使用深度学习算法从视网膜眼底图像预测高冠状动脉钙化评分

Predicting High Coronary Artery Calcium Score From Retinal Fundus Images With Deep Learning Algorithms.

作者信息

Son Jaemin, Shin Joo Young, Chun Eun Ju, Jung Kyu-Hwan, Park Kyu Hyung, Park Sang Jun

机构信息

VUNO Inc., Seoul, Korea.

Department of Ophthalmology, Seoul National University College of Medicine, Seoul Metropolitan Government Seoul National University Boramae Medical Center, Seoul, Korea.

出版信息

Transl Vis Sci Technol. 2020 Nov 11;9(6):28. doi: 10.1167/tvst.9.2.28. eCollection 2020 Nov.

DOI:10.1167/tvst.9.2.28

PMID:33184590

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7410115/

Abstract

PURPOSE

To evaluate high accumulation of coronary artery calcium (CAC) from retinal fundus images with deep learning technologies as an inexpensive and radiation-free screening method.

METHODS

Individuals who underwent bilateral retinal fundus imaging and CAC score (CACS) evaluation from coronary computed tomography scans on the same day were identified. With this database, performances of deep learning algorithms (inception-v3) to distinguish high CACS from CACS of 0 were evaluated at various thresholds for high CACS. Vessel-inpainted and fovea-inpainted images were also used as input to investigate areas of interest in determining CACS.

RESULTS

A total of 44,184 images from 20,130 individuals were included. A deep learning algorithm for discrimination of no CAC from CACS >100 achieved area under receiver operating curve (AUROC) of 82.3% (79.5%-85.0%) and 83.2% (80.2%-86.3%) using unilateral and bilateral fundus images, respectively, under a 5-fold cross validation setting. AUROC increased as the criterion for high CACS was increased, showing a plateau at 100 and losing significant improvement thereafter. AUROC decreased when fovea was inpainted and decreased further when vessels were inpainted, whereas AUROC increased when bilateral images were used as input.

CONCLUSIONS

Visual patterns of retinal fundus images in subjects with CACS > 100 could be recognized by deep learning algorithms compared with those with no CAC. Exploiting bilateral images improves discrimination performance, and ablation studies removing retinal vasculature or fovea suggest that recognizable patterns reside mainly in these areas.

TRANSLATIONAL RELEVANCE

Retinal fundus images can be used by deep learning algorithms for prediction of high CACS.

摘要

目的

运用深度学习技术，评估视网膜眼底图像中冠状动脉钙化（CAC）的高积累情况，作为一种低成本且无辐射的筛查方法。

方法

纳入在同一天接受双侧视网膜眼底成像及冠状动脉计算机断层扫描评估冠状动脉钙化评分（CACS）的个体。利用该数据库，在高CACS的不同阈值下，评估深度学习算法（Inception-v3）区分高CACS与CACS为0的性能。还使用血管内填充和黄斑内填充图像作为输入，以研究确定CACS时的感兴趣区域。

结果

共纳入来自20130名个体的44184张图像。在5折交叉验证设置下，使用单侧和双侧眼底图像，用于区分无CAC与CACS>100的深度学习算法的受试者操作特征曲线下面积（AUROC）分别为82.3%（79.5%-85.0%）和83.2%（80.2%-86.3%）。随着高CACS标准的提高，AUROC增加，在100时达到平台期，此后无显著改善。当黄斑被填充时，AUROC降低，当血管被填充时，AUROC进一步降低，而当使用双侧图像作为输入时，AUROC增加。

结论

与无CAC的受试者相比，深度学习算法可识别CACS>100的受试者视网膜眼底图像的视觉模式。利用双侧图像可提高辨别性能，去除视网膜血管或黄斑的消融研究表明，可识别模式主要存在于这些区域。

转化相关性

深度学习算法可利用视网膜眼底图像预测高CACS。

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使用深度学习算法从视网膜眼底图像预测高冠状动脉钙化评分

Predicting High Coronary Artery Calcium Score From Retinal Fundus Images With Deep Learning Algorithms.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

TRANSLATIONAL RELEVANCE

目的

方法

结果

结论

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