Deformable template and distribution mixture-based data modeling for the endocardial contour tracking in an echographic sequence

M. Mignotte, J. Meunier
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引用次数: 19

Abstract

We present a new method to shape-based segmentation of deformable anatomical structures in medical images and validate this approach by detecting and tracking the endocardial border in an echographic image sequence. To this end, a global prior knowledge of the endocardial contour is captured by a prototype template with a set of admissible deformations to take into account its inherent natural variability over time. In this approach, the data likelihood model rely on an accurate statistical modeling of the grey level distribution of each class present in the image. The parameters of this distribution mixture are given by a preliminary estimation step which takes into account the distribution shape of each class. Then the tracking problem is stated in a Bayesian framework where it ends up as an optimization problem. This one is then efficiently solved by a genetic algorithm combined with a steepest ascent procedure. This technique has been successfully applied on synthetic images and on a real echocardiographic image sequence.
超声序列心内膜轮廓跟踪的可变形模板和基于分布混合物的数据建模
我们提出了一种基于形状的医学图像中可变形解剖结构分割的新方法,并通过在超声图像序列中检测和跟踪心内膜边界来验证这种方法。为此,心内膜轮廓的全局先验知识通过具有一组可接受变形的原型模板捕获,以考虑其随时间的固有自然变异性。在这种方法中,数据似然模型依赖于对图像中存在的每个类别的灰度分布的精确统计建模。该混合分布的参数由一个考虑了每一类分布形状的初步估计步骤给出。然后在贝叶斯框架中描述跟踪问题,最终将其作为优化问题。然后通过结合最陡上升过程的遗传算法有效地解决了这个问题。该技术已成功应用于合成图像和真实超声心动图图像序列。
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