Ito Yosuke, Fukuda Masafumi, Matsuzawa Hitoshi, Masuda Hiroshi, Kobayashi Yu, Hasegawa Naoya, Kitaura Hiroki, Kakita Akiyoshi, Fujii Yukihiko
Department of Functional Neurosurgery, Epilepsy Center, NHO Nishiniigata Chuo Hospital, Japan.
Department of Functional Neurosurgery, Epilepsy Center, NHO Nishiniigata Chuo Hospital, Japan.
Epilepsy Res. 2021 Dec;178:106815. doi: 10.1016/j.eplepsyres.2021.106815. Epub 2021 Nov 21.
The currently available indicators-sensitivity and specificity of expert radiological evaluation of MRIs-to identify mesial temporal lobe epilepsy (MTLE) associated with hippocampal sclerosis (HS) are deficient, as they cannot be easily assessed. We developed and investigated the use of a novel convolutional neural network trained on preoperative MRIs to aid diagnosis of these conditions.
We enrolled 141 individuals: 85 with clinically diagnosed mesial temporal lobe epilepsy (MTLE) and hippocampal sclerosis International League Against Epilepsy (HS ILAE) type 1 who had undergone anterior temporal lobe hippocampectomy were assigned to the MTLE-HS group, and 56 epilepsy clinic outpatients diagnosed as nonepileptic were assigned to the normal group. We fine-tuned a modified CNN (mCNN) to classify the fully connected layers of ImageNet-pretrained VGG16 network models into the MTLE-HS and control groups. MTLE-HS was diagnosed using MRI both by the fine-tuned mCNN and epilepsy specialists. Their performances were compared.
The fine-tuned mCNN achieved excellent diagnostic performance, including 91.1% [85%, 96%] mean sensitivity and 83.5% [75%, 91%] mean specificity. The area under the resulting receiver operating characteristic curve was 0.94 [0.90, 0.98] (DeLong's method). Expert interpretation of the same image data achieved a mean sensitivity of 73.1% [65%, 82%] and specificity of 66.3% [50%, 82%]. These confidence intervals were located entirely under the receiver operating characteristic curve of the fine-tuned mCNN.
Deep learning-based diagnosis of MTLE-HS from preoperative MR images using our fine-tuned mCNN achieved a performance superior to the visual interpretation by epilepsy specialists. Our model could serve as a useful preoperative diagnostic tool for ascertaining hippocampal atrophy in patients with MTLE.
目前用于识别与海马硬化(HS)相关的内侧颞叶癫痫(MTLE)的指标——MRI专家放射学评估的敏感性和特异性存在不足,因为它们不易评估。我们开发并研究了一种在术前MRI上训练的新型卷积神经网络,以辅助诊断这些病症。
我们招募了141名个体:85名临床诊断为内侧颞叶癫痫(MTLE)且患有国际抗癫痫联盟(ILAE)1型海马硬化并接受了前颞叶海马切除术的患者被分配到MTLE-HS组,56名被诊断为非癫痫的癫痫门诊患者被分配到正常组。我们对一个经过修改的卷积神经网络(mCNN)进行微调,将ImageNet预训练VGG16网络模型的全连接层分类为MTLE-HS组和对照组。通过微调后的mCNN和癫痫专家使用MRI对MTLE-HS进行诊断。比较了他们的表现。
微调后的mCNN取得了优异的诊断性能,平均敏感性为91.1%[85%,96%],平均特异性为83.5%[75%,91%]。所得受试者操作特征曲线下面积为0.94[0.90,0.98](德龙法)。对相同图像数据的专家解读平均敏感性为73.1%[65%,82%],特异性为66.3%[50%,82%]。这些置信区间完全位于微调后mCNN的受试者操作特征曲线下方。
使用我们微调后的mCNN从术前MR图像中基于深度学习诊断MTLE-HS的性能优于癫痫专家的视觉解读。我们的模型可作为确定MTLE患者海马萎缩的有用术前诊断工具。
