ORCID
- Hetal Buckhurst: 0000-0002-8203-7979
Abstract
PurposeTopography of the in vivo anterior segment is of relevance in understanding its role in myopia and in the development of ocular surgical procedures. Using 3D magnetic resonance (MR) images of the human eye, regional variations in surface area (SA) and bulbosity of four anterior segment regions were investigated in association with refractive status (Rx), axial length (AL) and total ocular volume (OV).MethodsT2-weighted ocular MR images from 43 adults aged 18–40 years (mean ± SD; 28.65 ± 6.20) comprising 20 non-myopes (≥−0.50) 0.57 ± 1.38 and 23 myopes (<−0.50) −6.37 ± 4.23 MSE (D) were collected. 2D representations of each quadrant (superior-temporal [ST], superior-nasal [SN], inferior-temporal [IT] and inferior-nasal [IN]) of the anterior section (3.5–9 mm) were fitted with second-order polynomials. Polynomials were integrated and rotated about the x-axis to generate SA; dividing the SA by 4 provided relative quadrantial SA. The x2 coefficient provides indices of bulbosity. OV was derived from the 3D MRI scans. Rx and AL were measured using cycloplegic autorefraction and the Zeiss IOLMaster, respectively. One- and two-way repeated-measures ANCOVAs tested differences in SA and bulbosity for Rx, gender, ethnicity and age. Pearson's correlation coefficient tested the relationship between MRI-derived metrics and biometry.ResultsSignificant differences in SA were observed between quadrants (p < 0.001) with differences between ST versus IN, IN versus IT and SN versus IT. An interaction effect (p = 0.01) for Rx suggested smaller temporal (ST and IT) and larger nasal (SN and IN) SA in myopes. AL and myopic Rx were negative correlated (p < 0.05) with SA at IN, SN and IT. OV was significantly associated with SA at ST. Bulbosity showed no regional differences nor an effect of AL or Rx.ConclusionSignificant regional variation in SA exists across the anterior segment that is modulated by Rx and AL. It is unclear whether these structural characteristics are a precursor or consequence of myopia and may warrant investigation when developing biomechanical interventions.
DOI Link
Publication Date
2023-05-01
Publication Title
Ophthalmic and Physiological Optics
Volume
43
Issue
3
ISSN
0275-5408
Acceptance Date
2023-01-05
Deposit Date
2023-03-03
Embargo Period
2023-03-04
Funding
This research received no specific grant from any funding agency in the public, commercial or not-for-profit sectors.
Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.
First Page
368
Last Page
376
Recommended Citation
Buckhurst, H., Gilmartin, B., Cubbidge, R., & Logan, N. (2023) 'Conformation of the anterior segment in human myopia', Ophthalmic and Physiological Optics, 43(3), pp. 368-376. Available at: 10.1111/opo.13095
