ADDITION OF REMESHING TECHNIQUE TO THE STENT IMPLANTATION SOFTWARE AND ITS EFFECT ON THE SIMULATION OUTCOME

T. Djukić, I. Šaveljić, N. Filipovic
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Abstract

Stent implanation is one of the clinical treatments of stenotic arteries. This clinical procedure requires careful planning that considers the geometry of the artery of the particular patient. The numerical simulation can be very useful to analyze the state of the arterial wall during and after this intervention. The numerical model considered within this paper simulates the expansion of the stent and subsequent deformation of the arterial wall using finite element method. This model was validated in literature against clinical data. Within the implementation, the tetrahedral finite elements were used. But, this type of elements can cause inaccuracies and instability during simulations. Within this paper, the stent implantation software was improved by implementing hexahedral finite element mesh and applying an additional remeshing technique in order to ensure better prediction of forces exerted on stent and stress within arterial wall. The benefits of these additions are demonstrated on the simulation of stent implantation with patient-specific coronary artery. This software can be used to analyze quickly the effect of different stent size and position on the state of the arterial wall after the intervention. It represents a valuable and reliable tool for the clinicians that can help them determine the outcome of the stenting intervention and thus improve the patient-specific pre-operative planning process.
在支架植入软件中加入重网格技术及其对模拟结果的影响
支架植入术是治疗动脉狭窄的临床方法之一。这种临床手术需要仔细规划,考虑到特定患者的动脉几何形状。数值模拟可以很好地分析介入期间和介入后动脉壁的状态。本文所考虑的数值模型采用有限元法模拟支架的膨胀和随后的动脉壁变形。该模型在文献中与临床数据进行了验证。在实现中,采用了四面体有限元。但是,这种类型的元素在模拟过程中会导致不准确和不稳定。本文对支架植入软件进行了改进,采用六面体有限元网格,并采用额外的重网格技术,以确保更好地预测支架的受力和动脉壁内的应力。这些添加物的益处在患者特定冠状动脉支架植入的模拟中得到了证明。该软件可以快速分析不同支架尺寸和位置对介入后动脉壁状态的影响。对于临床医生来说,它是一种有价值和可靠的工具,可以帮助他们确定支架置入的结果,从而改善患者具体的术前计划过程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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