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Segmentation of Microcystic Macular Edema in Cirrus OCT Scans with an Exploratory Longitudinal Study

Overview
Journal Proc SPIE Int Soc Opt Eng
Date 2015 May 30
PMID 26023249
Citations 7
Authors
Emily K Swingle
Andrew Lang
Aaron Carass
Omar Al-Louzi
Shiv Saidha
Jerry L Prince
Peter A Calabresi
Affiliations
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Abstract

Microcystic macular edema (MME) is a term used to describe pseudocystic spaces in the inner nuclear layer (INL) of the human retina. It has been noted in multiple sclerosis (MS) as well as a variety of other diseases. The processes that lead to MME formation and their change over time have yet to be explained sufficiently. The low rate at which MME occurs within such diverse patient groups makes the identification and consistent quantification of this pathology important for developing patient-specific prognoses. MME is observed in optical coherence tomography (OCT) scans of the retina as changes in light reflectivity in a pattern suggestive of fluid accumulations called pseudocysts. Pseudocysts can be readily identified in higher signal-to-noise ratio (SNR) images, however pseudocysts can be indistinguishable from noise in lower SNR scans. In this work, we expand upon our earlier MME identification methods on Spectralis OCT scans to handle lower quality Cirrus OCT scans. Our approach uses a random forest classifier, trained on manual segmentation of ten subjects, to automatically detect MME. The algorithm has a true positive rate for MME identification of 0.95 and a Dice score of 0.79. We include a preliminary longitudinal study of three patients over four to five years to explore the longitudinal changes of MME. The patients with relapsing-remitting MS and neuromyelitis optica appear to have dynamic pseudocyst volumes, while the MME volume appears stable in the one patient with primary progressive MS.

Citing Articles

Deep learning based topology guaranteed surface and MME segmentation of multiple sclerosis subjects from retinal OCT.

He Y, Carass A, Liu Y, Jedynak B, Solomon S, Saidha S Biomed Opt Express. 2019; 10(10):5042-5058.

PMID: 31646029 PMC: 6788619. DOI: 10.1364/BOE.10.005042.

Fully-automated segmentation of fluid regions in exudative age-related macular degeneration subjects: Kernel graph cut in neutrosophic domain.

Rashno A, Nazari B, Koozekanani D, Drayna P, Sadri S, Rabbani H PLoS One. 2017; 12(10):e0186949.

PMID: 29059257 PMC: 5653365. DOI: 10.1371/journal.pone.0186949.

Intensity inhomogeneity correction of SD-OCT data using macular flatspace.

Lang A, Carass A, Jedynak B, Solomon S, Calabresi P, Prince J Med Image Anal. 2017; 43:85-97.

PMID: 29040910 PMC: 6311386. DOI: 10.1016/j.media.2017.09.008.

Collaborative SDOCT Segmentation and Analysis Software.

Yun Y, Carass A, Lang A, Prince J, Antony B Proc SPIE Int Soc Opt Eng. 2017; 10138.

PMID: 28919660 PMC: 5600167. DOI: 10.1117/12.2254050.

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

Lee C, Tyring A, DeRuyter N, Wu Y, Rokem A, Lee A Biomed Opt Express. 2017; 8(7):3440-3448.

PMID: 28717579 PMC: 5508840. DOI: 10.1364/BOE.8.003440.

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