The Effects of Short-Term Light Adaptation on the Human Post-Illumination Pupil Response

Article

Joyce, Daniel S., Feigl, Beatrix and Zele, Andrew J.. 2016. "The Effects of Short-Term Light Adaptation on the Human Post-Illumination Pupil Response." Investigative Ophthalmology and Visual Science. 57 (13), pp. 5672-5680. https://doi.org/10.1167/iovs.16-19934
Article Title

The Effects of Short-Term Light Adaptation on the Human Post-Illumination Pupil Response

ERA Journal ID16286
Article CategoryArticle
AuthorsJoyce, Daniel S., Feigl, Beatrix and Zele, Andrew J.
Journal TitleInvestigative Ophthalmology and Visual Science
Journal Citation57 (13), pp. 5672-5680
Number of Pages9
YearOct 2016
PublisherAssociation for Research in Vision and Ophthalmology (ARVO)
Place of PublicationUnited States
ISSN0146-0404
1552-5783
Digital Object Identifier (DOI)https://doi.org/10.1167/iovs.16-19934
Web Address (URL)https://iovs.arvojournals.org/article.aspx?articleid=2577330
Abstract

PURPOSE. We determine the effect of short-term light adaptation on the pupil light reflex and the melanopsin mediated post-illumination pupil response (PIPR). Inner and outer retinal photoreceptor contributions to the dark-adapted pupil response were estimated. METHODS. In Experiment A, light adaptation was studied using short wavelength lights ranging from subthreshold to suprathreshold irradiances for melanopsin signaling that were presented before (5-60 seconds) and after (30 seconds) a melanopsin-exciting stimulus pulse. We quantified the pupil constriction and the poststimulus response amplitudes during dark (PIPR) and light (poststimulus pupil response, PSPR) adaptation. In Experiment B, colored prestimulus adapting lights were univariant for melanopsin or rod excitation. RESULTS. Increasing the prestimulus duration and irradiance of adapting lights increased the pupil constriction amplitude when normalized to the dark-adapted baseline but reduced its amplitude when normalized to the light-adapted baseline. Light adaptation at irradiances suprathreshold for melanopsin activation increased the PIPR amplitude, with larger changes at longer adaptation durations, whereas the PSPR amplitude became more attenuated with increasing irradiances, independent of duration. Rod versus melanospin univariant adaptation did not alter the constriction amplitude but increased the PIPR amplitude in the rod condition. Correlations between millimeter pupil constriction and PIPR amplitudes were eliminated when normalized to the baseline diameter. CONCLUSIONS. The findings have implications for standardizing light adaptation paradigms and the choice of pupil metrics in both laboratory and clinical settings. Light and dark adaptation have opposite effects on the pupil metrics, which should be normalized to baseline to minimize significant correlations between constriction and PIPR amplitudes.

Keywordspupil; melanopsin; adaptation
ANZSRC Field of Research 2020520206. Psychophysiology
520203. Cognitive neuroscience
321204. Vision science
Byline AffiliationsQueensland University of Technology
Queensland Eye Institute, Australia
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