PLoS ONE (Jan 2023)

Deep learning for the diagnosis of mesial temporal lobe epilepsy

  • Kyoya Sakashita,
  • Yukinori Akiyama,
  • Tsukasa Hirano,
  • Ayaka Sasagawa,
  • Masayasu Arihara,
  • Tomoyoshi Kuribara,
  • Satoko Ochi,
  • Rei Enatsu,
  • Takeshi Mikami,
  • Nobuhiro Mikuni

Journal volume & issue
Vol. 18, no. 2

Abstract

Read online

Objective This study aimed to enable the automatic detection of the hippocampus and diagnose mesial temporal lobe epilepsy (MTLE) with the hippocampus as the epileptogenic area using artificial intelligence (AI). We compared the diagnostic accuracies of AI and neurosurgical physicians for MTLE with the hippocampus as the epileptogenic area. Method In this study, we used an AI program to diagnose MTLE. The image sets were processed using a code written in Python 3.7.4. and analyzed using Open Computer Vision 4.5.1. The deep learning model, which was a fine-tuned VGG16 model, consisted of several layers. The diagnostic accuracies of AI and board-certified neurosurgeons were compared. Results AI detected the hippocampi automatically and diagnosed MTLE with the hippocampus as the epileptogenic area on both T2-weighted imaging (T2WI) and fluid-attenuated inversion recovery (FLAIR) images. The diagnostic accuracies of AI based on T2WI and FLAIR data were 99% and 89%, respectively, and those of neurosurgeons based on T2WI and FLAIR data were 94% and 95%, respectively. The diagnostic accuracy of AI was statistically higher than that of board-certified neurosurgeons based on T2WI data (p = 0.00129). Conclusion The deep learning-based AI program is highly accurate and can diagnose MTLE better than some board-certified neurosurgeons. AI can maintain a certain level of output accuracy and can be a reliable assistant to doctors.