右冠状动脉异常主动脉起源的患者特异性流体-结构模拟。

Patient-specific fluid-structure simulations of anomalous aortic origin of right coronary arteries.

作者信息

Jiang Michael X, Khan Muhammad O, Ghobrial Joanna, Rogers Ian S, Pettersson Gosta B, Blackstone Eugene H, Marsden Alison L

机构信息

Cleveland Clinic Lerner College of Medicine, Cleveland, Ohio.

Department of Pediatrics, Cleveland Clinic Children's Hospital, Cleveland, Ohio.

出版信息

JTCVS Tech. 2022 Feb 25;13:144-162. doi: 10.1016/j.xjtc.2022.02.022. eCollection 2022 Jun.

DOI:10.1016/j.xjtc.2022.02.022

PMID:35711199

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9196314/

Abstract

OBJECTIVES

Anomalous aortic origin of the right coronary artery (AAORCA) may cause ischemia and sudden death. However, the specific anatomic indications for surgery are unclear, so dobutamine-stress instantaneous wave-free ratio (iFR) is increasingly used. Meanwhile, advances in fluid-structure interaction (FSI) modeling can simulate the pulsatile hemodynamics and tissue deformation. We sought to evaluate the feasibility of simulating the resting and dobutamine-stress iFR in AAORCA using patient-specific FSI models and to visualize the mechanism of ischemia within the intramural geometry and associated lumen narrowing.

METHODS

We developed 6 patient-specific FSI models of AAORCA using SimVascular software. Three-dimensional geometries were segmented from coronary computed tomography angiography. Vascular outlets were coupled to lumped-parameter networks that included dynamic compression of the coronary microvasculature and were tuned to each patient's vitals and cardiac output.

RESULTS

All cases were interarterial, and 5 of 6 had an intramural course. Measured iFRs ranged from 0.95 to 0.98 at rest and 0.80 to 0.95 under dobutamine stress. After we tuned the distal coronary resistances to achieve a stress flow rate triple that at rest, the simulations adequately matched the measured iFRs (r = 0.85, root-mean-square error = 0.04). The intramural lumen remained narrowed with simulated stress and resulted in lower iFRs without needing external compression from the pulmonary root.

CONCLUSIONS

Patient-specific FSI modeling of AAORCA is a promising, noninvasive method to assess the iFR reduction caused by intramural geometries and inform surgical intervention. However, the models' sensitivity to distal coronary resistance suggests that quantitative stress-perfusion imaging may augment virtual and invasive iFR studies.

摘要

目的

右冠状动脉异常起源于主动脉（AAORCA）可能导致心肌缺血和猝死。然而，手术的具体解剖学指征尚不清楚，因此多巴酚丁胺负荷瞬时无波比值（iFR）的应用越来越广泛。同时，流固耦合（FSI）建模的进展能够模拟搏动血流动力学和组织变形。我们旨在评估使用患者特异性FSI模型模拟AAORCA静息和多巴酚丁胺负荷iFR的可行性，并在心肌壁内几何结构和相关管腔狭窄范围内可视化缺血机制。

方法

我们使用SimVascular软件开发了6个AAORCA患者特异性FSI模型。从冠状动脉计算机断层扫描血管造影中分割出三维几何结构。血管出口与集总参数网络相连，该网络包括冠状动脉微血管的动态压缩，并根据每个患者的生命体征和心输出量进行调整。

结果

所有病例均为动脉间型，6例中有5例走行于心肌壁内。静息时测量的iFR范围为0.95至0.98，多巴酚丁胺负荷下为0.80至0.95。在我们调整远端冠状动脉阻力以实现负荷时血流速度为静息时的三倍后，模拟结果与测量的iFR充分匹配（r = 0.85，均方根误差 = 0.04）。模拟负荷时心肌壁内管腔仍保持狭窄，导致iFR降低，且无需肺动脉根部的外部压迫。

结论

AAORCA患者特异性FSI建模是一种有前景的无创方法，可评估心肌壁内几何结构导致的iFR降低，并为手术干预提供依据。然而，模型对远端冠状动脉阻力的敏感性表明，定量应力灌注成像可能会增强虚拟和有创iFR研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3460/9196314/5f239fb7a985/fx1.jpg

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右冠状动脉异常主动脉起源的患者特异性流体-结构模拟。

Patient-specific fluid-structure simulations of anomalous aortic origin of right coronary arteries.

作者信息

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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