Flow dynamic differences between Kawasaki Disease patients with coronary artery aneurysms and ectasia.

Journal of cardiovascular computed tomography Pub Date : 2025-07-10 DOI:10.1016/j.jcct.2025.07.003

Brennan J Vogl, Joseph Chibuike Nwokeafor, Emily Hyatt, Emily Vitale, Ahmad Bshennaty, Simon Lee, John Kovalchin, James Gaensbauer, Guy Hembroff, Hoda Hatoum

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引用次数: 0

Abstract

Background: Untreated Kawasaki Disease (KD) can lead to coronary artery (CA) dilations, such as CA aneurysms (CAA), CA ectasia (CAE), or both (CAA + CAE). Currently, therapeutic decisions rely solely on geometric measurements, which have limitations. This study aims to correlate differences in flow dynamics between CAA, CAE, and CAA + CAE with clinical outcomes and thrombotic potential.

Methods: A multicenter retrospective study was performed using a total of 50 dilation models from patients with KD. Dilations were categorized as either CAA (n = 30), CAE (n = 14), or CAA + CAE (n = 6). Patient-specific 3D digital models of the CAs were created for each patient. Geometric measurements of each CA were recorded. Flow simulations were conducted and hemodynamic metrics such as time average wall shear stress (TAWSS), oscillatory shear index (OSI), relative residence time (RRT), and normalized average wall shear stress divergence (AWSS) were calculated.

Results: CAAs had the largest dilations and entrance diameters. The dilation length and aspect ratio were higher for CAEs. CAAs exhibited consistently low velocity and low TAWSS with extensive regions of co-localized high RRT and OSI, and AWSS source points. CAEs showed elevated RRT in some cases but minimal OSI with little spatial overlap between metrics. CAA+CAEs showed variable and diffuse flow patterns with limited co-localization.

Conclusion: Flow dynamics vary significantly across dilation morphologies in KD. Patients with only CAAs present hemodynamic data associated with the highest likelihood of thrombosis. Hemodynamic metrics may serve as mechanistic markers for thrombogenic potential and should be considered alongside anatomical measurements in future risk stratification efforts.

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川崎病合并冠状动脉瘤与扩张患者血流动力学的差异。

背景：未经治疗的川崎病（KD）可导致冠状动脉（CA）扩张，如CA动脉瘤（CAA）、CA扩张（CAE）或两者兼而有之（CAA + CAE）。目前，治疗决定完全依赖于几何测量，这有局限性。本研究旨在将CAA、CAE和CAA + CAE之间的血流动力学差异与临床结果和血栓形成电位联系起来。方法：采用50例KD患者的舒张模型进行多中心回顾性研究。扩张分为CAA （n = 30）、CAE （n = 14）或CAA + CAE （n = 6）。为每位患者创建了特定于患者的ca三维数字模型。记录每个CA的几何测量值。进行了流动模拟，并计算了时间平均壁面剪切应力（TAWSS）、振荡剪切指数（OSI）、相对停留时间（RRT）和归一化平均壁面剪切应力散度（AWSS）等血流动力学指标。结果：CAAs的扩张和入口直径最大。CAEs的扩张长度和宽高比较高。CAAs表现出一贯的低速度和低TAWSS，并具有广泛的共定位高RRT、OSI和AWSS源点区域。cae在某些情况下显示RRT升高，但OSI最小，度量之间的空间重叠很少。CAA+CAEs表现为可变和弥漫性流动模式，共定位有限。结论：血流动力学在KD扩张形态上有显著差异。只有caa的患者的血流动力学数据与血栓形成的可能性最高相关。血液动力学指标可以作为血栓形成潜力的机械标记，在未来的风险分层工作中应与解剖学测量一起考虑。

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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Journal of cardiovascular computed tomography

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