基于深度学习的糖尿病视网膜病变诊断优化的检测和分期。

Deep learning-based detection and stage grading for optimising diagnosis of diabetic retinopathy.

机构信息

Department of Ophthalmology, Peking Union Medical College Hospital, Chinese Academy of Medical Sciences, Beijing, China.

Key Lab of Ocular Fundus Disease, Chinese Academy of Medical Sciences, Beijing, China.

出版信息

Diabetes Metab Res Rev. 2021 May;37(4):e3445. doi: 10.1002/dmrr.3445. Epub 2021 Mar 13.

DOI:10.1002/dmrr.3445

PMID:33713564

Abstract

AIMS

To establish an automated method for identifying referable diabetic retinopathy (DR), defined as moderate nonproliferative DR and above, using deep learning-based lesion detection and stage grading.

MATERIALS AND METHODS

A set of 12,252 eligible fundus images of diabetic patients were manually annotated by 45 licenced ophthalmologists and were randomly split into training, validation, and internal test sets (ratio of 7:1:2). Another set of 565 eligible consecutive clinical fundus images was established as an external test set. For automated referable DR identification, four deep learning models were programmed based on whether two factors were included: DR-related lesions and DR stages. Sensitivity, specificity and the area under the receiver operating characteristic curve (AUC) were reported for referable DR identification, while precision and recall were reported for lesion detection.

RESULTS

Adding lesion information to the five-stage grading model improved the AUC (0.943 vs. 0.938), sensitivity (90.6% vs. 90.5%) and specificity (80.7% vs. 78.5%) of the model for identifying referable DR in the internal test set. Adding stage information to the lesion-based model increased the AUC (0.943 vs. 0.936) and sensitivity (90.6% vs. 76.7%) of the model for identifying referable DR in the internal test set. Similar trends were also seen in the external test set. DR lesion types with high precision results were preretinal haemorrhage, hard exudate, vitreous haemorrhage, neovascularisation, cotton wool spots and fibrous proliferation.

CONCLUSIONS

The herein described automated model employed DR lesions and stage information to identify referable DR and displayed better diagnostic value than models built without this information.

摘要

目的

利用基于深度学习的病灶检测和分期分级，建立一种自动识别有转诊意义的糖尿病视网膜病变（DR）的方法，定义为中度非增殖性 DR 及以上。

材料与方法

将 12252 例符合条件的糖尿病患者眼底图像集由 45 名持照眼科医生进行手动标注，并随机分为训练集、验证集和内部测试集（比例为 7:1:2）。另一组 565 例符合条件的连续临床眼底图像被建立为外部测试集。为了自动识别有转诊意义的 DR，我们基于是否包含两个因素来编程四个深度学习模型：DR 相关病变和 DR 分期。报告了有转诊意义的 DR 识别的敏感性、特异性和受试者工作特征曲线（ROC）下面积（AUC），报告了病灶检测的精度和召回率。

结果

在五期分级模型中加入病灶信息，提高了内部测试集模型识别有转诊意义的 DR 的 AUC（0.943 比 0.938）、敏感性（90.6%比 90.5%）和特异性（80.7%比 78.5%）。在基于病灶的模型中加入分期信息，提高了内部测试集模型识别有转诊意义的 DR 的 AUC（0.943 比 0.936）和敏感性（90.6%比 76.7%）。在外部测试集也观察到了类似的趋势。具有高精度结果的 DR 病灶类型包括视网膜前出血、硬性渗出物、玻璃体积血、新生血管形成、棉絮斑和纤维增生。

结论

本文描述的自动模型利用 DR 病变和分期信息来识别有转诊意义的 DR，与不包含这些信息的模型相比，具有更好的诊断价值。

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基于深度学习的糖尿病视网膜病变诊断优化的检测和分期。

Deep learning-based detection and stage grading for optimising diagnosis of diabetic retinopathy.

机构信息

出版信息

AIMS

MATERIALS AND METHODS

RESULTS

CONCLUSIONS

目的

材料与方法

结果

结论

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