解剖约束的PCA图像分割

Paramveer S. Dhillon, J. Gee, L. Ungar, B. Avants
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引用次数: 4

摘要

传统上,临床医生和医学研究人员一直在使用完全数据驱动的方法,如PCA/CCA/ICA或基于ROI的分析来进行脑图像的探索性分析。然而,基于PCA/CCA/ICA的方法缺乏结果的可解释性,另一方面,基于ROI的方法过于死板,错误地假设信号完全位于预定义的区域内。在本文中,我们提出了一种与这两种方法形成鲜明对比的新方法,因为它借鉴了这两种范式的优势,并基于数据信息得出了roi的统计细化定义。我们的方法,称为解剖约束PCA (AC-PCA),提供了一种原则性的方法,以概率或二进制ROI的形式合并先验信息,同时仍然允许数据温和地修改原始ROI定义。皮质厚度图像的实验结果表明,与ROI和无约束PCA(一种完全基于数据的方法)相比,AC-PCA在MCI分类中的优势。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Anatomically-Constrained PCA for Image Parcellation
Traditionally clinicians and medical researchers have been using either totally data driven approaches like PCA/CCA/ICA or ROI based analysis for exploratory analysis of brain images. However, PCA/CCA/ICA based approaches suffer from lack of interpretability of results and on the other hand ROI based approaches are too rigid and wrongly assume that the signal lies totally within a predefined region. In this paper, we propose a novel approach which stands in stark contrast with both these approaches as it borrows strength from both these paradigms and leads to statistically refined definitions of ROIs based on information from data. Our approach, called Anatomically Constrained PCA (AC-PCA) provides a principled way of incorporating prior information in the form of probabilistic or binary ROIs while still allowing the data to softly modify the original ROI definitions. Experimental results on cortical thickness images show the superiority of AC-PCA for MCI classification compared to ROI and unconstrained PCA (a totally data based approach).
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