A novel computational model for human macular pigment optical density and its relationship to foveal structure
Misson, Gary Anderson, Stephen J Armstrong, Richard A Heitmar, Rebekka
Misson, Gary
Anderson, Stephen J
Armstrong, Richard A
Heitmar, Rebekka
Affiliation
Aston University, Birmingham; South Warwickshire University NHS Foundation Trust; University of Huddersfield
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Publication date
2025-10-29
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Abstract
Macular pigment optical density (MPOD) models enhance understanding of macular xanthophyll distribution, particularly relevant to age-related macular degeneration. This study investigates an existing model and introduces a novel, more accurate and biologically relevant approach. MPOD spatial profiles of 48 eyes were obtained using dual-wavelength autofluorescence imaging, with structural data from OCT and OCT-angiography. MPOD data were analyzed using (a) an existing sum of exponential and Gaussian model (MEG) and (b) a novel sum of three Gaussians model (M3G). Extracted parameters generated individualized MPOD models, from which gradients and volumes were derived. M3G-derived variables were analyzed against OCT/OCTA data using factor analysis and multiple regression. M3G demonstrated a superior fit to MPOD data (SSE = 2.60 × 10- 3) compared to MEG, (SSE = 35.7 × 10- 3) enabling automated fitting consistent over small and large datasets. M3G provided meaningful variables, including MPOD gradients, volumes and critical point eccentricities. Correlations included those between dependent variables of critical point eccentricities and central macular pigment volume with foveal avascular zone and foveal pit radii. The excellent data fit of M3G enables automated extraction of physiologically relevant parameters. Its three-component configuration is consistent with the location of macular xanthophylls. M3G is similar to models of foveal structure, suggesting a fundamental relationship.
Citation
Misson GP, Anderson SJ, Armstrong RA, Heitmar R. A novel computational model for human macular pigment optical density and its relationship to foveal structure. Sci Rep. 2025 Oct 29;15(1):37865. doi: 10.1038/s41598-025-21681-4.
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Article