[利用睡眠脑电图数据识别抑郁症:一项基于深度学习的研究]
[Identifying Depressive Disorder With Sleep Electroencephalogram Data: A Study Based on Deep Learning].
作者信息
Tao Ran, Ding Sheng-Nan, Chen Jie, Zhu Xue-Min, Ni Zhao-Jun, Hu Ling-Ming, Zhang Yang, Xu Yan, Sun Hong-Qiang
机构信息
Department of Medical Technology, Peking University Sixth Hospital, Peking University Institute of Mental Health, and Key Laboratory of Mental Health of the National Health Commission (Peking University), Beijing 100191, China.
School of Biological and Medical Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100083, China.
出版信息
Sichuan Da Xue Xue Bao Yi Xue Ban. 2023 Mar;54(2):287-292. doi: 10.12182/20230360212.
OBJECTIVE
To explore the effectiveness of using deep learning network combined Vision Transformer (ViT) and Transformer to identify patients with depressive disorder on the basis of their sleep electroencephalogram (EEG) signals.
METHODS
The sleep EEG signals of 28 patients with depressive disorder and 37 normal controls were preprocessed. Then, the signals were converted into image format and the feature information on frequency domain and spatial domain was retained. After that, the images were transmitted to the ViT-Transformer coding network for deep learning of the EEG signal characteristics of the rapid eye movement (REM) sleep and non-rapid eye movement (NREM) sleep in patients with depressive disorder and those in normal controls, respectively, and to identify patients with depressive disorder.
RESULTS
Based on the ViT-Transformer network, after examining different EEG frequencies, we found that the combination of delta, theta, and beta waves produced better results in identifying depressive disorder. Among the different EEG frequencies, EEG signal features of delta-theta-beta combination waves in REM sleep achieved 92.8% accuracy and 93.8% precision for identifying depression, with the recall rate of patients with depression being 84.7%, and the F value being 0.917±0.074. When using the delta-theta-beta combination EEG signal features in NREM sleep to identify depressive disorder, the accuracy was 91.7%, the precision was 90.8%, the recall rate was 85.2%, and the F value was 0.914±0.062. In addition, through visualization of the sleep EEG of different sleep stages for the whole night, it was found that classification errors usually occurred during transition to a different sleep stage.
CONCLUSION
Using the deep learning ViT-Transformer network, we found that the EEG signal features in REM sleep based on delta-theta-beta combination waves showed better effect in identifying depressive disorder.
目的
探讨基于睡眠脑电图(EEG)信号,使用深度学习网络结合视觉Transformer(ViT)和Transformer来识别抑郁症患者的有效性。
方法
对28例抑郁症患者和37例正常对照者的睡眠EEG信号进行预处理。然后,将信号转换为图像格式并保留频域和空间域的特征信息。之后,将图像传输到ViT-Transformer编码网络,分别对抑郁症患者和正常对照者快速眼动(REM)睡眠和非快速眼动(NREM)睡眠的EEG信号特征进行深度学习,以识别抑郁症患者。
结果
基于ViT-Transformer网络,在检查不同EEG频率后,我们发现δ波、θ波和β波的组合在识别抑郁症方面产生了更好的结果。在不同的EEG频率中,REM睡眠中δ-θ-β组合波的EEG信号特征在识别抑郁症方面的准确率达到92.8%,精确率达到93.8%,抑郁症患者的召回率为84.7%,F值为0.917±0.074。当使用NREM睡眠中δ-θ-β组合EEG信号特征来识别抑郁症时,准确率为91.7%,精确率为90.8%,召回率为85.2%,F值为0.914±0.062。此外,通过对整夜不同睡眠阶段的睡眠EEG进行可视化,发现分类错误通常发生在向不同睡眠阶段过渡期间。
结论
使用深度学习ViT-Transformer网络,我们发现基于δ-θ-β组合波的REM睡眠中的EEG信号特征在识别抑郁症方面显示出更好的效果。
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