AUTHOR=Xiao Haodong , Ju Lie , Lu Zupeng , Zhang Shiguang , Jiang Yan , Yang Yuan , Zhang Xuerui , Zhang Wenting , Liu Huanyu , Liang Tingyi , Ren Jianing , Yin Jiawei , Liu Xiaoyu , Ma Tong , Wang Lin , Feng Wei , Song Kaimin , Chen Yuzhong , Ge Zongyuan , Shao Qian , Peng Jie , Chen Jili , Zhao Peiquan 

TITLE=Development and evaluation of a deep learning system for screening real-world multiple abnormal findings based on ultra-widefield fundus images

JOURNAL=Frontiers in Medicine

VOLUME=Volume 12 - 2025

YEAR=2025

URL=https://www.frontiersin.org/journals/medicine/articles/10.3389/fmed.2025.1584378

DOI=10.3389/fmed.2025.1584378

ISSN=2296-858X

ABSTRACT=PurposeTo develop and evaluate a deep learning system for screening multiple abnormal findings including hemorrhages, drusen, hard exudates, cotton wool spots and retinal breaks using ultra-widefield fundus images.MethodsThe system consisted of three modules: (I) quality assessment module, (II) artifact removal module and (III) lesion recognition module. In Module III, a heatmap was generated to highlight the lesion area. A total of 4,521 UWF images were used for the training and internal validation of the DL system. The system was evaluated in two external validation datasets consisting of 344 images and 894 images from two other hospitals. The performance of the system in these two datasets was compared with or without Module II.ResultsIn both external validation datasets, the deep learning system made better performance when recognizing lesions on processed images after Module II than on original images without Module II. Module II-enhanced preprocessing improved Module III’s five-lesion recognition performance by an average of 6.73% and 14.4% areas under the curves, 14.47% and 19.62% accuracy in the two external validations.ConclusionOur system showed reliable performance for detecting MAF in real-world UWF images. For deep learning systems to recognize real-world images, the artifact removal module was indeed helpful.