基于自适应滤波和三维可变形单形网格的P2A-2三维心脏图像分割

M. Nillesen, R. Lopata, H. Gerrits, L. Kapusta, H. Huisman, J. Thijssen, C. D. de Korte
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引用次数: 0

摘要

三维(3D)超声图像中心肌的半自动分割可能极大地支持(先天性)心脏病的临床诊断。它可以促进异常心脏解剖的可视化,并可作为心脏应变自动成像的重要预处理步骤。在三维实时和全音量模式下,分别以射频(RF)格式、波束形成后直接获得两名健康受试者和一头仔猪的左心室超声心动图图像序列。为了优化血液和心肌的区分,对解调后的rf数据进行了3D自适应均方滤波(AMS)。早期对二维数据的研究表明,这种滤波器可以减少散斑噪声,同时保持不同结构之间边缘的清晰度。在本研究中,使用基于单纯形网格的三维可变形模型对心内膜表面进行分割。模型在内部(正则化)和外部(数据)力的影响下变形,并通过在左心室中放置一个球面模型来初始化。模型的外力中包含梯度力和速度力。通过交互设置内力、梯度力和速度力的权重因子,平衡数据拟合和网格规则性。初步结果表明,采用三维可变形单纯形网格结合自适应滤波对心内膜表面进行分割是可行的。由于可变形模型较少依赖于初始化,速度力导致所有数据集的分割得到改善。该方法有望应用于非标准心脏几何形状,而无需施加强形状约束。为了防止模型泄漏到左心房或穿过边界信息弱的区域,使用吸引力和弱形状约束可能会有所帮助。
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P2A-2 Three-Dimensional Cardiac Image Segmentation Using Adaptive Filtering and 3D Deformable Simplex Meshes
Semi-automatic segmentation of the myocardium in three-dimensional (3D) echographic images may substantially support clinical diagnosis of (congenital) heart disease. It can facilitate visualization of abnormal cardiac anatomy and may serve as an important preprocessing step for automated cardiac strain imaging. Echocardiographic image sequences of the left ventricle of two healthy subjects and one piglet were obtained in radiofrequency (RF) format, directly after beamforming, in 3D live and in Full Volume mode. To optimize the distinction between blood and myocardium, 3D Adaptive Mean Squares (AMS) filtering was performed on the demodulated rf-data. Earlier work on 2D data revealed that this filter reduces speckle noise, while preserving the sharpness of edges between various structures. In this study a 3D deformable model based on a simplex mesh was then used to segment the endocardial surface. The model deforms under influence of internal (regularization) and external (data) forces and is initialized by placing a spherical surface model in the left ventricle. A gradient and a speed force were included in the external force of the model. Weighting factors of internal, gradient and speed forces were interactively set to balance data fitting and mesh regularity. Initial results show that segmentation of the endocardial surface using 3D deformable simplex meshes in combination with adaptive filtering is feasible. The speed force led to improved segmentation in all datasets as the deformable model was less dependent on initialization. The method is promising for application to nonstandard heart geometries without having to impose strong shape constraints. To prevent the model from leaking into the left atrium or crossing areas with weak boundary information, the use of attractor forces and weak shape constraints could be helpful.
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