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- 出生日期:1983-09-02
- 电子邮箱:zhaowang92@uestc.edu.cn
- 入职时间:2018-06-01
- 学历:博士研究生毕业
- 办公地点:清水河科研楼4号C区336房间
- 性别:男
- 学位:哲学博士学位
- 职称:教授
- 博士生导师
- 曾获荣誉:国家青年特聘专家,荣获四川省“天府峨眉计划”、成都市“四派人才”、“蓉漂计划”称号
- 学科:电子科学与技术
物理电子学
Automated segmentation of retinal nonperfusion area in fluorescein angiography in retinal vein occlusion using convolutional neural networks
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- 所属单位:[1]Univ Elect Sci & Technol China, Sch Elect Sci & Engn, 4,Sect 2,North Jianshe Rd, Chengdu 610054, Sichuan, Peoples R China;[2]Shanxi Eye Hosp, 100 Fudong St, Taiyuan 030002, Shanxi, Peoples R China;[3]Shanxi Intelligence Inst Big Data Technol & Innov, 529 South Zhonghuan St, Taiyuan 030000, Shanxi, Peoples R China;[4]Taiyuan Univ, Dept Comp Engn, 18 South Dachang St, Taiyuan 030000, Shanxi, Peoples R China
- 发表刊物:MEDICAL PHYSICS
- 关键字:convolutional neural networks; fluorescein angiography; retinal nonperfusion; retinal vein occlusion
- 摘要:Purpose Retinal vein occlusion (RVO) is the second most common cause of vision loss after diabetic retinopathy due to retinal vascular disease. Retinal nonperfusion (RNP), identified on fluorescein angiograms (FA) and appearing as hypofluorescence regions, is one of the most significant characteristics of RVO. Quantification of RNP is crucial for assessing the severity and progression of RVO. However, in current clinical practice, it is mostly conducted manually, which is time-consuming, subjective, and error-prone. The purpose of this study is to develop fully automated methods for segmentation of RNP using convolutional neural networks (CNNs). Methods FA images from 161 patients were analyzed, and RNP areas were annotated by three independent physicians. The optimal method to use multi-physicians' labeled data to train the CNNs was evaluated. An adaptive histogram-based data augmentation method was utilized to boost the CNN performance. CNN methods based on context encoder module were developed for automated segmentation of RNP and compared with existing state-of-the-art methods. Results The proposed methods achieved excellent agreements with physicians for segmentation of RNP in FA images. The CNN performance can be improved significantly by the proposed adaptive histogram-based data augmentation method. Using the averaged labels from physicians to train the CNNs achieved the best consensus with all physicians, with a mean accuracy of 0.883 +/- 0.166 with fivefold cross-validation. Conclusions We reported CNN methods to segment RNP in RVO in FA images. Our work can help improve clinical workflow, and can be useful for further investigating the association between RNP and retinal disease progression, as well as for evaluating the optimal treatments for the management of RVO.
- 文献类型:Article
- 卷号:48
- 期号:2
- 页面范围:648-658
- ISSN号:0094-2405
- 是否译文:否