Purpose: Present two methods of en face visualization enabled by ultra-widefield optical coherence tomography (UWF-OCT), which provide topographic information of retinopathy of prematurity (ROP) without requiring direct visualization of cross-sectional scans.
Design: Evaluation of Diagnostic Technology SUBJECTS: Infants undergoing ROP screening at OHSU between June 2023 and October 2024, who consented for research imaging.
Methods: An investigational contact-based UWF-OCT captured 800x800 A-scans. Max intensity projections (MIP) were constructed, from the highest intensity pixel in each A-scan's X-Y coordinate plane.Retinal thickness maps (RTMs) were generated by first segmenting the retina with a previously trained U-net, then calculating the retinal thickness at each position in microns, and displaying it with a topographic colormap.
Main outcome measures: Cross sectional and longitudinal qualitative evaluation of the diagnostic utility of MIP and RTM across the spectrum of ROP stage.
Results: MIP highlight areas of high signal attenuation, such as blood vessels and the atypical neurovascular thickening accompanying stage 1 or greater ROP. RTMs reflect thickness information in the retina which highlights complementary aspects of the progression and spectrum of stage. RTM's also reveal subclinical elements of ROP morphology, such as the foveal contour, in some cases "stage 0" ROP, and cystoid macular edema.
Conclusions: This study presents two techniques to visualize pathology in ROP from ultra-widefield optical coherence tomography (UWF-OCT). Together, they enable both high contrast visualization of the vascular features of ROP as well as the associated topographic changes across the spectrum of ROP.
Copyright © 2025. Published by Elsevier Inc.