Effect of Variations in Intraluminal Thrombus Constitutive Properties on Abdominal Aortic Aneurysm Wall Stress: A Parametric Study

Elena S. Di Martino, D. Whang, A. Redaelli, M. Makaroun, D. Vorp
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引用次数: 1

Abstract

The prevalence of abdominal aortic aneurysm (AAA) is growing together with population age, being 8.8% in a population above 65 years according to a recent study [1]. Deciding between elective surgical repair of AAA and watchful management is a complex issue due to the lack of reliable rupture risk indices. The maximum transverse diameter of AAA is most commonly used in clinical practice to base this decision. From a biomechanical viewpoint, AAA rupture is related to the balance between the stresses acting on the wall and strength of the wall tissue. Many different factors contribute to the stress within the aortic aneurysm wall, including the presence of intraluminal thrombus (ILT) [2–5], the local surface curvature [6] and material characteristics of the AAA wall [7], and the presence of local “stress concentrators” due to calcifications or local thinning. As regards the ILT, its role with respect to aneurysm wall stresses has given rise to many hypotheses. Some studies show that the pressure inside the thrombus is not reduced with respect to the arterial blood pressure, some, including studies from the authors, state a possible protective role [2–5]. Previously in our laboratory, a nonlinear, hyperelastic constitutive model was developed for ILT, and the parameters for which were determined through ex-vivo experimentation [8]. The purpose of this study was to investigate the reliability of using the same population-mean values of ILT constitutive parameters for estimates of wall stress distribution in all AAA. For this, we performed a parametric study in which the ELT constitutive parameters were varied within a physiological range and aortic wall stresses were evaluated.
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腔内血栓本构性变化对腹主动脉瘤壁应力的影响:一项参数研究
腹主动脉瘤(AAA)的患病率随着人口年龄的增长而增长,根据最近的一项研究,在65岁以上的人群中,腹主动脉瘤(AAA)的患病率为8.8%[1]。由于缺乏可靠的破裂风险指标,决定是选择手术修复还是谨慎处理是一个复杂的问题。临床上最常用AAA的最大横径作为判断的依据。从生物力学的角度来看,AAA破裂与作用在管壁上的应力和管壁组织强度之间的平衡有关。许多不同的因素导致了主动脉瘤壁内的应力,包括腔内血栓(ILT)的存在[2-5],AAA壁的局部表面曲率[6]和材料特性[7],以及由于钙化或局部变薄导致的局部“应力集中物”的存在。至于ILT,它在动脉瘤壁应力方面的作用已经引起了许多假设。一些研究表明,血栓内的压力相对于动脉血压并没有降低,一些研究,包括作者的研究,指出了可能的保护作用[2-5]。之前在我们的实验室中,我们为ILT开发了一个非线性的超弹性本构模型,并通过离体实验确定了该模型的参数[8]。本研究的目的是研究使用相同的ILT本构参数的总体平均值来估计所有AAA壁应力分布的可靠性。为此,我们进行了一项参数研究,其中ELT本构参数在生理范围内变化,并评估了主动脉壁应力。
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