利用白质束形状进行扩散张量成像分类。

Classification in DTI using shapes of white matter tracts.

作者信息

Adluru Nagesh, Hinrichs Chris, Chung Moo K, Lee Jee-Eun, Singh Vikas, Bigler Erin D, Lange Nicholas, Lainhart Janet E, Alexander Andrew L

机构信息

Dept. of Psychology, Brigham Young Univ., UT, USA.

出版信息

Annu Int Conf IEEE Eng Med Biol Soc. 2009;2009:2719-22. doi: 10.1109/IEMBS.2009.5333386.

DOI:10.1109/IEMBS.2009.5333386

PMID:19964040

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4437626/

Abstract

Diffusion Tensor Imaging (DTI) provides unique information about the underlying tissue structure of brain white matter in vivo, including both the geometry of fiber bundles as well as quantitative information about tissue properties as characterized by measures such as tensor orientation, anisotropy, and size. Our objective in this paper is to evaluate the utility of shape representations of white matter tracts extracted from DTI data for classification of clinically different population groups (here autistic vs control). As a first step, our algorithm extracts fiber bundles passing through approximately marked regions of interest on affinely aligned brain volumes. The subsequent analysis is entirely based on the geometric modeling of the extracted tracts. A key advantage of using such an abstraction is that it allows us to capture invariant features of brains allowing for efficient large sample size studies. We demonstrate that with the use of an appropriate representation of the tract shapes, classifiers can be built with reasonable prediction accuracies without making heavy use of the spatial normalization machinery needed when using voxel based features.

摘要

扩散张量成像（DTI）能够在活体状态下提供有关脑白质潜在组织结构的独特信息，包括纤维束的几何形状以及诸如张量方向、各向异性和大小等测量所表征的组织特性的定量信息。本文的目的是评估从DTI数据中提取的白质束形状表示对于临床不同人群组（这里指自闭症患者与对照组）分类的效用。第一步，我们的算法提取穿过仿射对齐脑体积上大致标记的感兴趣区域的纤维束。后续分析完全基于提取束的几何建模。使用这种抽象的一个关键优势在于，它使我们能够捕捉大脑的不变特征，从而便于进行高效的大样本量研究。我们证明，通过使用束形状的适当表示，可以构建具有合理预测准确率的分类器，而无需大量使用基于体素特征时所需的空间归一化机制。

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