Robust Group-Level Inference in Neuroimaging Genetic Studies

Virgile Fritsch, Benoit Da Mota, G. Varoquaux, V. Frouin, E. Loth, J. Poline, B. Thirion
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引用次数: 1

Abstract

Gene-neuroimaging studies involve high-dimensional data that have a complex statistical structure and that are likely to be contaminated with outliers. Robust, outlier-resistant methods are an alternative to prior outliers removal, which is a difficult task under high-dimensional unsupervised settings. In this work, we consider robust regression and its application to neuroimaging through an example gene-neuroimaging study on a large cohort of 300 subjects. We use randomized brain parcellation to sample a set of adapted low-dimensional spatial models to analyse the data. Combining this approach with robust regression in an analysis method that we show is outperforming state-of-the-art neuroimaging analysis methods.
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神经影像学遗传研究中稳健的群体水平推断
基因-神经成像研究涉及高维数据,这些数据具有复杂的统计结构,并且可能受到异常值的污染。鲁棒的、抗离群值的方法是先验离群值去除的替代方法,在高维无监督设置下,先验离群值去除是一项困难的任务。在这项工作中,我们考虑稳健回归及其在神经影像学中的应用,通过对300名受试者进行基因-神经影像学研究的例子。我们使用随机的大脑分割来采样一组适应的低维空间模型来分析数据。将这种方法与鲁棒回归分析方法相结合,我们展示的分析方法优于最先进的神经成像分析方法。
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