Optic Disc Margin Anatomic Features in Myopic Eyes with Glaucoma with Spectral-Domain OCT.
Sawada Yu, Araie Makoto, Shibata Hitomi, Ishikawa Makoto, Iwata Toyoto, Yoshitomi Takeshi
AI Summary
SD-OCT revealed myopic glaucoma eyes have characteristic optic disc features, with wider γ zone PPA linked to worse visual field defects, suggesting increased glaucoma susceptibility.
Abstract
Purpose
To investigate optic disc margin anatomic features in myopic eyes with open-angle glaucoma (OAG) using spectral-domain (SD) OCT.
Design
Cross-sectional study.
Participants
Two hundred four eyes of 102 participants with OAG and 106 eyes of 53 participants without glaucoma with axial length of 24 mm or more.
Methods
Radial SD OCT B-scans centered on the optic discs were acquired in each eye, and the SD OCT data were colocalized with the optic disc stereophotographs. Optic disc margin anatomic features were evaluated as (1) SD OCT structure coinciding with the disc margin identified in the stereophotograph, (2) border tissue configuration, and (3) presence of Bruch's membrane overhang, and their frequency was computed in each clock-hour position. Further, paired eyes of myopic participants with OAG were divided into eyes with better or worse visual field defect (VFD), according to the mean deviation of the Humphrey visual field test, and associated factors were compared.
Main outcome measures
Spectral-domain OCT structures coinciding with the visible optic disc margin in stereophotographs.
Results
In myopic eyes with OAG, mean axial length was 25.96±1.07 mm and mean deviation was -8.87±7.78 dB. In approximately 90% of the participants, anterior scleral opening (ASO) coincided with the temporal disc margin and Bruch's membrane opening (BMO) with the nasal disc margin. Border tissue configuration was externally oblique in the temporal region and internally oblique in the nasal region of the optic disc. Bruch's membrane overhang was observed in a relatively small percentage of eyes. The same pattern of disc margin anatomic features was observed in the myopic eyes without glaucoma. The myopic optic disc was shaped by the temporal shifting of the BMO from the ASO, and the extent of shifting was expressed as the width of γ zone parapapillary atrophy (PPA). The greater γ zone PPA width was associated significantly with the worse VFD between paired eyes.
Conclusions
The myopic eyes with OAG exhibited characteristic optic disc margin anatomic features that was considered to be derived from myopic deformation of the eye. The greater γ zone PPA width may increase susceptibility to the glaucomatous stress.
MeSH Terms
Shields Classification
Key Concepts5
In approximately 90% of participants with myopic eyes with open-angle glaucoma, the anterior scleral opening (ASO) coincided with the temporal disc margin and the Bruch's membrane opening (BMO) coincided with the nasal disc margin.
The border tissue configuration in myopic eyes with open-angle glaucoma was externally oblique in the temporal region and internally oblique in the nasal region of the optic disc.
The myopic optic disc was shaped by the temporal shifting of the Bruch's membrane opening (BMO) from the anterior scleral opening (ASO), and the extent of shifting was expressed as the width of γ zone parapapillary atrophy (PPA).
A greater γ zone parapapillary atrophy (PPA) width was significantly associated with a worse visual field defect (VFD) between paired eyes of myopic participants with open-angle glaucoma.
In myopic eyes with open-angle glaucoma (OAG), the mean axial length was 25.96 ± 1.07 mm and the mean deviation was -8.87 ± 7.78 dB.
Related Articles5
Evaluating glaucoma in myopic eyes: Challenges and opportunities.
ReviewDiagnostic accuracy of optic disc microvasculature dropout for detecting glaucoma in eyes with high myopia.
Cross-Sectional StudyLamina Cribrosa Steepness Index to Measure the Morphology of the Lamina Cribrosa in Myopic Eyes With Optic Disc Distortion.
Observational StudyUsing Multi-Layer Perceptron Driven Diagnosis to Compare Biomarkers for Primary Open Angle Glaucoma.
Observational StudyOptic Disc Microvasculature Reduction and Visual Field Progression in Primary Open-Angle Glaucoma.
Case SeriesIs this article assigned to the wrong chapter(s)? Let us know.