Prediction of visual field progression with serial optic disc photographs using deep learning.

IF 3.7 2区医学 Q1 OPHTHALMOLOGY British Journal of Ophthalmology Pub Date : 2024-07-23 DOI:10.1136/bjo-2023-324277

Vahid Mohammadzadeh, Sean Wu, Tyler Davis, Arvind Vepa, Esteban Morales, Sajad Besharati, Kiumars Edalati, Jack Martinyan, Mahshad Rafiee, Arthur Martynian, Fabien Scalzo, Joseph Caprioli, Kouros Nouri-Mahdavi

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Abstract

Aim: We tested the hypothesis that visual field (VF) progression can be predicted with a deep learning model based on longitudinal pairs of optic disc photographs (ODP) acquired at earlier time points during follow-up.

Methods: 3919 eyes (2259 patients) with ≥2 ODPs at least 2 years apart, and ≥5 24-2 VF exams spanning ≥3 years of follow-up were included. Serial VF mean deviation (MD) rates of change were estimated starting at the fifth visit and subsequently by adding visits until final visit. VF progression was defined as a statistically significant negative slope at two consecutive visits and final visit. We built a twin-neural network with ResNet50-backbone. A pair of ODPs acquired up to a year before the VF progression date or the last VF in non-progressing eyes were included as input. Primary outcome measures were area under the receiver operating characteristic curve (AUC) and model accuracy.

Results: The average (SD) follow-up time and baseline VF MD were 8.1 (4.8) years and -3.3 (4.9) dB, respectively. VF progression was identified in 761 eyes (19%). The median (IQR) time to progression in progressing eyes was 7.3 (4.5-11.1) years. The AUC and accuracy for predicting VF progression were 0.862 (0.812-0.913) and 80.0% (73.9%-84.6%). When only fast-progressing eyes were considered (MD rate < -1.0 dB/year), AUC increased to 0.926 (0.857-0.994).

Conclusions: A deep learning model can predict subsequent glaucoma progression from longitudinal ODPs with clinically relevant accuracy. This model may be implemented, after validation, for predicting glaucoma progression in the clinical setting.

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使用深度学习的系列视盘照片预测视野进展。

目的：我们检验了一种假设，即基于随访期间早期时间点获得的纵向视盘照片对，可以使用深度学习模型预测视野（VF）进展。方法：3919眼（2259名患者），间隔至少2年的ODPs≥2次，随访≥3年的VF检查≥5次24-2次。从第五次就诊开始，通过增加就诊次数直到最后一次就诊，对连续VF平均偏差（MD）变化率进行估计。VF进展被定义为连续两次就诊和最后一次就诊时具有统计学意义的负斜率。我们用ResNet50主干构建了一个双神经网络。一对在VF进展日期前一年或非进展眼睛最后一次VF前获得的ODP被纳入输入。主要的结果测量是受试者工作特征曲线下面积（AUC）和模型准确性。结果：平均（SD）随访时间和基线VF MD分别为8.1（4.8）年和-3.3（4.9）dB。761眼（19%）出现VF进展。进展期眼睛的中位（IQR）进展时间为7.3（4.5-11.1）年。预测VF进展的AUC和准确率分别为0.862（0.812-0.913）和80.0%（73.9%-84.6%）。当只考虑进展快的眼睛时（MD率<-1.0 dB/年），AUC增加到0.926（0.857-0.994）。结论：深度学习模型可以以临床相关的准确性预测纵向ODPs的后续青光眼进展。该模型可以在验证后用于预测临床环境中的青光眼进展。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

British Journal of Ophthalmology 医学-眼科学

CiteScore

10.30

自引率

2.40%

发文量

213

审稿时长

3-6 weeks

期刊介绍： The British Journal of Ophthalmology (BJO) is an international peer-reviewed journal for ophthalmologists and visual science specialists. BJO publishes clinical investigations, clinical observations, and clinically relevant laboratory investigations related to ophthalmology. It also provides major reviews and also publishes manuscripts covering regional issues in a global context.