Livelayer: a semi-automatic software program for segmentation of layers and diabetic macular edema in optical coherence tomography images

Livelayer: a semi-automatic software program for segmentation of layers and diabetic macular edema in optical coherence tomography images

Abstract Given the capacity of Optical Coherence Tomography (OCT) imaging to display structural changes in a wide variety of eye diseases and neurological disorders, the need for OCT image segmentation and the corresponding data interpretation is latterly felt more than ever before. In this paper, w...

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Main Authors: Mansooreh Montazerin, Zahra Sajjadifar, Elias Khalili Pour, Hamid Riazi-Esfahani, Tahereh Mahmoudi, Hossein Rabbani, Hossein Movahedian, Alireza Dehghani, Mohammadreza Akhlaghi, Rahele Kafieh
Format: Article
Language:English
Published: Nature Publishing Group 2021-07-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-92713-y
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spelling doaj-e418d66acc344723906b16f575020da72021-07-04T11:28:36ZengNature Publishing GroupScientific Reports2045-23222021-07-0111111310.1038/s41598-021-92713-yLivelayer: a semi-automatic software program for segmentation of layers and diabetic macular edema in optical coherence tomography imagesMansooreh Montazerin0Zahra Sajjadifar1Elias Khalili Pour2Hamid Riazi-Esfahani3Tahereh Mahmoudi4Hossein Rabbani5Hossein Movahedian6Alireza Dehghani7Mohammadreza Akhlaghi8Rahele Kafieh9Department of Electrical and Computer Engineering, Isfahan University of TechnologyDepartment of Electrical and Computer Engineering, Isfahan University of TechnologyRetina Service, Farabi Eye Hospital, Tehran University of Medical SciencesRetina Service, Farabi Eye Hospital, Tehran University of Medical SciencesDepartment of Biomedical Systems and Medical Physics, Tehran University of Medical SciencesSchool of Advanced Technologies in Medicine, Medical Image and Signal Processing Research Center, Isfahan University of Medical SciencesIsfahan Eye Research Center, Department of Ophthalmology, Isfahan University of Medical SciencesIsfahan Eye Research Center, Department of Ophthalmology, Isfahan University of Medical SciencesIsfahan Eye Research Center, Department of Ophthalmology, Isfahan University of Medical SciencesSchool of Advanced Technologies in Medicine, Medical Image and Signal Processing Research Center, Isfahan University of Medical SciencesAbstract Given the capacity of Optical Coherence Tomography (OCT) imaging to display structural changes in a wide variety of eye diseases and neurological disorders, the need for OCT image segmentation and the corresponding data interpretation is latterly felt more than ever before. In this paper, we wish to address this need by designing a semi-automatic software program for applying reliable segmentation of 8 different macular layers as well as outlining retinal pathologies such as diabetic macular edema. The software accommodates a novel graph-based semi-automatic method, called “Livelayer” which is designed for straightforward segmentation of retinal layers and fluids. This method is chiefly based on Dijkstra’s Shortest Path First (SPF) algorithm and the Live-wire function together with some preprocessing operations on the to-be-segmented images. The software is indeed suitable for obtaining detailed segmentation of layers, exact localization of clear or unclear fluid objects and the ground truth, demanding far less endeavor in comparison to a common manual segmentation method. It is also valuable as a tool for calculating the irregularity index in deformed OCT images. The amount of time (seconds) that Livelayer required for segmentation of Inner Limiting Membrane, Inner Plexiform Layer–Inner Nuclear Layer, Outer Plexiform Layer–Outer Nuclear Layer was much less than that for the manual segmentation, 5 s for the ILM (minimum) and 15.57 s for the OPL–ONL (maximum). The unsigned errors (pixels) between the semi-automatically labeled and gold standard data was on average 2.7, 1.9, 2.1 for ILM, IPL–INL, OPL–ONL, respectively. The Bland–Altman plots indicated perfect concordance between the Livelayer and the manual algorithm and that they could be used interchangeably. The repeatability error was around one pixel for the OPL–ONL and < 1 for the other two. The unsigned errors between the Livelayer and the manual algorithm was 1.33 for ILM and 1.53 for Nerve Fiber Layer–Ganglion Cell Layer in peripapillary B-Scans. The Dice scores for comparing the two algorithms and for obtaining the repeatability on segmentation of fluid objects were at acceptable levels.https://doi.org/10.1038/s41598-021-92713-y
