基于深度学习的近视性黄斑病变有效自动分类方法
Effective automatic classification methods via deep learning for myopic maculopathy.
作者信息
Zhang Zheming, Gao Qi, Fang Dong, Mijit Alfira, Chen Lu, Li Wangting, Wei Yantao
机构信息
State Key Laboratory of Ophthalmology, Zhongshan Ophthalmic Center, Sun Yat-sen University, Guangzhou, China.
School of Future Technology, South China University of Technology, Guangzhou, China.
出版信息
Front Med (Lausanne). 2024 Nov 13;11:1492808. doi: 10.3389/fmed.2024.1492808. eCollection 2024.
BACKGROUND
Pathologic myopia (PM) associated with myopic maculopathy (MM) is a significant cause of visual impairment, especially in East Asia, where its prevalence has surged. Early detection and accurate classification of myopia-related fundus lesions are critical for managing PM. Traditional clinical analysis of fundus images is time-consuming and dependent on specialist expertise, driving the need for automated, accurate diagnostic tools.
METHODS
This study developed a deep learning-based system for classifying five types of MM using color fundus photographs. Five architectures-ResNet50, EfficientNet-B0, Vision Transformer (ViT), Contrastive Language-Image Pre-Training (CLIP), and RETFound-were utilized. An ensemble learning approach with weighted voting was employed to enhance model performance. The models were trained on a dataset of 2,159 annotated images from Shenzhen Eye Hospital, with performance evaluated using accuracy, sensitivity, specificity, F1-Score, Cohen's Kappa, and area under the receiver operating characteristic curve (AUC).
RESULTS
The ensemble model achieved superior performance across all metrics, with an accuracy of 95.4% (95% CI: 93.0-97.0%), sensitivity of 95.4% (95% CI: 86.8-97.5%), specificity of 98.9% (95% CI: 97.1-99.5%), F1-Score of 95.3% (95% CI: 93.2-97.2%), Kappa value of 0.976 (95% CI: 0.957-0.989), and AUC of 0.995 (95% CI: 0.992-0.998). The voting ensemble method demonstrated robustness and high generalization ability in classifying complex lesions, outperforming individual models.
CONCLUSION
The ensemble deep learning system significantly enhances the accuracy and reliability of MM classification. This system holds potential for assisting ophthalmologists in early detection and precise diagnosis, thereby improving patient outcomes. Future work could focus on expanding the dataset, incorporating image quality assessment, and optimizing the ensemble algorithm for better efficiency and broader applicability.
背景
病理性近视(PM)合并近视性黄斑病变(MM)是视力损害的重要原因,尤其是在东亚地区,其患病率呈飙升趋势。近视相关眼底病变的早期检测和准确分类对于病理性近视的管理至关重要。传统的眼底图像临床分析耗时且依赖专家经验,因此需要自动化、准确的诊断工具。
方法
本研究开发了一种基于深度学习的系统,用于使用彩色眼底照片对五种类型的近视性黄斑病变进行分类。使用了五种架构——ResNet50、EfficientNet-B0、视觉Transformer(ViT)、对比语言-图像预训练(CLIP)和RETFound。采用加权投票的集成学习方法来提高模型性能。这些模型在深圳眼科医院的2159张标注图像数据集上进行训练,使用准确率、灵敏度、特异性、F1分数、科恩kappa系数和受试者工作特征曲线下面积(AUC)评估性能。
结果
集成模型在所有指标上均表现出卓越性能,准确率为95.4%(95%置信区间:93.0 - 97.0%),灵敏度为95.4%(95%置信区间:86.8 - 97.5%),特异性为98.9%(95%置信区间:97.1 - 99.5%),F1分数为95.3%(95%置信区间:93.2 - 97.2%),kappa值为0.976(95%置信区间:0.957 - 0.989),AUC为0.995(95%置信区间:0.992 - 0.998)。投票集成方法在对复杂病变进行分类时表现出稳健性和高泛化能力,优于单个模型。
结论
集成深度学习系统显著提高了近视性黄斑病变分类的准确性和可靠性。该系统在协助眼科医生进行早期检测和精确诊断方面具有潜力,从而改善患者预后。未来的工作可以集中在扩大数据集、纳入图像质量评估以及优化集成算法以提高效率和扩大适用性。
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