Latent Variable Dimensionality Reduction Using a Kullback-Leibler Criterion and Its Application to Predict Antidepressant Treatment Response

A. Khodayari-Rostamabad, J. Reilly, G. Hasey
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Abstract

In this paper, we propose a method for dimensionality reduction of high-dimensional input data in a binary classification problem. The method is based on selecting a few latent variables that maximize the Kullback-Leibler (KL) distance between the two class distributions, under the assumption that these distributions are multivariate Gaussian. Numerical performance is demonstrated by solving the challenging problem of classifying patients with major depressive disorder (MDD) into responders vs. non-responders to an anti-depressant treatment using pre-treatment resting electroencephalography (EEG) data. The extracted feature set measures consistent connectivity and includes the magnitude coherence features among all electrode pairs in a 3Hz to 30Hz bandwidth with 1Hz resolution. An overall 86% prediction performance indicates the effectiveness of the KLDR method in this application. This performance level was found to exceed that of other dimensionality reduction methods, namely the unsupervised principal component (PCA) and the supervised Fisher discriminant analysis (FDA) methods.
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使用Kullback-Leibler标准的潜变量降维及其在预测抗抑郁药物治疗反应中的应用
本文提出了一种对二元分类问题中高维输入数据进行降维的方法。该方法基于在假设这些分布是多元高斯分布的情况下,选择一些使两类分布之间的Kullback-Leibler (KL)距离最大化的潜在变量。通过使用治疗前静息脑电图(EEG)数据解决将重度抑郁症(MDD)患者分类为抗抑郁治疗反应者和无反应者的挑战性问题,证明了数值性能。提取的特征集测量一致的连通性,包括所有电极对在3Hz至30Hz带宽和1Hz分辨率之间的幅度相干性特征。总体86%的预测性能表明KLDR方法在该应用程序中的有效性。该性能水平优于其他降维方法,即无监督主成分(PCA)和监督Fisher判别分析(FDA)方法。
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