collection DOAJ
language English
format Article
sources DOAJ
author Mansooreh Montazerin
Zahra Sajjadifar
Elias Khalili Pour
Hamid Riazi-Esfahani
Tahereh Mahmoudi
Hossein Rabbani
Hossein Movahedian
Alireza Dehghani
Mohammadreza Akhlaghi
Rahele Kafieh
spellingShingle Mansooreh Montazerin
Zahra Sajjadifar
Elias Khalili Pour
Hamid Riazi-Esfahani
Tahereh Mahmoudi
Hossein Rabbani
Hossein Movahedian
Alireza Dehghani
Mohammadreza Akhlaghi
Rahele Kafieh
Livelayer: a semi-automatic software program for segmentation of layers and diabetic macular edema in optical coherence tomography images
Scientific Reports
author_facet Mansooreh Montazerin
Zahra Sajjadifar
Elias Khalili Pour
Hamid Riazi-Esfahani
Tahereh Mahmoudi
Hossein Rabbani
Hossein Movahedian
Alireza Dehghani
Mohammadreza Akhlaghi
Rahele Kafieh
author_sort Mansooreh Montazerin
title Livelayer: a semi-automatic software program for segmentation of layers and diabetic macular edema in optical coherence tomography images
title_short Livelayer: a semi-automatic software program for segmentation of layers and diabetic macular edema in optical coherence tomography images
title_full Livelayer: a semi-automatic software program for segmentation of layers and diabetic macular edema in optical coherence tomography images
title_fullStr Livelayer: a semi-automatic software program for segmentation of layers and diabetic macular edema in optical coherence tomography images
title_full_unstemmed Livelayer: a semi-automatic software program for segmentation of layers and diabetic macular edema in optical coherence tomography images
title_sort livelayer: a semi-automatic software program for segmentation of layers and diabetic macular edema in optical coherence tomography images
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-07-01
description Abstract Given the capacity of Optical Coherence Tomography (OCT) imaging to display structural changes in a wide variety of eye diseases and neurological disorders, the need for OCT image segmentation and the corresponding data interpretation is latterly felt more than ever before. In this paper, we wish to address this need by designing a semi-automatic software program for applying reliable segmentation of 8 different macular layers as well as outlining retinal pathologies such as diabetic macular edema. The software accommodates a novel graph-based semi-automatic method, called “Livelayer” which is designed for straightforward segmentation of retinal layers and fluids. This method is chiefly based on Dijkstra’s Shortest Path First (SPF) algorithm and the Live-wire function together with some preprocessing operations on the to-be-segmented images. The software is indeed suitable for obtaining detailed segmentation of layers, exact localization of clear or unclear fluid objects and the ground truth, demanding far less endeavor in comparison to a common manual segmentation method. It is also valuable as a tool for calculating the irregularity index in deformed OCT images. The amount of time (seconds) that Livelayer required for segmentation of Inner Limiting Membrane, Inner Plexiform Layer–Inner Nuclear Layer, Outer Plexiform Layer–Outer Nuclear Layer was much less than that for the manual segmentation, 5 s for the ILM (minimum) and 15.57 s for the OPL–ONL (maximum). The unsigned errors (pixels) between the semi-automatically labeled and gold standard data was on average 2.7, 1.9, 2.1 for ILM, IPL–INL, OPL–ONL, respectively. The Bland–Altman plots indicated perfect concordance between the Livelayer and the manual algorithm and that they could be used interchangeably. The repeatability error was around one pixel for the OPL–ONL and < 1 for the other two. The unsigned errors between the Livelayer and the manual algorithm was 1.33 for ILM and 1.53 for Nerve Fiber Layer–Ganglion Cell Layer in peripapillary B-Scans. The Dice scores for comparing the two algorithms and for obtaining the repeatability on segmentation of fluid objects were at acceptable levels.
url https://doi.org/10.1038/s41598-021-92713-y
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