TY - JOUR
T1 - AGE challenge
T2 - Angle Closure Glaucoma Evaluation in Anterior Segment Optical Coherence Tomography
AU - for iChallenge-PACG study group
AU - Fu, Huazhu
AU - Li, Fei
AU - Sun, Xu
AU - Cao, Xingxing
AU - Liao, Jingan
AU - Orlando, José Ignacio
AU - Tao, Xing
AU - Li, Yuexiang
AU - Zhang, Shihao
AU - Tan, Mingkui
AU - Yuan, Chenglang
AU - Bian, Cheng
AU - Xie, Ruitao
AU - Li, Jiongcheng
AU - Li, Xiaomeng
AU - Wang, Jing
AU - Geng, Le
AU - Li, Panming
AU - Hao, Huaying
AU - Liu, Jiang
AU - Kong, Yan
AU - Ren, Yongyong
AU - Bogunović, Hrvoje
AU - Zhang, Xiulan
AU - Xu, Yanwu
N1 - Publisher Copyright:
© 2020 Elsevier B.V.
PY - 2020/12
Y1 - 2020/12
N2 - Angle closure glaucoma (ACG) is a more aggressive disease than open-angle glaucoma, where the abnormal anatomical structures of the anterior chamber angle (ACA) may cause an elevated intraocular pressure and gradually lead to glaucomatous optic neuropathy and eventually to visual impairment and blindness. Anterior Segment Optical Coherence Tomography (AS-OCT) imaging provides a fast and contactless way to discriminate angle closure from open angle. Although many medical image analysis algorithms have been developed for glaucoma diagnosis, only a few studies have focused on AS-OCT imaging. In particular, there is no public AS-OCT dataset available for evaluating the existing methods in a uniform way, which limits progress in the development of automated techniques for angle closure detection and assessment. To address this, we organized the Angle closure Glaucoma Evaluation challenge (AGE), held in conjunction with MICCAI 2019. The AGE challenge consisted of two tasks: scleral spur localization and angle closure classification. For this challenge, we released a large dataset of 4800 annotated AS-OCT images from 199 patients, and also proposed an evaluation framework to benchmark and compare different models. During the AGE challenge, over 200 teams registered online, and more than 1100 results were submitted for online evaluation. Finally, eight teams participated in the onsite challenge. In this paper, we summarize these eight onsite challenge methods and analyze their corresponding results for the two tasks. We further discuss limitations and future directions. In the AGE challenge, the top-performing approach had an average Euclidean Distance of 10 pixels (10 µm) in scleral spur localization, while in the task of angle closure classification, all the algorithms achieved satisfactory performances, with two best obtaining an accuracy rate of 100%. These artificial intelligence techniques have the potential to promote new developments in AS-OCT image analysis and image-based angle closure glaucoma assessment in particular.
AB - Angle closure glaucoma (ACG) is a more aggressive disease than open-angle glaucoma, where the abnormal anatomical structures of the anterior chamber angle (ACA) may cause an elevated intraocular pressure and gradually lead to glaucomatous optic neuropathy and eventually to visual impairment and blindness. Anterior Segment Optical Coherence Tomography (AS-OCT) imaging provides a fast and contactless way to discriminate angle closure from open angle. Although many medical image analysis algorithms have been developed for glaucoma diagnosis, only a few studies have focused on AS-OCT imaging. In particular, there is no public AS-OCT dataset available for evaluating the existing methods in a uniform way, which limits progress in the development of automated techniques for angle closure detection and assessment. To address this, we organized the Angle closure Glaucoma Evaluation challenge (AGE), held in conjunction with MICCAI 2019. The AGE challenge consisted of two tasks: scleral spur localization and angle closure classification. For this challenge, we released a large dataset of 4800 annotated AS-OCT images from 199 patients, and also proposed an evaluation framework to benchmark and compare different models. During the AGE challenge, over 200 teams registered online, and more than 1100 results were submitted for online evaluation. Finally, eight teams participated in the onsite challenge. In this paper, we summarize these eight onsite challenge methods and analyze their corresponding results for the two tasks. We further discuss limitations and future directions. In the AGE challenge, the top-performing approach had an average Euclidean Distance of 10 pixels (10 µm) in scleral spur localization, while in the task of angle closure classification, all the algorithms achieved satisfactory performances, with two best obtaining an accuracy rate of 100%. These artificial intelligence techniques have the potential to promote new developments in AS-OCT image analysis and image-based angle closure glaucoma assessment in particular.
KW - AS-OCT
KW - Angle closure classification
KW - Anterior chamber angle
KW - Scleral spur localization
UR - http://www.scopus.com/inward/record.url?scp=85090288812&partnerID=8YFLogxK
U2 - 10.1016/j.media.2020.101798
DO - 10.1016/j.media.2020.101798
M3 - Article
C2 - 32896781
AN - SCOPUS:85090288812
SN - 1361-8415
VL - 66
JO - Medical Image Analysis
JF - Medical Image Analysis
M1 - 101798
ER -