A Machine Learning Approach for Addiction Detection Using Phase Amplitude Coupling of EEG Signals

Maryam Sadat Fadav, Fatemeh Hasanzadeh, M. Mohebbi, Peyman Hassani Abharian
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引用次数: 1

Abstract

Currently, the detection of opioid addiction is done by biological tests, but these tests are time-consuming, and their result can be changed by applying some tricks. Using bio-signals such as EEG for detecting opioid abuse can be a good alternative to the current biological tests. In this study, we are aimed to employ EEG signal to detect opioid addiction. The dataset of this study consist of a 19-channel resting-state EEG signal recorded from 22 opioid addicts and 22 healthy normal individuals (without a history of substance abuse). Extracted features of EEG signal include phase-amplitude coupling (PAC) among delta, theta, alpha1, alpha 2, beta1, beta2, and gamma frequency bands. Informative features that can discriminate addicted groups from normal groups are selected by statistical tests and the Minimum Redundancy Maximum Relevance (mRMR) technique. Then selected features are fed to the k-nearest neighbors (KNN) classifier, which is evaluated by Leave-one-out cross-validation. The proposed algorithm classified the addicted and normal group with 93.18% accuracy, 100% sensitivity, and 86.36% specificity. Analyzing the results indicates that delta-beta1 coupling and FZ channel had the most participation in the selected features. The obtained results show that the proposed technique based on EEG signals PAC can be useful in addiction detection.
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基于脑电信号相幅耦合的成瘾检测机器学习方法
目前,阿片类药物成瘾的检测是通过生物测试来完成的,但这些测试非常耗时,并且可以通过应用一些技巧来改变测试结果。利用脑电图等生物信号检测阿片类药物滥用是目前生物测试的一个很好的替代方案。在这项研究中,我们的目的是利用脑电图信号来检测阿片类药物成瘾。本研究的数据集包括22名阿片类药物成瘾者和22名健康正常人(无药物滥用史)的19通道静息状态脑电图信号。提取的脑电信号特征包括delta、theta、alpha1、alpha 2、beta1、beta2和gamma频段之间的相幅耦合(PAC)。通过统计测试和最小冗余最大相关性(mRMR)技术选择可以区分成瘾组和正常组的信息特征。然后将选择的特征馈送到k近邻(KNN)分类器,通过留一交叉验证对其进行评估。该算法对成瘾组和正常组的分类准确率为93.18%,灵敏度为100%,特异性为86.36%。分析结果表明,δ - β - 1耦合和FZ通道对所选特征的参与最大。实验结果表明,基于脑电信号PAC的方法可用于成瘾检测。
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