三维超声心动图图像中主动脉瓣装置的分割:分支内侧结构的可变形建模。

Alison M Pouch, Sijie Tian, Manabu Takabe, Hongzhi Wang, Jiefu Yuan, Albert T Cheung, Benjamin M Jackson, Joseph H Gorman, Robert C Gorman, Paul A Yushkevich
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引用次数: 15

摘要

三维超声心动图(3DE)成像是评估主动脉瓣装置复杂几何形状的有用工具。在3DE图像中分割这种结构是一项具有挑战性的任务,这得益于形状引导的可变形建模方法,该方法可以实现主体间的统计形状比较。先前的工作证明了使用连续内侧表示(cm-rep)作为瓣膜小叶的形状描述符的有效性。然而,其在整个主动脉瓣装置中的应用受到限制,因为该结构具有分支的内侧几何形状,无法在原始cm-rep框架中明确参数化。在这项工作中,我们表明主动脉瓣装置可以使用新的分支内侧建模范式准确分割。该方法在11张正常打开主动脉瓣的3DE图像上实现了相对于人工分割的平均边界位移0.6±0.1 mm(约1体素)。本研究为主动脉瓣形态的定量3DE分析提供了一种有前景的方法。
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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Segmentation of the Aortic Valve Apparatus in 3D Echocardiographic Images: Deformable Modeling of a Branching Medial Structure.

3D echocardiographic (3DE) imaging is a useful tool for assessing the complex geometry of the aortic valve apparatus. Segmentation of this structure in 3DE images is a challenging task that benefits from shape-guided deformable modeling methods, which enable inter-subject statistical shape comparison. Prior work demonstrates the efficacy of using continuous medial representation (cm-rep) as a shape descriptor for valve leaflets. However, its application to the entire aortic valve apparatus is limited since the structure has a branching medial geometry that cannot be explicitly parameterized in the original cm-rep framework. In this work, we show that the aortic valve apparatus can be accurately segmented using a new branching medial modeling paradigm. The segmentation method achieves a mean boundary displacement of 0.6 ± 0.1 mm (approximately one voxel) relative to manual segmentation on 11 3DE images of normal open aortic valves. This study demonstrates a promising approach for quantitative 3DE analysis of aortic valve morphology.

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