An interpretable model predicts visual outcomes of no light perception eyes after open globe injury
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Published:2023-01-03
Issue:2
Volume:108
Page:285-293
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ISSN:0007-1161
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Container-title:British Journal of Ophthalmology
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language:en
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Short-container-title:Br J Ophthalmol
Author:
Meng Xiangda, Wang Qihua, Chen Song, Zhang Shijie, Yu Jinguo, Li HaiboORCID, Chen Xinkang, Wang ZhaoyangORCID, Yu Wenzhen, Zheng Zhi, Zhou Heding, Luo JingORCID, Wang ZhiliangORCID, Chen HaoyuORCID, Wu Nan, Hu Dan, Chen Suihua, Wei YongORCID, Cui Haibin, Song Huping, Chen Huijin, Wang Yun, Zhong Jie, Chen Zhen, Zhang Haokun, Yang Tiantian, Li Mengxuan, Liu Yuanyuan, Dong Xue, Du Mei, Wang Xiaohong, Yao Xuyang, Lin Haotian, Li Mulin Jun, Yan HuaORCID
Abstract
BackgroundThe visual outcome of open globe injury (OGI)-no light perception (NLP) eyes is unpredictable traditionally. This study aimed to develop a model to predict the visual outcomes of vitrectomy surgery in OGI-NLP eyes using a machine learning algorithm and to provide an interpretable system for the prediction results.MethodsClinical data of 459 OGI-NLP eyes were retrospectively collected from 19 medical centres across China to establish a training data set for developing a model, called ‘VisionGo’, which can predict the visual outcome of the patients involved and compare with the Ocular Trauma Score (OTS). Another 72 cases were retrospectively collected and used for human–machine comparison, and an additional 27 cases were prospectively collected for real-world validation of the model. The SHapley Additive exPlanations method was applied to analyse feature contribution to the model. An online platform was built for real-world application.ResultsThe area under the receiver operating characteristic curve (AUC) of VisionGo was 0.75 and 0.90 in previtrectomy and intravitrectomy application scenarios, which was much higher than the OTS (AUC=0.49). VisionGo showed better performance than ophthalmologists in both previtrectomy and intravitrectomy application scenarios (AUC=0.73 vs 0.57 and 0.87 vs 0.64). In real-world validation, VisionGo achieved an AUC of 0.60 and 0.91 in previtrectomy and intravitrectomy application scenarios. Feature contribution analysis indicated that wound length-related indicators, vitreous status and retina-related indicators contributed highly to visual outcomes.ConclusionsVisionGo has achieved an accurate and reliable prediction in visual outcome after vitrectomy for OGI-NLP eyes.
Funder
National Key R&D Program of China National Natural Science Foundation of China
Subject
Cellular and Molecular Neuroscience,Sensory Systems,Ophthalmology
Reference29 articles.
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