Impact of blue-depleted white light on pupil dynamics, melatonin suppression and subjective alertness following real-world light exposure

摘要

BackgroundThe non-image forming system, which conveys light information to circadian and sleep centers in the brain, is optimized to respond to short wavelengths of light (blue). Exposure to white light with reduced blue content can cause lower than expected circadian and sleep responses. These findings, however, come from controlled laboratory conditions that may not be entirely accurate when attempting to apply them to most real-world settings. It was our intention to examine whether, under ecologically-valid circumstances, a blue-depleted white light had a diminished impact on sleep and circadian functions as compared to an equiluminant white light. MethodsIn Study 1, seven healthy, young individuals were exposed to a series of one-minute light pulses (32, 100 or 140?lx) produced either by a standard white light emitting diode (LED) or an LED light with reduced blue content. Pupil responses were measured with an infrared pupillometer. In Study 2, ten healthy, young individuals participated in two overnight evaluations. On one of the nights, participants received three hours of 150?lx of a standard white LED starting at habitual bedtime. The protocol on the alternate night was identical except an LED with reduced blue content was used (both lights were identical to those used in Study 1). Saliva samples were collected every 20–30?min for determination of melatonin concentrations and subjective sleepiness was assessed hourly with the Stanford Sleepiness Scale. In both studies, pre-light exposure baseline was real-world ambulatory light exposure. ResultsStudy 1. The post-illumination pupil response (PIPR) to 32?lx was increased in response to the standard as compared to blue-depleted LED ( p ConclusionsWhile the absence or reduction of blue light has the physiologic capacity to reduce the impact of light on non-image forming photoreceptive functions, under a pre-exposure lighting environment closer to that which is found in the real world, no such differences are observed except for pupil responses to moderately dim light. Trial registrationClinicalTrials.gov # NCT02936674 , NCT02636140 .