Investigating the right heart hemodynamics in the Tetralogy of Fallot: a computational study

Francesca Renzi, Giovanni Puppini, Giovanni Battista Luciani, Christian Vergara
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Abstract

Characterizing flow within the right heart (RH) is particularly challenging due to its complex geometries. However, gaining insight into RH fluid dynamics is of extreme diagnostic importance given the high prevalence of acquired and congenital heart diseases with impaired RH functionality. In this study, we present a comprehensive, patient-specific, image-based computational analysis of the hemodynamics of the RH in healthy and repaired-ToF (ToF) cases. From multi-series cine-MTRI, we reconstruct the geometry and motion of the patient's right atrium, ventricle, and pulmonary and tricuspid valves. For this purpose, we develop a novel and flexible reconstruction procedure that enables us, for the first time, to integrate fully patient-specific tricuspid valve dynamics into a computational model, enhancing the accuracy of our RH blood flow simulations. This work provides novel insight into the altered hemodynamics of repaired-ToF RH with severe pulmonary regurgitation and into the hemodynamics changes induced by the pulmonary valve replacement intervention. Modelling the whole RH enables us to understand the contribution of the superior and inferior vena cava inflows to the ventricular filling, as well as the impact of the impaired right atrial function on the ventricular diastole. We analyze the turbulent and transitional behaviour by including the Large-Eddies Simulation sigma model in our computational framework. This highlights how the contribution of the smallest scales in the dissipation of the turbulent energy changes among health and disease.
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调查法洛氏四联症的右心血流动力学:一项计算研究
由于右心(RH)的几何结构复杂,对其内部的流动进行表征尤其具有挑战性。然而,由于后天性和先天性心脏病的高发病率会导致右心功能受损,因此深入了解右心的流体动力学对诊断具有极其重要的意义。在本研究中,我们对健康和修复过的 ToF(ToF)病例的 RH 血流动力学进行了全面的、针对特定患者的、基于图像的计算分析。通过多序列 cine-MTRI,我们重建了患者右心房、心室、肺动脉瓣和三尖瓣的几何形状和运动。为此,我们开发了一种新颖、灵活的重建程序,使我们能够首次将患者特定的三尖瓣动力学完全整合到计算模型中,提高了我们的 RH 血流模拟的准确性。这项工作为我们提供了新的视角,使我们能够深入了解严重肺动脉反流的重修-ToF RH 的血流动力学变化,以及肺动脉瓣置换干预所引起的血流动力学变化。对整个 RH 进行建模使我们能够了解上腔静脉和下腔静脉流入对心室充盈的贡献,以及右心房功能受损对心室舒张的影响。我们通过在计算框架中加入大埃迪埃模拟西格玛模型来分析湍流和过渡行为。这突显了在健康和疾病之间,最小尺度对湍流能量耗散的贡献是如何变化的。
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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