2020
DOI: 10.1167/tvst.9.2.23
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DeshadowGAN: A Deep Learning Approach to Remove Shadows from Optical Coherence Tomography Images

Abstract: Purpose: To remove retinal shadows from optical coherence tomography (OCT) images of the optic nerve head (ONH). Methods: 2328 OCT images acquired through the center of the ONH using a Spectralis OCT machine for both eyes of 13 subjects were used to train a generative adversarial network (GAN) using a custom loss function.Image quality was assessed qualitatively (for artifacts) and quantitatively using the intralayer contrast a measure of shadow visibility ranging from 0 (shadow-free) to 1 (strong shadow) and … Show more

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Cited by 40 publications
(21 citation statements)
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“…22 , 23 Notably, our preprocessing method works on a single OCT volume obtained without any special data acquisition protocols, and thus offers a significant practical advantage in that it can be applied widely and retrospectively to existing databases to gain new insights into the vasculature of the choroid in health and disease. Recently, other techniques addressing speckle noise 24 27 and shadow artifact 28 have been proposed and can also be used as alternatives to our methods in the processing pipeline to achieve the quantitative analysis.…”
Section: Methodsmentioning
confidence: 99%
“…22 , 23 Notably, our preprocessing method works on a single OCT volume obtained without any special data acquisition protocols, and thus offers a significant practical advantage in that it can be applied widely and retrospectively to existing databases to gain new insights into the vasculature of the choroid in health and disease. Recently, other techniques addressing speckle noise 24 27 and shadow artifact 28 have been proposed and can also be used as alternatives to our methods in the processing pipeline to achieve the quantitative analysis.…”
Section: Methodsmentioning
confidence: 99%
“…We found 20 published implementations of GANs specific to ophthalmology. Of these, 11 manuscripts synthesized fundus images, 9,19,20,23,32,37,[40][41][42][43][44] 6 manuscripts synthesized OCT images, [27][28][29][45][46][47] 2 manuscripts synthesized fluorescein angiography images, 48,49 and 1 manuscript synthesized infrared images 21 (Table 2). The majority of GANs were proof-ofconcept studies demonstrating feasibility of generating realistic-appearing synthetic images, specific implementations of GANs were published in 9 for diagnosis of ophthalmic diseases, including diabetic retinopathy (DR), 9,20,32,40 glaucoma, 28,45 age-related macular degeneration (AMD), 19,46 and meibomian gland dysfunction.…”
Section: Gans In Ophthalmologymentioning
confidence: 99%
“…Second, GANs are often used to improve signal quality or fill in missing information in an image; however, the resulting "improved" image might obscure the presence of real pathology that would have been visible without the artifact or on a better-quality scan/image. 47 Additionally, they can produce so-called image hallucinations, i.e. the addition of image features not actually present, which may or may not be useful.…”
Section: Limitations Of Gansmentioning
confidence: 99%
“…The quantitative measurements of the DL method showed an improvement in the mean signal-to-noise ratio, mean contrast-to-noise ratio, and mean structural similarity index. In addition, the DL method was used to extract capillarylevel angiograms from a single OCT volume [14] and detect retinal nerve fiber layer segmentation errors on SD-OCT [15]. Further DL role in medical imaging was showed in [16] for automated age-related macular degeneration (AMD) detection by utilizing support vector machine (SVM), AlexNet, GoogLeNet, and Inception-ResNet for AMD detection while a block-matching and 3-Dimension filter (BM3DF), a hybrid median filter (HMF), and an adaptive wiener filter (AWF) were used to denoise the OCT images.…”
Section: Introductionmentioning
confidence: 99%