Prospective, Longitudinal Study: Daily Self-Imaging with Home OCT for Neovascular Age-Related Macular Degeneration

Abstract

To validate the performance of the Notal Vision Home OCT (NVHO) system for daily self-imaging at home and characterize the retinal fluid dynamics of patients with neovascular age-related macular degeneration (nAMD). Prospective observational study. Fifteen participants who had at least 1 eye with nAMD and underwent anti-VEGF treatments. The participants performed daily self-imaging at home using NVHO for 3 months. The scans were uploaded to the cloud, analyzed using the Notal OCT Analyzer (NOA), evaluated by human experts for fluid presence, and compared with in-office OCT scans. Weekly self-scan rate, image quality, scan duration, agreement between NOA and human expert grading for fluid presence, agreement between NVHO and in-office OCT scans for fluid presence, central subfield thickness (CST) and retinal fluid volume, and the characteristics of fluid dynamics during the study and in response to treatments. The mean weekly scan frequency was 5.7 ± 0.9 scans per week, and 93% of the scans were eligible for NOA analyses. The median scan time was 42 seconds. The NOA and human experts agreed on the fluid status in 83% of the scans, and discrepancies were limited to trace amounts of fluid. The NVHO scans analyzed using NOA and the in-office OCT scans graded by human experts agreed on the fluid status in 96% of the cases. The CST and retinal fluid volume measurements using the home OCT and in-office OCT scans demonstrated a Pearson correlation coefficient of r= 0.90 and r= 0.92, respectively. Novel parameters, such as retinal fluid volume and area under the curve (AUC) of retinal fluid volume, demonstrated wide variations in fluid exudation and fluid load over time among the patients. Parameters such as the rate of reduction in fluid volume in the first week after treatment and AUC between treatments captured the speed and duration of the response to anti-VEGF agents. Daily home OCT imaging is feasible among patients with nAMD. It demonstrated good agreement with human expert grading for retinal fluid identification and excellent agreement with the in-clinic OCT scans. Home OCT allows for detailed graphical and mathematical analyses of retinal fluid volume trajectories, including novel parameters to inform clinical decision making.