Novel Structure–Function Models for Estimating Retinal Ganglion Cell Count Using Pattern Electroretinography in Glaucoma Suspects

Novel Structure–Function Models for Estimating Retinal Ganglion Cell Count Using Pattern Electroretinography in Glaucoma Suspects

<b>Background/Objectives</b>: The early detection of retinal ganglion cell (RGC) dysfunction is critical for timely intervention in glaucoma suspects (GSs). The combined structure–function index (CSFI), which uses visual field and optical coherence tomography (OCT) data to estimate RGC c...

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Bibliographic Details
Main Authors: Andrew Tirsi, Isabella Tello, Timothy Foster, Rushil Kumbhani, Nicholas Leung, Samuel Potash, Derek Orshan, Celso Tello
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Diagnostics
Subjects:
retinal ganglion cells
pattern electroretinogram
glaucoma suspects
optical coherence tomography
Online Access:https://www.mdpi.com/2075-4418/15/14/1756
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Summary:<b>Background/Objectives</b>: The early detection of retinal ganglion cell (RGC) dysfunction is critical for timely intervention in glaucoma suspects (GSs). The combined structure–function index (CSFI), which uses visual field and optical coherence tomography (OCT) data to estimate RGC counts, may be of limited utility in GSs. This study evaluates whether steady-state pattern electroretinogram (ssPERG)-derived estimates better predict early structural changes in GSs. <b>Methods</b>: Fifty eyes from 25 glaucoma suspects underwent ssPERG and spectral-domain OCT. Estimated RGC counts (eRGCC) were calculated using three parameters: ssPERG-Magnitude (eRGCC<sub>Mag</sub>), ssPERG-MagnitudeD (eRGCC<sub>MagD</sub>), and CSFI (eRGCC<sub>CSFI</sub>). Linear regression and multivariable models were used to assess each model’s ability to predict the average retinal nerve fiber layer thickness (AvRNFLT), average ganglion cell layer–inner plexiform layer thickness (AvGCL-IPLT), and rim area. <b>Results</b>: eRGCC<sub>Mag</sub> and eRGCC<sub>MagD</sub> were significantly correlated with eRGCC<sub>CSFI</sub>. Both PERG-derived models outperformed eRGCC<sub>CSFI</sub> in predicting AvRNFLT and AvGCL-IPLT, with eRGCC<sub>MagD</sub> showing the strongest association with AvGCL-IPLT. Conversely, the rim area was best predicted by eRGCC<sub>Mag</sub> and eRGCC<sub>CSFI</sub>. These findings support a linear relationship between ssPERG parameters and early RGC structural changes, while the logarithmic nature of visual field loss may limit eRGCC<sub>CSFI</sub>’s predictive accuracy in GSs. <b>Conclusions</b>: ssPERG-derived estimates, particularly eRGCC<sub>MagD</sub>, better predict early structural changes in GSs than eRGCC<sub>CSFI</sub>. eRGCC<sub>MagD</sub>’s superior performance in predicting GCL-IPLT highlights its potential utility as an early biomarker of glaucomatous damage. ssPERG-based models offer a simpler and more sensitive tool for early glaucoma risk stratification, and may provide a clinical benchmark for tracking recoverable RGC dysfunction and treatment response.
ISSN:2075-4418

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