Author
Listed:
- Ling Dai
(Shanghai Jiao Tong University
Shanghai Clinical Center for Diabetes
Shanghai Jiao Tong University)
- Liang Wu
(Shanghai Clinical Center for Diabetes)
- Huating Li
(Shanghai Clinical Center for Diabetes)
- Chun Cai
(Shanghai Clinical Center for Diabetes)
- Qiang Wu
(Shanghai Jiao Tong University Affiliated Sixth People’s Hospital)
- Hongyu Kong
(Shanghai Jiao Tong University Affiliated Sixth People’s Hospital)
- Ruhan Liu
(Shanghai Jiao Tong University
Shanghai Jiao Tong University)
- Xiangning Wang
(Shanghai Jiao Tong University Affiliated Sixth People’s Hospital)
- Xuhong Hou
(Shanghai Clinical Center for Diabetes)
- Yuexing Liu
(Shanghai Clinical Center for Diabetes)
- Xiaoxue Long
(Shanghai Clinical Center for Diabetes)
- Yang Wen
(Shanghai Jiao Tong University
Shanghai Jiao Tong University)
- Lina Lu
(Shanghai Engineering Center for Precise Diagnosis and Treatment of Eye Diseases)
- Yaxin Shen
(Shanghai Jiao Tong University
Shanghai Jiao Tong University)
- Yan Chen
(Shanghai Jiao Tong University Affiliated Sixth People’s Hospital)
- Dinggang Shen
(Shanghai Tech University
Shanghai United Imaging Intelligence Co., Ltd.)
- Xiaokang Yang
(Shanghai Jiao Tong University)
- Haidong Zou
(Shanghai Engineering Center for Precise Diagnosis and Treatment of Eye Diseases)
- Bin Sheng
(Shanghai Jiao Tong University
Shanghai Jiao Tong University)
- Weiping Jia
(Shanghai Clinical Center for Diabetes)
Abstract
Retinal screening contributes to early detection of diabetic retinopathy and timely treatment. To facilitate the screening process, we develop a deep learning system, named DeepDR, that can detect early-to-late stages of diabetic retinopathy. DeepDR is trained for real-time image quality assessment, lesion detection and grading using 466,247 fundus images from 121,342 patients with diabetes. Evaluation is performed on a local dataset with 200,136 fundus images from 52,004 patients and three external datasets with a total of 209,322 images. The area under the receiver operating characteristic curves for detecting microaneurysms, cotton-wool spots, hard exudates and hemorrhages are 0.901, 0.941, 0.954 and 0.967, respectively. The grading of diabetic retinopathy as mild, moderate, severe and proliferative achieves area under the curves of 0.943, 0.955, 0.960 and 0.972, respectively. In external validations, the area under the curves for grading range from 0.916 to 0.970, which further supports the system is efficient for diabetic retinopathy grading.
Suggested Citation
Ling Dai & Liang Wu & Huating Li & Chun Cai & Qiang Wu & Hongyu Kong & Ruhan Liu & Xiangning Wang & Xuhong Hou & Yuexing Liu & Xiaoxue Long & Yang Wen & Lina Lu & Yaxin Shen & Yan Chen & Dinggang Shen, 2021.
"A deep learning system for detecting diabetic retinopathy across the disease spectrum,"
Nature Communications, Nature, vol. 12(1), pages 1-11, December.
Handle:
RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-23458-5
DOI: 10.1038/s41467-021-23458-5
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Citations
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Cited by:
- Xuhong Hou & Limin Wang & Dalong Zhu & Lixin Guo & Jianping Weng & Mei Zhang & Zhiguang Zhou & Dajin Zou & Qiuhe Ji & Xiaohui Guo & Qiang Wu & Siyu Chen & Rong Yu & Hongli Chen & Zhengjing Huang & Xia, 2023.
"Prevalence of diabetic retinopathy and vision-threatening diabetic retinopathy in adults with diabetes in China,"
Nature Communications, Nature, vol. 14(1), pages 1-11, December.
- Siyuan Kong & Pengyun Gong & Wen-Feng Zeng & Biyun Jiang & Xinhang Hou & Yang Zhang & Huanhuan Zhao & Mingqi Liu & Guoquan Yan & Xinwen Zhou & Xihua Qiao & Mengxi Wu & Pengyuan Yang & Chao Liu & Weiqi, 2022.
"pGlycoQuant with a deep residual network for quantitative glycoproteomics at intact glycopeptide level,"
Nature Communications, Nature, vol. 13(1), pages 1-17, December.
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