高效利用临床脑电图数据进行癫痫深度学习。

Efficient use of clinical EEG data for deep learning in epilepsy.

机构信息

Department of Clinical Neurophysiology, Institute for Technical Medicine, University of Twente, Technical Medical Centre, Enschede, the Netherlands.

Department of Clinical Neurophysiology, Institute for Technical Medicine, University of Twente, Technical Medical Centre, Enschede, the Netherlands; Neurocentrum, Medisch Spectrum Twente, Enschede, the Netherlands.

出版信息

Clin Neurophysiol. 2021 Jun;132(6):1234-1240. doi: 10.1016/j.clinph.2021.01.035. Epub 2021 Mar 26.

DOI:10.1016/j.clinph.2021.01.035

PMID:33867258

Abstract

OBJECTIVE

Automating detection of Interictal Epileptiform Discharges (IEDs) in electroencephalogram (EEG) recordings can reduce the time spent on visual analysis for the diagnosis of epilepsy. Deep learning has shown potential for this purpose, but the scarceness of expert annotated data creates a bottleneck in the process.

METHODS

We used EEGs from 50 patients with focal epilepsy, 49 patients with generalized epilepsy (IEDs were visually labeled by experts) and 67 controls. The data was filtered, downsampled and cut into two second epochs. We increased the number of input samples containing IEDs through temporal shifting and using different montages. A VGG C convolutional neural network was trained to detect IEDs.

RESULTS

Using the dataset with more samples, we reduced the false positive rate from 2.11 to 0.73 detections per minute at the intersection of sensitivity and specificity. Sensitivity increased from 63% to 96% at 99% specificity. The model became less sensitive to the position of the IED in the epoch and montage.

CONCLUSIONS

Temporal shifting and use of different EEG montages improves performance of deep neural networks in IED detection.

SIGNIFICANCE

Dataset augmentation can reduce the need for expert annotation, facilitating the training of neural networks, potentially leading to a fundamental shift in EEG analysis.

摘要

目的

在脑电图（EEG）记录中自动检测癫痫发作间期放电（IED）可以减少癫痫诊断中用于视觉分析的时间。深度学习在这方面显示出了潜力，但专家注释数据的稀缺性在该过程中形成了瓶颈。

方法

我们使用了 50 名局灶性癫痫患者、49 名全身性癫痫患者（IED 由专家进行视觉标记）和 67 名对照者的 EEG。数据经过滤波、降采样和切割成两秒的时间窗。我们通过时间移位和使用不同的导联方式增加了包含 IED 的输入样本数量。然后使用 VGG C 卷积神经网络来检测 IED。

结果

使用具有更多样本的数据集，我们将假阳性率从每分钟 2.11 次降低到敏感性和特异性的交叉点的每分钟 0.73 次。特异性为 99%时，敏感性从 63%增加到 96%。模型对时间窗和导联中 IED 的位置变得不那么敏感。

结论

时间移位和使用不同的 EEG 导联方式可以提高深度神经网络在 IED 检测中的性能。

意义

数据扩充可以减少对专家注释的需求，从而促进神经网络的训练，这可能会导致 EEG 分析的根本性转变。

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高效利用临床脑电图数据进行癫痫深度学习。

Efficient use of clinical EEG data for deep learning in epilepsy.

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

SIGNIFICANCE

目的

方法

结果

结论

意义

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