Predicting Human Nocturnal Nonvisual Responses to Monochromatic and Polychromatic Light With a Melanopsin Photosensitivity Function

Revell, Victoria L.; Barrett, Daniel C G; Schlangen, Luc J. M.; Skene, Debra J.

doi:10.3109/07420528.2010.516048

Cited by 52 publications

(55 citation statements)

References 35 publications

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“…Suppression of melatonin by exposure to evening light may be an underlying mechanism by which light acutely increases alertness, as seen in the present study and in previous reports (14)(15)(16)(17)(18)(19). Other studies, however, have not found a relationship between alertness and melatonin levels during light exposure (20,21) or have shown changes in alertness induced by light exposure during the day, when melatonin levels are at low or undetectable levels (22)(23)(24).…”

Section: Discussionsupporting

confidence: 79%

Evening use of light-emitting eReaders negatively affects sleep, circadian timing, and next-morning alertness

Chang

Aeschbach

Duffy

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

913

698

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In the past 50 y, there has been a decline in average sleep duration and quality, with adverse consequences on general health. A representative survey of 1,508 American adults recently revealed that 90% of Americans used some type of electronics at least a few nights per week within 1 h before bedtime. Mounting evidence from countries around the world shows the negative impact of such technology use on sleep. This negative impact on sleep may be due to the short-wavelength-enriched light emitted by these electronic devices, given that artificial-light exposure has been shown experimentally to produce alerting effects, suppress melatonin, and phase-shift the biological clock. A few reports have shown that these devices suppress melatonin levels, but little is known about the effects on circadian phase or the following sleep episode, exposing a substantial gap in our knowledge of how this increasingly popular technology affects sleep. Here we compare the biological effects of reading an electronic book on a light-emitting device (LE-eBook) with reading a printed book in the hours before bedtime. Participants reading an LE-eBook took longer to fall asleep and had reduced evening sleepiness, reduced melatonin secretion, later timing of their circadian clock, and reduced nextmorning alertness than when reading a printed book. These results demonstrate that evening exposure to an LE-eBook phase-delays the circadian clock, acutely suppresses melatonin, and has important implications for understanding the impact of such technologies on sleep, performance, health, and safety.sleep | chronobiology | phase-shifting | digital media | electronics T he use of electronic devices for reading, communication, and entertainment has greatly increased in recent years. Greater portability, convenience, and ease of access to reading materials in electronic form add to the popularity of these devices. The use of light-emitting devices immediately before bedtime is a concern because light is the most potent environmental signal that impacts the human circadian clock and may therefore play a role in perpetuating sleep deficiency (1). The circadian-timing system synchronizes numerous internal physiological and biochemical processes, including the daily rhythm of sleep propensity (2), to external environmental time cues. For optimal sleep duration and quality, the timing of the sleep episode must be appropriately aligned with the timing of the circadian clock. In humans, exposure to light in the evening and early part of the night, even at low intensity, suppresses the release of the sleep-facilitating hormone melatonin (3-5) and shifts the circadian clock to a later time (3, 6), both of which make it more difficult to fall asleep at night. Light exposure in the biological evening/night also acutely increases alertness (7, 8), but not much is known about its impact on alertness the following day. Here we present results from a randomized study comparing the effects of reading before bedtime using a light-emitting eReader (LE-eBook) with re...

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Section: Discussionsupporting

confidence: 79%

Evening use of light-emitting eReaders negatively affects sleep, circadian timing, and next-morning alertness

Chang

Aeschbach

Duffy

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

913

698

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“…Thus, a b/y pathway originates in the small bistratified RGCs and associated interneurons that combine excitation from S-cones and inhibition from (L + M)-cones [39]. Therefore, the responses of ipRGCs activated by S-cones might be reduced by inhibition from (L + M)-cones on simultaneous exposure to blue and green light, and NIF functions might show subadditivity to some types of polychromatic light [32–34] and two simultaneous exposures to monochromatic light [29], as in the present study.…”

Section: Discussionmentioning

confidence: 99%

“…This effect is called the subadditive response to light [29]. Figueiro et al [32, 33] and Revell et al [34] also identified the subadditive effects of monochromatic and polychromatic light on melatonin suppression, suggesting that cones affected the ipRGC response. However, it remains unclear whether the subadditive response affects pupillary constriction.…”

Section: Introductionmentioning

confidence: 99%

Effect of simultaneous exposure to extremely short pulses of blue and green light on human pupillary constriction

Lee

Ishibashi

Shimomura

et al. 2016

J Physiol Anthropol

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“…It should be noted, however, that a more recent study of melatonin suppression using monochromatic lights with matched photon density found a peak at 480 nm (Najjar et al, 2014), suggesting that melanopsin makes the dominant contribution. Nonetheless, two studies investigating melatonin suppression by exposure to different polychromatic light sources have provided evidence for sub-additive responses that could be indicative of cone-opponent inputs (Figueiro et al, 2004; Revell et al, 2010), although a follow up study by the authors of one of those papers failed to find an opponent effect of combining short and long wavelength monochromatic stimuli (Papamichael et al, 2012). One model of the human circadian system explicitly includes an S-opponent input (Rea et al, 2010) but the evidence supporting such a role is far from conclusive.…”

Section: Chromatic Circadian Photosensitivity In Mammalsmentioning

confidence: 99%

Chromatic clocks: Color opponency in non-image-forming visual function

Spitschan

Lucas

Brown

2017

Neuroscience & Biobehavioral Reviews

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During dusk and dawn, the ambient illumination undergoes drastic changes in irradiance (or intensity) and spectrum (or color). While the former is a well-studied factor in synchronizing behavior and physiology to the earth’s 24-h rotation, color sensitivity in the regulation of circadian rhythms has not been systematically studied. Drawing on the concept of color opponency, a well-known property of image-forming vision in many vertebrates (including humans), we consider how the spectral shifts during twilight are encoded by a color-opponent sensory system for non-image-forming (NIF) visual functions, including phase shifting and melatonin suppression. We review electrophysiological evidence for color sensitivity in the pineal/parietal organs of fish, amphibians and reptiles, color coding in neurons in the circadian pacemaker in mice as well as sporadic evidence for color sensitivity in NIF visual functions in birds and mammals. Together, these studies suggest that color opponency may be an important modulator of light-driven physiological and behavioral responses.

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Predicting Human Nocturnal Nonvisual Responses to Monochromatic and Polychromatic Light With a Melanopsin Photosensitivity Function

Cited by 52 publications

References 35 publications

Evening use of light-emitting eReaders negatively affects sleep, circadian timing, and next-morning alertness

Evening use of light-emitting eReaders negatively affects sleep, circadian timing, and next-morning alertness

Effect of simultaneous exposure to extremely short pulses of blue and green light on human pupillary constriction

Chromatic clocks: Color opponency in non-image-forming visual function

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