Automated retinal layer segmentation in optical coherence tomography images with intraretinal fluid

We propose a novel retinal layer segmentation method to accurately segment 10 retinal layers in optical coherence tomography (OCT) images with intraretinal fluid. The method used a fan filter to enhance the linear information pertaining to retinal boundaries in an OCT image by reducing the effect of...

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Bibliographic Details
Published in:Journal of innovative optical health science 2022-05, Vol.15 (3)
Main Authors: Wang, Luquan, Li, Xiaowen, Chen, Yong, Han, Dingan, Wang, Mingyi, Zeng, Yaguang, Zhong, Junping, Wang, Xuehua, Ji, Yanhong, Xiong, Honglian, Wei, Xunbin
Format: Article
Language:English
Subjects:
Boundaries
Diabetes mellitus
Edema
fluid optical coherence tomography scan
Image enhancement
Image processing
Image segmentation
Optical Coherence Tomography
random forests
Research Article
Retina
Retinal layer segmentation
Tomography
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Summary:We propose a novel retinal layer segmentation method to accurately segment 10 retinal layers in optical coherence tomography (OCT) images with intraretinal fluid. The method used a fan filter to enhance the linear information pertaining to retinal boundaries in an OCT image by reducing the effect of vessel shadows and fluid regions. A random forest classifier was employed to predict the location of the boundaries. Two novel methods of boundary redirection (SR) and similarity correction (SC) were combined to carry out boundary tracking and thereby accurately locate retinal layer boundaries. Experiments were performed on healthy controls and subjects with diabetic macular edema (DME). The proposed method required an average of 415 s for healthy controls and of 482 s for subjects with DME and achieved high accuracy for both groups of subjects. The proposed method requires a shorter running time than previous methods and also provides high accuracy. Thus, the proposed method may be a better choice for small training datasets.
ISSN:1793-5458
1793-7205
DOI:10.1142/S1793545822500195