Transformer-Based Deep Learning Prediction of 10-Degree Humphrey Visual Field Tests From 24-Degree Data

Authors

Min Shi
Anagha Lokhande
Yu Tian
Yan Luo
Mohammad Eslami
Saber Kazeminasab
Tobias Elze
Lucy Shen
Louis Pasquale
Sarah Wellik
Carlos Gustavo De Moraes
Jonathan Myers, Thomas Jefferson UniversityFollow
Nazlee Zebardast
David Friedman
Michael Boland
Mengyu Wang

Document Type

Article

Publication Date

8-1-2024

Comments

This article is the author's final published version in Translational vision science & technology, Volume 13, Issue 8, August 2024, Pages 11.

The published version is available at https://doi.org/10.1167/tvst.13.8.11.

Copyright © 2024 The Authors

Abstract

PURPOSE: To predict 10-2 Humphrey visual fields (VFs) from 24-2 VFs and associated non-total deviation features using deep learning.

METHODS: We included 5189 reliable 24-2 and 10-2 VF pairs from 2236 patients, and 28,409 reliable pairs of macular OCT scans and 24-2 VF from 19,527 eyes of 11,560 patients. We developed a transformer-based deep learning model using 52 total deviation values and nine VF test features to predict 68 10-2 total deviation values. The mean absolute error, root mean square error, and the R2 were evaluation metrics. We further evaluated whether the predicted 10-2 VFs can improve the structure-function relationship between macular thinning and paracentral VF loss in glaucoma.

RESULTS: The average mean absolute error and R2 for 68 10-2 VF test points were 3.30 ± 0.52 dB and 0.70 ± 0.11, respectively. The accuracy was lower in the inferior temporal region. The model placed greater emphasis on 24-2 VF points near the central fixation point when predicting the 10-2 VFs. The inclusion of nine VF test features improved the mean absolute error and R2 up to 0.17 ± 0.06 dB and 0.01 ± 0.01, respectively. Age was the most important 24-2 VF test parameter for 10-2 VF prediction. The predicted 10-2 VFs achieved an improved structure-function relationship between macular thinning and paracentral VF loss, with the R2 at the central 4, 12, and 16 locations of 24-2 VFs increased by 0.04, 0.05 and 0.05, respectively (P < 0.001).

CONCLUSIONS: The 10-2 VFs may be predicted from 24-2 data.

TRANSLATIONAL RELEVANCE: The predicted 10-2 VF has the potential to improve glaucoma diagnosis.

Recommended Citation

Shi, Min; Lokhande, Anagha; Tian, Yu; Luo, Yan; Eslami, Mohammad; Kazeminasab, Saber; Elze, Tobias; Shen, Lucy; Pasquale, Louis; Wellik, Sarah; De Moraes, Carlos Gustavo; Myers, Jonathan; Zebardast, Nazlee; Friedman, David; Boland, Michael; and Wang, Mengyu, "Transformer-Based Deep Learning Prediction of 10-Degree Humphrey Visual Field Tests From 24-Degree Data" (2024). Wills Eye Hospital Papers. Paper 227.
https://jdc.jefferson.edu/willsfp/227

Creative Commons License

This work is licensed under a Creative Commons Attribution-Noncommercial-No Derivative Works 4.0 License.

PubMed ID

39110574

Language

English