Scientific Reports (Jul 2023)

Visual field prediction using a deep bidirectional gated recurrent unit network model

  • Hwayeong Kim,
  • Jiwoong Lee,
  • Sangwoo Moon,
  • Sangil Kim,
  • Taehyeong Kim,
  • Sang Wook Jin,
  • Jung Lim Kim,
  • Jonghoon Shin,
  • Seung Uk Lee,
  • Geunsoo Jang,
  • Yuanmeng Hu,
  • Jeong Rye Park

DOI
https://doi.org/10.1038/s41598-023-37360-1
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 13

Abstract

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Abstract Although deep learning architecture has been used to process sequential data, only a few studies have explored the usefulness of deep learning algorithms to detect glaucoma progression. Here, we proposed a bidirectional gated recurrent unit (Bi-GRU) algorithm to predict visual field loss. In total, 5413 eyes from 3321 patients were included in the training set, whereas 1272 eyes from 1272 patients were included in the test set. Data from five consecutive visual field examinations were used as input; the sixth visual field examinations were compared with predictions by the Bi-GRU. The performance of Bi-GRU was compared with the performances of conventional linear regression (LR) and long short-term memory (LSTM) algorithms. Overall prediction error was significantly lower for Bi-GRU than for LR and LSTM algorithms. In pointwise prediction, Bi-GRU showed the lowest prediction error among the three models in most test locations. Furthermore, Bi-GRU was the least affected model in terms of worsening reliability indices and glaucoma severity. Accurate prediction of visual field loss using the Bi-GRU algorithm may facilitate decision-making regarding the treatment of patients with glaucoma.