自适应控制网格插值技术在形态血管重建中的应用:一个综合手术计划和评估工具的组成部分

D. Frakes, C. Conrad, T. Healy, J. W. Monaco, M. Smith, J.T. Yoganathan, P. Ajit
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引用次数: 1

摘要

全腔室肺连接(TCPC)是一种姑息性手术修复,适用于单心室(SV)生理的儿童。由此产生的单心室泵产生的大部分能量在体循环中消耗。因此,最小化功率损失的TCPC是必要的最佳手术结果。作为综合手术计划和评估工具的一个组成部分,我们开发了一种基于自适应控制网格插值的血管形态重建方法,作为旨在量化功率损失的计算流体动力学(CFD)分析的先驱。我们的技术结合了基于光流和基于块的运动估计算法的积极方面,以最小的计算复杂性精确地重建血管几何形状。随后的CFD模拟提供了必要的压力和速度信息,以量化TCPC在术前和术后的功率损失。总的来说,这些步骤形成了手术计划和评估的强大工具,旨在为成功的手术结果产生最佳的TCPC配置。将讨论该技术的重建和CFD组件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Application of an adaptive control grid interpolation technique to morphological vascular reconstruction: a component of a comprehensive surgical planning and evaluation tool
The total cavopulmonary connection (TCPC) is a palliative surgical repair performed on children with a single ventricle (SV) physiology. Much of the power produced by the resultant single ventricle pump is consumed in the systemic circulation. Consequently the minimization of power loss in the TCPC is imperative for optimal surgical outcome. As a component of a comprehensive surgical planning and evaluation tool we have developed a method of vascular morphology reconstruction based on adaptive control grid interpolation to function as a precursor to computational fluid dynamics (CFD) analysis aimed at quantifying power loss. Our technique combines positive aspects of optical flow-based and block-based motion estimation algorithms to accurately reconstruct vascular geometries with a minimal degree of computational complexity. Subsequent CFD simulations offer the pressure and velocity information necessary to quantify power loss in the TCPC on a pre and post-operative basis. Collectively these steps form a powerful tool for both surgical planning and evaluation aimed at producing optimal TCPC configurations for successful surgical outcomes. Both reconstruction and CFD components of the technique will be discussed.
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