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Computational representation and hemodynamic characterization of in vivo acquired severe stenotic renal artery geometries using turbulence modeling

机译：使用湍流模型在体内获得严重的狭窄肾动脉几何形状的计算表示和血液动力学表征

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摘要

The present study reports on computational fluid dynamics in the case of severe renal artery stenosis (RAS). An anatomically realistic model of a renal artery was reconstructed from CT scans, and used to conduct CFD simulations of blood flow across RAS. The recently developed Shear Stress Transport turbulence model was pivotally applied in the simulation of blood flow in the region of interest. Blood flow was studied in vivo under the presence of RAS and subsequently in simulated cases before the development of RAS, and after endovascular stent implantation. The pressure gradients in the RAS case were many orders of magnitude larger than in the healthy case. The presence of RAS increased flow resistance, which led to considerably lower blood flow rates. A simulated stent in place of the RAS decreased the flow resistance at levels proportional to, and even lower than, the simulated healthy case without the RAS. The wall shear stresses, differential pressure profiles, and net forces exerted on the surface of the atherosclerotic plaque at peak pulse were shown to be of relevant high distinctiveness, so as to be considered potential indicators of hemodynamically significant RAS.

机译：本研究报告了严重肾动脉狭窄（RAS）情况下的计算流体动力学。从CT扫描重建肾动脉的解剖学逼真模型，并将其用于进行穿过RAS的血流的CFD模拟。最近开发的剪切应力传输湍流模型被关键地应用于感兴趣区域的血流模拟。在RAS存在的情况下在体内研究了血流，随后在RAS发生之前和血管内支架植入后的模拟病例中进行了研究。 RAS病例中的压力梯度比健康病例大许多数量级。 RAS的存在会增加流动阻力，从而导致血液流速大大降低。代替RAS的模拟支架将流阻降低到与没有RAS的模拟健康病例成比例甚至更低的水平。峰值脉冲时，壁剪切应力，压差分布和施加在动脉粥样硬化斑块表面的净力显示出很高的相关性，因此被认为是血液动力学上重要的RAS的潜在指标。

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Kagadis, George; Skouras, Eugene; Bourantas, Georgios; Paraskeva, Christaki; Katsanos, Konstantinos; Karnabatidis, Dimitris; Nikiforidis, George;
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年度 2008
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正文语种 en
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Computational representation and hemodynamic characterization of in vivo acquired severe stenotic renal artery geometries using turbulence modeling

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