Automated glaucoma detection using retinal layers segmentation and optic cup-to-disc ratio in optical coherence tomography images

• Published in: IET image processing Vol. 13; no. 3; pp. 409 - 420
• Main Authors: Ramzan, Aneeqa, Usman Akram, Muhammad, Shaukat, Arslan, Gul Khawaja, Sajid, Ullah Yasin, Ubaid, Haider Butt, Wasi
• Format: Journal Article
• Language: English
• Published: The Institution of Engineering and Technology 28.02.2019
• Subjects: automated glaucoma detection; average RPE break points; biomedical optical imaging; colour channels; cup‐to‐disc region; different quality images; disc calculation; diseases; excessive intraocular pressure; eye; eye disease; glaucoma presence; horizontal/flat cup diameter; ILM layer; ILM regions; image segmentation; medical disorders; medical image processing; optic cup‐to‐disc ratio; optic disc region; optical coherence tomography images; optical coherence tomography scans; optical tomography; quality assessment step; Research Article; retinal layers segmentation; retinal level; RPE breakpoints; RPE segmentation; segment; succession; thresholding method; vision defects; average RPE break points; optical tomography; quality assessment step; thresholding method; retinal level; image segmentation; ILM regions; optical coherence tomography images; segment; colour channels; glaucoma presence; automated glaucoma detection; retinal layers segmentation; medical image processing; RPE breakpoints; optic disc region; succession; vision defects; diseases; ILM layer; horizontal/flat cup diameter; excessive intraocular pressure; eye; medical disorders; optic cup-to-disc ratio; cup-to-disc region; optical coherence tomography scans; RPE segmentation; disc calculation; eye disease; different quality images; biomedical optical imaging
• ISSN: 1751-9659; 1751-9667
• DOI: 10.1049/iet-ipr.2018.5396

Glaucoma is a blindness causing eye disease if not treated in time and caused by the increase in the cup-to-disc region (CDR). A novel method for extraction of the inner limiting membrane (ILM) and retinal pigment epithelium (RPE) layers from optical coherence tomography scans is proposed. A new colour channels mean based quality assessment step is applied to segment out ILM layer for different quality images. During RPE segmentation, a new ‘centroid based thresholding’ method is proposed to remove extended ILM regions. The method uses both the ILM layer and RPE breakpoints for a cup and disc calculation, respectively. A novel criterion for horizontal/flat cup diameter based on the average RPE break points is proposed. Based on calculated CDRs, the system classifies the subject as normal or glaucomatous. The average sensitivity, accuracy, and specificity of the proposed system are 87, 79 and 72%, respectively, on the Armed Forces Institute of Ophthalmology dataset when correlated with clinical annotations and CDR computer generated values. The proposed system has shown the higher correlated result of 92.59% sensitivity with the senior most ophthalmologists. It promotes the e-health field at the retinal level and employed as the decision support system by the young doctors.