利用变形模型和变分方法对啮齿动物大脑进行三维分割

Shaoting Zhang, Jinghao Zhou, Xiaoxu Wang, Sukmoon Chang, Dimitris N. Metaxas, George J. Pappas, F. Delis, N. Volkow, Gene-Jack Wang, P. Thanos, C. Kambhamettu
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引用次数: 3

摘要

脑图像的三维功能分割对于理解大脑解剖学与精神疾病之间的关系具有重要意义。对各种大脑结构(如小脑)的体积分析在研究大脑区域的结构变化作为发育、创伤或神经变性的功能方面起着至关重要的作用。尽管在临床研究中提出了各种分割方法,但其中许多方法需要先验地了解感兴趣结构的位置,这阻碍了全自动分割。此外,结构的拓扑变化难以检测。在本文中,我们提出了一种检测和定位感兴趣的大脑结构的新方法,该方法可用于啮齿动物大脑MR图像的全自动3D功能分割。该方法基于主动形状模型(ASM)、变形模型和变分技术。它的重点是基于一种新的体积比标准来检测大脑结构的拓扑变化。与专家识别的地面真值相比,拓扑变化检测的平均成功率为86.6%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
3D segmentation of rodent brains using deformable models and variational methods
3D functional segmentation of brain images is important in understating the relationships between anatomy and mental diseases in brains. Volumetric analysis of various brain structures such as the cerebellum plays a critical role in studying the structural changes in brain regions as a function of development, trauma, or neurodegeneration. Although various segmentation methods in clinical studies have been proposed, many of them require a priori knowledge about the locations of the structures of interest, which prevents the fully automatic segmentation. Besides, the topological changes of structures are difficult to detect. In this paper, we present a novel method for detecting and locating the brain structures of interest that can be used for the fully automatic 3D functional segmentation of rodent brain MR images. The presented method is based on active shape model (ASM), Metamorph models and variational techniques. It focuses on detecting the topological changes of brain structures based on a novel volume ratio criteria. The mean successful rate of the topological change detection shows 86.6% accuracy compared to the expert identified ground truth.
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