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基于深度学习的光学相干断层扫描图像疾病筛查和病理区域检测系统。

Deep Learning-Based System for Disease Screening and Pathologic Region Detection From Optical Coherence Tomography Images.

机构信息

College of Mathematics and Computer Science, Fuzhou University, Fujian province, China.

The Centre for Big Data Research in Burns and Trauma, College of Mathematics and Computer Science, Fuzhou University, Fujian province, China.

出版信息

Transl Vis Sci Technol. 2023 Jan 3;12(1):29. doi: 10.1167/tvst.12.1.29.

DOI:10.1167/tvst.12.1.29
PMID:36716039
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9896901/
Abstract

PURPOSE

This study was designed to apply deep learning models in retinal disease screening and lesion detection based on optical coherence tomography (OCT) images.

METHODS

We collected 37,138 OCT images from 775 patients and labelled by ophthalmologists. Multiple deep learning models including ResNet50 and YOLOv3 were developed to identify the types and locations of diseases or lesions based on the images.

RESULTS

The model were evaluated using patient-based independent holdout set. For binary classification of OCT images with or without lesions, the performance accuracy was 98.5%, sensitivity was 98.7%, specificity was 98.4%, and the F1 score was 97.7%. For multiclass multilabel disease classification, the models was able to detect vitreomacular traction syndrome and age-related macular degeneration both with an accuracy of more than 99%, sensitivity of more than 98%, specificity of more than 98%, and an F1 score of more than 97%. For lesion location detection, the recalls for different lesion types ranged from 87.0% (epiretinal membrane) to 98.2% (macular pucker).

CONCLUSIONS

Deep learning-based models have potentials to aid retinal disease screening, classification and diagnosis with excellent performance, which may serve as useful references for ophthalmologists.

TRANSLATIONAL RELEVANCE

The deep learning-based models are capable of identifying and predicting different eye diseases and lesions from OCT images and may have potential clinical application to assist the ophthalmologists for fast and accuracy retinal disease screening.

摘要

目的

本研究旨在应用深度学习模型基于光学相干断层扫描(OCT)图像进行视网膜疾病筛查和病变检测。

方法

我们收集了 775 名患者的 37138 张 OCT 图像,并由眼科医生进行标注。开发了多种深度学习模型,包括 ResNet50 和 YOLOv3,以根据图像识别疾病或病变的类型和位置。

结果

使用基于患者的独立验证集评估模型。对于有或无病变的 OCT 图像的二分类,模型的准确率为 98.5%,灵敏度为 98.7%,特异性为 98.4%,F1 得分为 97.7%。对于多类别多标签疾病分类,模型能够以超过 99%的准确率检测玻璃体黄斑牵引综合征和年龄相关性黄斑变性,灵敏度超过 98%,特异性超过 98%,F1 得分超过 97%。对于病变位置检测,不同病变类型的召回率范围为 87.0%(视网膜前膜)至 98.2%(黄斑皱襞)。

结论

基于深度学习的模型具有辅助视网膜疾病筛查、分类和诊断的潜力,具有优异的性能,可为眼科医生提供有用的参考。

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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5013/9896901/4b1e907cb180/tvst-12-1-29-f006.jpg
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