Abstract
Standard Automated Perimetry (SAP) is the mainstay for monitoring glaucoma progression and has been accepted by the U.S. Food and Drug Administration (FDA) as a trial endpoint, but only under stringent criteria of ≥7 dB loss in five pre-specified test locations. Identifying such locations a priori has remained a major barrier for neuroprotection trials. We developed an attention-based graph neural network (GNN) to predict the visual field points most likely to deteriorate (High-5) using baseline SAP data. The model was trained in the Bascom Palmer Ophthalmic Registry (BPOR; 6,996 eyes, 5,405 patients, 40,914 tests) and externally validated in the Duke Glaucoma Registry (DGR; 5,211 eyes, 3,933 patients, 31,225 tests) and the University of Washington Humphrey Visual Field dataset (UWHVF; 2,030 eyes, 1,195 patients, 10,310 tests). In internal validation, the mean slope at High-5 points among progressors was -2.16±0.80 dB/year, compared to -0.55±0.44 dB/year for Low-5 and -1.02±0.40 dB/year for mean deviation (MD). Similar results were observed in DGR (-2.05 vs -0.45 vs -0.93 dB/year) and UWHVF (-2.32 vs -0.66 vs -1.14 dB/year). High-5 showed superior discrimination of progressors from non-progressors with areas under the ROC curve of 0.883, 0.898, and 0.937 across the three cohorts, consistently outperforming MD (0.871-0.911) and Low-5 (0.668-0.731). Nearly all progressing eyes exhibited a repeatable ≥ 7 dB loss in average High-5 sensitivity during follow-up, compared to fewer than 30% when using MD. In sample size projections, High-5 increased the absolute effect size and lowered the σ (2) /Δ (2) ratio, translating into an estimated 42% reduction in required trial size compared to MD. In conclusion, this GNN-based framework enables data-driven identification of high-risk SAP locations, aligning with regulatory definitions of progression while substantially improving trial efficiency and sensitivity to detect meaningful visual field change. FUNDING: This work was supported in part by NIH R01 (EY036593) and by the Glaucoma Research Foundation (grant Endpoints2025MedeF).