Optical Coherence Tomography–Derived Excavation Index and Structure–Function Damage in Glaucoma
Mehmet Canleblebici, Murat Erdağ, Ali DalPrécis:
The Excavation Index is a novel OCT-based parameter quantifying optic nerve head excavation, showing independent associations with RNFL thickness and lamina cribrosa curvature index, and demonstrating sensitivity to early structural changes in glaucoma.
Purpose:
Glaucomatous optic neuropathy is characterized by progressive deformation of the lamina cribrosa (LC) and scleral canal, leading to optic disc (OD) excavation and visual field (VF)loss. This study proposes the Excavation Index (EI), a novel optical coherence tomography-based parameter designed to quantify the OD excavation.
Methods:
A total of 107 eyes (23 controls, 84 with primary open-angle glaucoma of varying severity) underwent OCT and VF testing. The EI was defined as the ratio of excavation width (Ew) to peripheral LC depth (PLCD), multiplied by 100 (EI=Ew/PLCD×100). Correlations with LC curvature index (LCCI), retinal nerve fiber layer (RNFL)thickness, and visual field indices were analyzed using univariate and multivariate models.
Results:
EI values increased progressively from control to advanced glaucoma (14.72±2.79 to 31.00±10.21;
Conclusions:
The EI provides a reliable measurement of glaucomatous OD excavation. Its structural-functional correlations suggest potential utility as a complementary biomarker for disease staging and monitoring of OD excavation in glaucoma. EI may represent a promising parameter for the detection of early-stage glaucoma, suggesting sensitivity to glaucomatous changes; however, further studies are needed to confirm its diagnostic role.