Deep Optic Nerve Head Structures Associated With Increasing Axial Length in Healthy Myopic Eyes of Moderate Axial Length.
Saito Hitomi, Kambayashi Mitsuki, Araie Makoto, Murata Hiroshi, Enomoto Nobuko, Kikawa Tsutomu, Sugiyama Kazuhisa, Higashide Tomomi, Miki Atsuya, Iwase Aiko
AI Summary
This study found that longer axial length in healthy myopic eyes is associated with specific optic nerve head structural changes, including misalignment, choroid thinning, and scleral bowing, which is crucial for distinguishing myopia from glaucoma.
Abstract
Purpose
To elucidate which swept-source optical coherence tomography (OCT)-derived optic nerve head (ONH) parameters are associated with longer axial length (AXL) in healthy myopic eyes.
Design
Prospective cross-sectional observational study.
Methods
Two hundred eleven healthy eyes of 140 participants (96 emmetropic-mild myopic [AXL: 22.2-24.5 mm], 83 moderately myopic [24.5-26.0 mm], and 32 highly myopic [26.0-27.4 mm] eyes) were enrolled. Bruch membrane opening (BMO), anterior scleral canal opening (ASCO) area and ovality, minimum rim width, parameters defining misalignment between the BMO and ASCO planes, OCT-defined region of perineural canal retinal epithelium atrophy and externally oblique choroidal border tissue, circumpapillary retinal nerve fiber layer thickness (cpRNFLT), circumpapillary choroidal thickness (cpChT), lamina cribrosa parameters, and peripapillary scleral (PPS) angle were calculated from BMO-centered radial scans reconstructed from 3D raster scans. Multivariate linear mixed models were used to elucidate ONH parameters that are independently associated with AXL.
Results
Longer AXL was associated with a greater misalignment between ASCO and BMO planes, larger region of externally oblique choroidal border tissue, thinner cpChT, larger PPS angle, larger ASCO area, and thicker cpRNFLT (all P < .040 after Bonferroni's correction for number of included explanatory variables).
Conclusions
A greater misalignment between BMO and ASCO planes, thinner choroid, a more posteriorly bowed PPS, an enlargement of ASCO, and thicker cpRNFLT were each associated with longer AXL. An enhanced understanding of these AXL-associated configurations should provide essential information to improve our ability to detect glaucoma-induced ONH morphology in myopic eyes.
MeSH Terms
Shields Classification
Key Concepts6
In a prospective cross-sectional observational study of 211 healthy eyes from 140 participants (96 emmetropic-mild myopic [axial length (AXL): 22.2-24.5 mm], 83 moderately myopic [24.5-26.0 mm], and 32 highly myopic [26.0-27.4 mm] eyes), longer axial length (AXL) was associated with a greater misalignment between Bruch membrane opening (BMO) and anterior scleral canal opening (ASCO) planes (P < .040 after Bonferroni's correction).
In a prospective cross-sectional observational study of 211 healthy eyes from 140 participants, longer axial length (AXL) was associated with a larger region of externally oblique choroidal border tissue (P < .040 after Bonferroni's correction).
In a prospective cross-sectional observational study of 211 healthy eyes from 140 participants, longer axial length (AXL) was associated with thinner circumpapillary choroidal thickness (cpChT) (P < .040 after Bonferroni's correction).
In a prospective cross-sectional observational study of 211 healthy eyes from 140 participants, longer axial length (AXL) was associated with a larger peripapillary scleral (PPS) angle, indicating a more posteriorly bowed PPS (P < .040 after Bonferroni's correction).
In a prospective cross-sectional observational study of 211 healthy eyes from 140 participants, longer axial length (AXL) was associated with a larger anterior scleral canal opening (ASCO) area (P < .040 after Bonferroni's correction).
In a prospective cross-sectional observational study of 211 healthy eyes from 140 participants, longer axial length (AXL) was associated with thicker circumpapillary retinal nerve fiber layer thickness (cpRNFLT) (P < .040 after Bonferroni's correction).
Related Articles5
Independent Effects of Axial Length and Intraocular Pressure on the Highly Myopic Optic Nerve Head.
Cross-Sectional StudyThe Strain Response to Intraocular Pressure Increase in the Lamina Cribrosa of Control Subjects and Glaucoma Patients.
Observational StudyAdduction induces large optic nerve head deformations in subjects with normal-tension glaucoma.
Cross-Sectional StudyImpact of Elevated Intraocular Pressure on Lamina Cribrosa Oxygenation: A Combined Experimental-Computational Study on Monkeys.
Basic ScienceLongitudinal Change in Retinal Nerve Fiber Layer Thickness and Intraocular Pressure in Young Adults.
Cohort StudyIs this article assigned to the wrong chapter(s)? Let us know.