Correlation bundle statistics in fMRI data

2014 International Workshop on Pattern Recognition in Neuroimaging Pub Date : 2014-06-04 DOI:10.1109/PRNI.2014.6858529

G. Lohmann, Johannes Stelzer, V. Zuber, T. Buschmann, M. Erb, K. Scheffler

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Abstract

Traditionally fMRI data analysis aims at identifying brain areas in which the amplitude of the BOLD signal responds to experimental stimulations. However, since the brain acts as a network, we would expect differential effects on network topology. Therefore, the target of statistical inference should not only be individual voxels or brain areas but rather network connections. Here we introduce a new approach to correlation-based statistics in fMRI. At the heart of our approach is the concept of correlation bundles as a functional analogy to anatomical fibre bundles. Statistical tests are applied to these bundles using large-scale inference methods such as FDR. We call this approach correlation bundle statistics (CBS). In contrast to previous correlation-based approaches to fMRI statistics, CBS does not require a presegmentation or smoothing of the data so that anatomical specificity is preserved. The result of a CBS analysis is not a set of voxels or brain regions but rather a set of correlation bundles that are found to be significantly affected by some experimental manipulation.

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fMRI数据中的相关束统计

传统的fMRI数据分析旨在识别BOLD信号振幅响应实验刺激的大脑区域。然而，由于大脑作为一个网络，我们预计网络拓扑结构会产生不同的影响。因此，统计推断的目标不应该仅仅是单个体素或脑区域，而应该是网络连接。在这里，我们介绍了一种新的方法，基于相关统计功能磁共振成像。我们方法的核心是相关束的概念，作为解剖学纤维束的功能类比。使用大规模推理方法(如FDR)对这些束应用统计检验。我们称这种方法为相关包统计(CBS)。与之前基于相关性的fMRI统计方法相比，CBS不需要对数据进行预分割或平滑处理，从而保留了解剖特异性。CBS分析的结果不是一组体素或大脑区域，而是一组相关束，这些相关束被发现受到一些实验操作的显著影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2014 International Workshop on Pattern Recognition in Neuroimaging

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