Evaluation of the safety of conventional lighting replacement by artificial daylight

Evaluation of the safety of conventional lighting replacement by artificial daylight

Short morning exposure to high illuminance visible electromagnetic radiations termed as artificial daylight is beneficial for the mental health of people living in geographical areas with important seasonal changes in daylight illuminance. However, the commercial success of high illuminance light so...

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Veröffentlicht in:The journal of microscopy & ultrastructure 2017-10, Vol.5 (4), p.206-215
Hauptverfasser: Seke Etet, Paul F., Farahna, Mohammed, Khayr, Maher A.M., Omar, Khalid M., Deniz, Ömür G., Mustafa, Hesham N., Alatta, Nadia O., Alhayani, Abdulmonem, Kaplan, Süleyman, Vecchio, Lorella
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Sprache:eng
Schlagworte:
Analysis
Behavior
Bright visible light
Electromagnetic radiation
Electromagnetism
Entorhinal cortex
Hippocampus
Mental health
Mood disorder
Mouse
Original
Radiation (Physics)
Safety and security measures
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container_end_page 215
container_issue 4
container_start_page 206
container_title The journal of microscopy & ultrastructure
container_volume 5
creator Seke Etet, Paul F.
Farahna, Mohammed
Khayr, Maher A.M.
Omar, Khalid M.
Deniz, Ömür G.
Mustafa, Hesham N.
Alatta, Nadia O.
Alhayani, Abdulmonem
Kaplan, Süleyman
Vecchio, Lorella
description Short morning exposure to high illuminance visible electromagnetic radiations termed as artificial daylight is beneficial for the mental health of people living in geographical areas with important seasonal changes in daylight illuminance. However, the commercial success of high illuminance light sources has raised the question of the safety of long hour exposure. We have investigated the effect of the replacement of natural daylight by artificial daylight in Swiss mice raised under natural lighting conditions. Mice were monitored for neurotoxicity and general health changes. They were submitted to a battery of conventional tests for mood, motor and cognitive functions’ assessment on exposure day (ED) 14 and ED20. Following sacrifice on ED21 due to marked signs of neurotoxicity, the expression of markers of inflammation and apoptosis was assessed in the entorhinal cortex and neurons were estimated in the hippocampal formation. Signs of severe cognitive and motor impairments, mood disorders, and hepatotoxicity were observed in animals exposed to artificial daylight on ED20, unlike on ED14 and unlike groups exposed to natural daylight or conventional lighting. Activated microglia and astrocytes were observed in the entorhinal cortex, as well as dead and dying neurons. Neuronal counts revealed massive neuronal loss in the hippocampal formation. These results suggest that long hour exposure to high illuminance visible electromagnetic radiations induced severe alterations in brain function and general health in mice partly mediated by damages to the neocortex-entorhinal cortex-hippocampus axis. These findings raise caution over long hour use of high illuminance artificial light.
doi_str_mv 10.1016/j.jmau.2017.05.005
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However, the commercial success of high illuminance light sources has raised the question of the safety of long hour exposure. We have investigated the effect of the replacement of natural daylight by artificial daylight in Swiss mice raised under natural lighting conditions. Mice were monitored for neurotoxicity and general health changes. They were submitted to a battery of conventional tests for mood, motor and cognitive functions’ assessment on exposure day (ED) 14 and ED20. Following sacrifice on ED21 due to marked signs of neurotoxicity, the expression of markers of inflammation and apoptosis was assessed in the entorhinal cortex and neurons were estimated in the hippocampal formation. Signs of severe cognitive and motor impairments, mood disorders, and hepatotoxicity were observed in animals exposed to artificial daylight on ED20, unlike on ED14 and unlike groups exposed to natural daylight or conventional lighting. Activated microglia and astrocytes were observed in the entorhinal cortex, as well as dead and dying neurons. Neuronal counts revealed massive neuronal loss in the hippocampal formation. These results suggest that long hour exposure to high illuminance visible electromagnetic radiations induced severe alterations in brain function and general health in mice partly mediated by damages to the neocortex-entorhinal cortex-hippocampus axis. 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subjects Analysis
Behavior
Bright visible light
Electromagnetic radiation
Electromagnetism
Entorhinal cortex
Hippocampus
Mental health
Mood disorder
Mouse
Original
Radiation (Physics)
Safety and security measures
title Evaluation of the safety of conventional lighting replacement by artificial daylight
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