Pisong Yan scite author profile

Retinal detachment can lead to severe visual loss if not treated timely. The early diagnosis of retinal detachment can improve the rate of successful reattachment and the visual results, especially before macular involvement. Manual retinal detachment screening is timeconsuming and labour-intensive, which is difficult for large-scale clinical applications. In this study, we developed a cascaded deep learning system based on the ultra-widefield fundus images for automated retinal detachment detection and macula-on/off retinal detachment discerning. The performance of this system is reliable and comparable to an experienced ophthalmologist. In addition, this system can automatically provide guidance to patients regarding appropriate preoperative posturing to reduce retinal detachment progression and the urgency of retinal detachment repair. The implementation of this system on a global scale may drastically reduce the extent of vision impairment resulting from retinal detachment by providing timely identification and referral.

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Anterior Segment Variations with Age and Accommodation Demonstrated by Slit-Lamp–Adapted Optical Coherence Tomography

Yan

Lin

Wang

et al. 2010

Ophthalmology

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Effectiveness of an Ophthalmic Hospital-Based Virtual Service during the COVID-19 Pandemic

Chen

Yun

et al. 2021

Ophthalmology

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Deep learning for automated glaucomatous optic neuropathy detection from ultra-widefield fundus images

Guo

Lin

et al. 2020

Br J Ophthalmol

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Background/AimsTo develop a deep learning system for automated glaucomatous optic neuropathy (GON) detection using ultra-widefield fundus (UWF) images.MethodsWe trained, validated and externally evaluated a deep learning system for GON detection based on 22 972 UWF images from 10 590 subjects that were collected at 4 different institutions in China and Japan. The InceptionResNetV2 neural network architecture was used to develop the system. The area under the receiver operating characteristic curve (AUC), sensitivity and specificity were used to assess the performance of detecting GON by the system. The data set from the Zhongshan Ophthalmic Center (ZOC) was selected to compare the performance of the system to that of ophthalmologists who mainly conducted UWF image analysis in clinics.ResultsThe system for GON detection achieved AUCs of 0.983–0.999 with sensitivities of 97.5–98.2% and specificities of 94.3–98.4% in four independent data sets. The most common reasons for false-negative results were confounding optic disc characteristics caused by high myopia or pathological myopia (n=39 (53%)). The leading cause for false-positive results was having other fundus lesions (n=401 (96%)). The performance of the system in the ZOC data set was comparable to that of an experienced ophthalmologist (p>0.05).ConclusionOur deep learning system can accurately detect GON from UWF images in an automated fashion. It may be used as a screening tool to improve the accessibility of screening and promote the early diagnosis and management of glaucoma.

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Automated detection of retinal exudates and drusen in ultra-widefield fundus images based on deep learning

Guo

Nie

et al. 2021

Eye

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Pisong Yan

Deep learning for detecting retinal detachment and discerning macular status using ultra-widefield fundus images

Anterior Segment Variations with Age and Accommodation Demonstrated by Slit-Lamp–Adapted Optical Coherence Tomography

Effectiveness of an Ophthalmic Hospital-Based Virtual Service during the COVID-19 Pandemic

Deep learning for automated glaucomatous optic neuropathy detection from ultra-widefield fundus images

Automated detection of retinal exudates and drusen in ultra-widefield fundus images based on deep learning

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