Deep-learning based, automated segmentation of macular edema in optical coherence tomography

Cecilia S. Lee; Ariel J. Tyring; Nicolaas P. Deruyter; Yue Wu; Ariel Rokem; Aaron Y. Lee

doi:10.1364/BOE.8.003440

Deep-learning based, automated segmentation of macular edema in optical coherence tomography

Cecilia S. Lee
, Ariel J. Tyring
, Nicolaas P. Deruyter
, Yue Wu
, Ariel Rokem
, Aaron Y. Lee

Research output: Contribution to journal › Article › peer-review

302 Scopus citations

Abstract

Evaluation of clinical images is essential for diagnosis in many specialties. Therefore the development of computer vision algorithms to help analyze biomedical images will be important. In ophthalmology, optical coherence tomography (OCT) is critical for managing retinal conditions. We developed a convolutional neural network (CNN) that detects intraretinal fluid (IRF) on OCT in a manner indistinguishable from clinicians. Using 1,289 OCT images, the CNN segmented images with a 0.911 cross-validated Dice coefficient, compared with segmentations by experts. Additionally, the agreement between experts and between experts and CNN were similar. Our results reveal that CNN can be trained to perform automated segmentations of clinically relevant image features.

Original language	English
Article number	295030
Pages (from-to)	3440-3448
Number of pages	9
Journal	Biomedical Optics Express
Volume	8
Issue number	7
DOIs	https://doi.org/10.1364/BOE.8.003440
State	Published - Jul 1 2017

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title = "Deep-learning based, automated segmentation of macular edema in optical coherence tomography",

abstract = "Evaluation of clinical images is essential for diagnosis in many specialties. Therefore the development of computer vision algorithms to help analyze biomedical images will be important. In ophthalmology, optical coherence tomography (OCT) is critical for managing retinal conditions. We developed a convolutional neural network (CNN) that detects intraretinal fluid (IRF) on OCT in a manner indistinguishable from clinicians. Using 1,289 OCT images, the CNN segmented images with a 0.911 cross-validated Dice coefficient, compared with segmentations by experts. Additionally, the agreement between experts and between experts and CNN were similar. Our results reveal that CNN can be trained to perform automated segmentations of clinically relevant image features.",

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AU - Lee, Cecilia S.

AU - Tyring, Ariel J.

AU - Deruyter, Nicolaas P.

AU - Wu, Yue

AU - Rokem, Ariel

AU - Lee, Aaron Y.

PY - 2017/7/1

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N2 - Evaluation of clinical images is essential for diagnosis in many specialties. Therefore the development of computer vision algorithms to help analyze biomedical images will be important. In ophthalmology, optical coherence tomography (OCT) is critical for managing retinal conditions. We developed a convolutional neural network (CNN) that detects intraretinal fluid (IRF) on OCT in a manner indistinguishable from clinicians. Using 1,289 OCT images, the CNN segmented images with a 0.911 cross-validated Dice coefficient, compared with segmentations by experts. Additionally, the agreement between experts and between experts and CNN were similar. Our results reveal that CNN can be trained to perform automated segmentations of clinically relevant image features.

AB - Evaluation of clinical images is essential for diagnosis in many specialties. Therefore the development of computer vision algorithms to help analyze biomedical images will be important. In ophthalmology, optical coherence tomography (OCT) is critical for managing retinal conditions. We developed a convolutional neural network (CNN) that detects intraretinal fluid (IRF) on OCT in a manner indistinguishable from clinicians. Using 1,289 OCT images, the CNN segmented images with a 0.911 cross-validated Dice coefficient, compared with segmentations by experts. Additionally, the agreement between experts and between experts and CNN were similar. Our results reveal that CNN can be trained to perform automated segmentations of clinically relevant image features.

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Deep-learning based, automated segmentation of macular edema in optical coherence tomography

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