosis in arteries with a two-phase continuum model. The model explicitly tracks the formation and rupture of the two types of interplatelet bonds, the rates of which are coupled with the local flow conditions. The motion of platelets in the thrombi results from competition between the viscoelastic forces generated by the interplatelet bonds and the fluid drag. Our simulation results indicate that stable occlusive thrombi form only under specific combinations for the ranges of model parameters such as rates of bond formation and rupture, platelet activation time, and number of bonds required for platelet attachment.

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来源期刊
Biomechanics and Modeling in Mechanobiology
Biomechanics and Modeling in Mechanobiology 工程技术-工程:生物医学
CiteScore
7.10
自引率
8.60%
发文量
119
审稿时长
6 months
期刊介绍: Mechanics regulates biological processes at the molecular, cellular, tissue, organ, and organism levels. A goal of this journal is to promote basic and applied research that integrates the expanding knowledge-bases in the allied fields of biomechanics and mechanobiology. Approaches may be experimental, theoretical, or computational; they may address phenomena at the nano, micro, or macrolevels. Of particular interest are investigations that (1) quantify the mechanical environment in which cells and matrix function in health, disease, or injury, (2) identify and quantify mechanosensitive responses and their mechanisms, (3) detail inter-relations between mechanics and biological processes such as growth, remodeling, adaptation, and repair, and (4) report discoveries that advance therapeutic and diagnostic procedures. Especially encouraged are analytical and computational models based on solid mechanics, fluid mechanics, or thermomechanics, and their interactions; also encouraged are reports of new experimental methods that expand measurement capabilities and new mathematical methods that facilitate analysis.
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