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首页> 外文期刊>Applied Mathematical Modelling >Significance of plaque morphology in modifying flow characteristics in a diseased coronary artery: Numerical simulation using plaque measurements from intravascular ultrasound imaging
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Significance of plaque morphology in modifying flow characteristics in a diseased coronary artery: Numerical simulation using plaque measurements from intravascular ultrasound imaging

机译:斑块形态对改变病变冠状动脉血流特性的意义:利用血管内超声成像中斑块测量的数值模拟

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The paper deals with numerical investigation of the effect of plaque morphology on the flow characteristics in a diseased coronary artery using realistic plaque morphology. The morphological information of the lumen and the plaque is obtained from intravascular ultrasound imaging measurements of 42 patients performed at Cleveland Clinic Foundation, Ohio. For this data, study of Bhaganagar et al. (2010) [1] has revealed the stenosis for 42 patients can be categorized into four types - type Ⅰ (peak-valley), type Ⅱ (ascending), type Ⅲ(descending), and type Ⅳ (diffuse). The aim of the present study is to isolate the effect of shape of the stenosis on the flow characteristics for a given degree of the stenosis. In this study, we conduct fluid dynamic simulations for the four stenosis types (type Ⅰ-Ⅳ) and analyze the differences in the flow characteristics between these types. Finely refined tetrahedral mesh for the 3-D solid model of the artery with plaques has been generated. The 3-D steady flow simulations were performed using the turbulence (κ-ε) model in a finite volume based computational fluid dynamics solver. The axial velocity, the radial velocity, turbulence kinetic energy and wall shear stress profiles of the plaque have been analyzed. From the axial and radial velocity profiles results the differences in the velocity patterns are significantly visible at proximal as well as distal to the throat, region of maximum stenosis. Turbulent kinetic energy and wall shear stress profiles have revealed signif icant differences in the vicinity of the plaque. Additional unsteady flow simulations have been performed to validate the hypothesis of the significance of plaque morphology in flow alterations in diseased coronary artery. The results revealed the importance of accounting for plaque morphology in addition to plaque height to accurately characterize the turbulent flow in a diseased coronary artery.
机译:本文利用实际斑块形态学,对斑块形态对患病冠状动脉血流特性的影响进行了数值研究。内腔和斑块的形态信息是从俄亥俄州克利夫兰诊所基金会对42例患者进行的血管内超声成像测量获得的。对于此数据,Bhaganagar等人的研究。 (2010)[1]揭示了42例患者的狭窄可以分为四种类型-Ⅰ型(峰谷),Ⅱ型(升序),Ⅲ型(降序)和Ⅳ型(弥散型)。本研究的目的是针对给定程度的狭窄隔离狭窄形状对流动特性的影响。在这项研究中,我们对四种狭窄类型(Ⅰ-Ⅳ)进行了流体动力学模拟,并分析了这两种狭窄类型之间的流动特性差异。生成了带有斑块的动脉的3-D实体模型的精细四面体网格。在基于有限体积的计算流体动力学求解器中,使用湍流(κ-ε)模型进行了3-D稳态流动仿真。分析了板的轴向速度,径向速度,湍流动能和壁切应力曲线。从轴向和径向速度分布图结果可知,在最大狭窄区域的近端和远端,速度模式的差异明显可见。湍动能和壁切应力分布图显示了斑块附近的显着差异。已经进行了其他非稳态流动模拟,以验证斑块形态在患病冠状动脉血流改变中的重要性的假说。结果揭示了除了斑块高度以外,考虑斑块形态对准确表征患病冠状动脉中的湍流的重要性。

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