Visual Field Prognosis From Macula and Circumpapillary Spectral Domain Optical Coherence Tomography
Davide Scandella, Mathias Gallardo, Serife S. Kucur, Raphael Sznitman, Jan Darius Unterlauft

TL;DR
This study uses deep learning on OCT images to predict visual field loss in glaucoma patients, aiming to improve diagnosis and care.
Contribution
A deep learning model combining macular and optic-nerve OCT data improves prediction of glaucoma-related visual field loss.
Findings
Combining macular and peri-papillary OCT scans achieves an R2 score of 0.48 for MD prediction.
Central cluster MD predictions reach an R2 of 0.56, showing strong performance in key visual areas.
RNFL, GCL + IPL, and RT layers individually show R2 scores of 0.37, 0.33, and 0.31 for MD prediction.
Abstract
To explore the structural-functional loss relationship from optic-nerve-head– and macula-centred spectral-domain (SD) Optical Coherence Tomography (OCT) images in the full spectrum of glaucoma patients using deep-learning methods. A cohort comprising 5238 unique eyes classified as suspects or diagnosed with glaucoma was considered. All patients underwent ophthalmologic examination consisting of standard automated perimetry (SAP), macular OCT, and peri-papillary OCT on the same day. Deep learning models were trained to estimate G-pattern visual field (VF) mean deviation (MD) and cluster MD using retinal thickness maps from seven layers: retinal nerve fiber layer (RNFL), ganglion cell layer and inner plexiform layer (GCL + IPL), inner nuclear layer and outer plexiform layer (INL + OPL), outer nuclear layer (ONL), photoreceptors and retinal pigmented epithelium (PR + RPE),…
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Taxonomy
TopicsGlaucoma and retinal disorders · Retinal Imaging and Analysis · Retinal Diseases and Treatments
