Covariate-adjusted hybrid principal components analysis for region-referenced functional EEG data.

Pub Date : 2022-01-01 DOI:10.4310/21-sii712
A. Scheffler, A. Dickinson, Charlotte DiStefano, S. Jeste, D. Şentürk
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引用次数: 2

Abstract

Electroencephalography (EEG) studies produce region-referenced functional data via EEG signals recorded across scalp electrodes. The high-dimensional data can be used to contrast neurodevelopmental trajectories between diagnostic groups, for example between typically developing (TD) children and children with autism spectrum disorder (ASD). Valid inference requires characterization of the complex EEG dependency structure as well as covariate-dependent heteroscedasticity, such as changes in variation over developmental age. In our motivating study, EEG data is collected on TD and ASD children aged two to twelve years old. The peak alpha frequency, a prominent peak in the alpha spectrum, is a biomarker linked to neurodevelopment that shifts as children age. To retain information, we model patterns of alpha spectral variation, rather than just the peak location, regionally across the scalp and chronologically across development. We propose a covariate-adjusted hybrid principal components analysis (CA-HPCA) for EEG data, which utilizes both vector and functional principal components analysis while simultaneously adjusting for covariate-dependent heteroscedasticity. CA-HPCA assumes the covariance process is weakly separable conditional on observed covariates, allowing for covariate-adjustments to be made on the marginal covariances rather than the full covariance leading to stable and computationally efficient estimation. The proposed methodology provides novel insights into neurodevelopmental differences between TD and ASD children.
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区域参考功能脑电数据的协变量调整混合主成分分析。
脑电图(EEG)研究通过记录在头皮电极上的脑电图信号产生区域参考功能数据。高维数据可用于对比诊断组之间的神经发育轨迹,例如在典型发育(TD)儿童和自闭症谱系障碍(ASD)儿童之间。有效的推断需要表征复杂的脑电图依赖结构以及协变量依赖的异方差,例如随着发育年龄的变化。在我们的激励研究中,收集了2至12岁的TD和ASD儿童的脑电图数据。峰值α频率,α光谱中的一个突出的峰值,是与神经发育有关的生物标志物,随着儿童年龄的增长而变化。为了保留信息,我们模拟了α光谱变化的模式,而不仅仅是峰的位置,以及整个头皮的区域和发育的时间顺序。本文提出了一种协变量调整混合主成分分析方法(CA-HPCA),该方法利用向量主成分分析和功能主成分分析,同时对协变量相关的异方差进行调整。CA-HPCA假设协方差过程是弱可分离的,条件是观察到的协方差,允许对边际协方差进行协方差调整,而不是对整个协方差进行协方差调整,从而实现稳定和计算效率的估计。提出的方法为TD和ASD儿童的神经发育差异提供了新的见解。
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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