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Melanopic irradiance defines the impact of evening display light on sleep latency, melatonin and alertness

Isabel Schöllhorn, Oliver Stefani, Robert J. Lucas, Manuel Spitschan, Helen Slawik, Christian Cajochen

2023Communications Biology61 citationsDOIOpen Access PDF

Abstract

Evening light-emitting visual displays may disrupt sleep, suppress melatonin and increase alertness. Here, we control melanopic irradiance independent of display luminance and colour, in 72 healthy males 4 h before habitual bedtime and expose each of them to one of four luminance levels (i.e., dim light, smartphone, tablet or computer screen illuminance) at a low and a high melanopic irradiance setting. Low melanopic light shortens the time to fall asleep, attenuates evening melatonin suppression, reduces morning melatonin, advances evening melatonin onset and decreases alertness compared to high melanopic light. In addition, we observe dose-dependent increases in sleep latency, reductions in melatonin concentration and delays in melatonin onset as a function of melanopic irradiance-not so for subjective alertness. We identify melanopic irradiance as an appropriate parameter to mitigate the unwanted effects of screen use at night. Our results may help the many people who sit in front of screens in the evening or at night to fall asleep faster, feel sleepier, and have a more stable melatonin phase by spectrally tuning the visual display light without compromising the visual appearance.

Topics & Concepts

AlertnessEveningMelatoninIrradianceSleep (system call)AudiologyPsychologyMedicineComputer scienceNeuroscienceOpticsPhysicsPsychiatryAstronomyOperating systemCircadian rhythm and melatoninImpact of Light on Environment and HealthSleep and Work-Related Fatigue
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