Abstract
The late post-illumination pupillary response (PIPR 10-30s ) to blue light is reduced in glaucoma, suggesting that pupillometry can be used in clinical glaucoma evaluation. Since animal studies have indicated that common anti-glaucomatous agents affect the iris muscle, we investigated the short-term effect of the anti-glaucoma drugs on the pupillary light reflex and in particular on the PIPR10-30s. In this randomized, double-masked, crossover trial, pupillometry was performed before and after topical administration of latanoprost, dorzolamide, and timolol in 20 healthy subjects. Stimulus was blue (463 nm) and red light (633 nm) of 2 log (lux). Main outcome was the PIPR10-30s to blue light. Additionally, pupil size, maximal contraction, and the early post-illumination pupillary response (PIPR 0-10s ) to blue and red light were investigated. Pupil response variations between 8 a.m. and 2 p.m. were also assessed. Intraocular pressure (IOP) was measured before and 3.5 h after drug instillation. We found no drug effect on the blue light PIPR10-30s or any other blue light pupil parameters. During the control day, the only significant variation over time was observed for the red light PIPR0-10s (p = 0.02). Pupillary size decreased slightly with timolol (0.1 mm, p = 0.03) and dorzolamide (0.2 mm, p < 0.001), but not with latanoprost. Timolol also reduced the maximal contraction amplitude significantly during red light (p = 0.02). Intraocular pressure was significantly reduced by all three drugs after 3.5 h (p < 0.01), while it remained unchanged during the control day (p = 0.3). Anti-glaucoma medications did not interfere with the blue light elicited PIPR. Dorzolamide reduced pupil size, while timolol reduced both pupil size and maximal contraction to red light, but the effect was minute and not of clinical importance.
Highlights
Chromatic pupillometry is a relatively novel research tool for the evaluation of outer and inner retina function
Outcome In the following, for each outcome, baseline examination refers to pupillary measurements before medication at the start of each examination day, effect of drug over time is the comparison of pupillary response at baseline vs. after medication (30 and 180 min), and comparison between drugs and control is the testing of the results for drugs against control measurements at 30 and 180 min (Tables 1–4)
Our results demonstrate that post-illumination pupillary response (PIPR) to blue light was unaffected by dorzolamide, latanoprost, or timolol (Tables 1 and 2) and no significant difference in hour-to-hour measurements through the control day was observed
Summary
Chromatic pupillometry is a relatively novel research tool for the evaluation of outer and inner retina function. The outer retina photoreceptors (rod and cones) exhibit fast temporal kinetics and cause a brisk pupillary constriction in response to light, while the inner retinal melanopsin containing intrinsic photosensitive retinal ganglion cells (ipRGCs) exhibit slower temporal kinetics and elicit a sustained pupillary constriction to light stimuli, persisting after light cessation [1]. Anti-glaucoma medications and pupillary light reflex pupillary response after light offset is termed post-illumination pupillary response (PIPR) [2]. Three studies, using chromatic pupillometry, have shown decreased pupillary response and in particular reduced PIPR in glaucoma patients, indicating functional impairment of the ipRGCs [3,4,5]. The pupillary light response is affected by various physiological and environmental factors – importantly, topical anti-glaucoma drugs may alter this response
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