Evaluation of Static and Dynamic Pupillary Functions in Early-Stage Primary Open Angle Glaucoma.

Abstract

The dynamic parameters of the pupil, evaluated with an automated pupillometry device, differ in newly diagnosed early-stage primary open angle glaucoma (POAG) patients compared with healthy individuals, and this may guide us in early diagnosis and follow-up of glaucoma. To quantitatively determine static and dynamic pupillary functions in treatment-naive, newly diagnosed early-stage POAG patients and compare them with healthy controls. Forty eye of forty subjects with early POAG were compared with 71 eye of 71 age- matched and sex-matched healthy controls in terms of static and dynamic pupillary functions in this prospective and cross-sectional study. Static and dynamic pupillary functions were obtained with an automated pupillometry device. Static pupillometry parameters are pupil diameter (mm) in high photopic (100cd/m 2 ), low photopic (10cd/m 2 ), mesopic (1cd/m 2 ), and scotopic (0.1cd/m 2 ) light conditions. Dynamic pupillometry parameters are resting diameter (mm), amplitude (mm), latency (ms), duration (ms), and velocity (mm/s) of pupil contraction and dilation. Measured data were evaluated and compared with t test for independent groups. Duration of pupil contraction was lower, ( P =0.04) latency of pupil dilation time was longer, ( P =0.03) duration of pupil dilation was shorter ( P =0.04) and velocity of pupil dilation was lower ( P =0.02) in the POAG group. There was no significant difference between the 2 groups in terms of static pupillometry characteristics and the resting pupil diameter ( P >0.05 for all values). These results suggest that dynamic pupillary light responses may be affected in early-stage POAG compared with the normal population. Longitudinal studies with larger series are needed to better understand the quantitative changes in dynamic pupillometry functions in early-stage POAG.