PLATELET DAMAGE ACCUMULATION AND RECOVERY DUE TO HEMODYNAMIC SHEAR STRESSES: AN IN VITRO STUDY

机译：血液动态剪切应力导致的血小板损伤累积和恢复：体外研究

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It is well established that shear stress exposure activates platelets, and it has been shown that this flow-induced activation contributes significantly to thromboembolic complications in mechanical heart valves (MHVs). In addition, the platelet activation state (PAS) assay has been demonstrated to be an efficient technique to measure procoagulant activity. However, there is a lack of reliable models to predict platelet damage accumulation. Such a tool allows thrombogenicity optimization of implanted prosthetic devices. Prior to developing this tool, certain aspects of platelet behavior in response to shear stress must be elucidated. Of special importance for developing accountable damage accumulation models is the recovery potential of platelets during repeated passages through devices, when not exposed to the elevated stresses characterizing blood flow in these devices.

机译：公认的是，剪切应力暴露会激活血小板，并且已经表明这种流动诱导的激活显着促进了机械心脏瓣膜（MHV）中的血栓栓塞并发症。另外，已经证明血小板活化状态（PAS）测定法是测量促凝活性的有效技术。但是，缺乏可靠的模型来预测血小板损伤的累积。这样的工具允许植入的假体装置的血栓形成性优化。在开发该工具之前，必须阐明血小板响应剪切应力的某些方面。对于开发可靠的损伤累积模型而言，特别重要的是血小板反复通过设备时的恢复潜力，当它们未暴露于表征这些设备中血流的升高的压力时。

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《ASME summer bioengineering conference;SBC2008》|2009年|825-826|共2页
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Jawaad Sheriff; Jolyon Jesty; Danny Bluestein;
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1. Platelet activation due to hemodynamic shear stresses: damage accumulation model and comparison to in vitro measurements. [J] . Nobili M, Sheriff J, Morbiducci U, ASAIO journal . 2008,第1期

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PLATELET DAMAGE ACCUMULATION AND RECOVERY DUE TO HEMODYNAMIC SHEAR STRESSES: AN IN VITRO STUDY

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