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Proc Natl Acad Sci U S A. 2021 Jun 1;118(22). doi: 10.1073/pnas.2024500118.
2
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Sleep Health. 2021 Aug;7(4):478-484. doi: 10.1016/j.sleh.2021.03.005. Epub 2021 Apr 16.
3
Spectral sensitivity of circadian phase resetting, melatonin suppression and acute alerting effects of intermittent light exposure.间歇性光照暴露对昼夜节律相位重置、褪黑素抑制和急性警觉作用的光谱灵敏度。
Biochem Pharmacol. 2021 Sep;191:114504. doi: 10.1016/j.bcp.2021.114504. Epub 2021 Mar 10.
4
Daytime Exposure to Short Wavelength-Enriched Light Improves Cognitive Performance in Sleep-Restricted College-Aged Adults.白天暴露于富含短波的光线下可改善睡眠受限的大学生的认知表现。
Front Neurol. 2021 Feb 22;12:624217. doi: 10.3389/fneur.2021.624217. eCollection 2021.
5
Changing color and intensity of LED lighting across the day impacts on circadian melatonin rhythms and sleep in healthy men.昼夜交替改变 LED 照明的颜色和强度会影响健康男性的褪黑素节律和睡眠。
J Pineal Res. 2021 Apr;70(3):e12714. doi: 10.1111/jpi.12714. Epub 2021 Jan 18.
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Can Special Light Glasses Reduce Sleepiness and Improve Sleep of Nightshift Workers? A Placebo-Controlled Explorative Field Study.特殊光眼镜能减轻夜班工作者的困倦并改善其睡眠吗?一项安慰剂对照的探索性现场研究。
Clocks Sleep. 2020 May 29;2(2):225-245. doi: 10.3390/clockssleep2020018. eCollection 2020 Jun.
7
Exposure to Short Wavelength-Enriched White Light and Exercise Improves Alertness and Performance in Operational NASA Flight Controllers Working Overnight Shifts.暴露在富含短波长的白光下和运动可提高值夜班的 NASA 飞行控制员的警觉性和表现。
J Occup Environ Med. 2021 Feb 1;63(2):111-118. doi: 10.1097/JOM.0000000000002054.
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Blue-blocking glasses as additive treatment for mania: Effects on actigraphy-derived sleep parameters.蓝光阻断眼镜作为躁狂症的附加治疗:对活动记录仪衍生的睡眠参数的影响。
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Hunger hormone and sleep responses to the built-in blue-light filter on an electronic device: a pilot study.饥饿素与电子设备内置蓝光滤镜对睡眠的影响:一项初步研究。
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No evidence for an S cone contribution to acute neuroendocrine and alerting responses to light.没有证据表明 S 锥细胞对光的急性神经内分泌和警觉反应有贡献。
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多种光照条件下市售蓝光阻断剂的分光光度特性。

Spectrophotometric properties of commercially available blue blockers across multiple lighting conditions.

机构信息

Sleep and Health Research Program, Department of Psychiatry, University of Arizona College of Medicine - Tucson, Tucson, Arizona, USA.

Light Algorithms Laboratory, Department of Psychology, University of Arizona College of Science, Tucson, Arizona, USA.

出版信息

Chronobiol Int. 2022 May;39(5):653-664. doi: 10.1080/07420528.2021.2021229. Epub 2022 Jan 4.

DOI:10.1080/07420528.2021.2021229
PMID:34983271
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9106867/
Abstract

Lenses that filter short-wavelength ("blue") light are commercially marketed to improve sleep and circadian health. Despite their widespread use, minimal data are available regarding their comparative efficacy in curtailing blue light exposure while maintaining visibility. Fifty commercial lenses were evaluated using five light sources: a blue LED array, a computer tablet display, an incandescent lamp, a fluorescent overhead luminaire, and sunlight. Absolute irradiance was measured at baseline and for each lens across the visual spectrum (380-780 nm), which allowed calculation of percent transmission. Transmission specificity was also calculated to determine whether light transmission was predominantly circadian-proficient (455-560 nm) or non-proficient (380-454 nm and 561-780 nm). Lenses were grouped by tint and metrics were compared between groups. Red-tinted lenses exhibited the lowest transmission of circadian-proficient light, while reflective blue lenses had the highest transmission. Orange-tinted lenses transmitted similar circadian-proficient light as red-tinted lenses but transmitted more non-circadian-proficient light, resulting in higher transmission specificity. Orange-tinted lenses had the highest transmission specificity while limiting biologically active light exposure in ordinary lighting conditions. Glasses incorporating these lenses currently have the greatest potential to support circadian sleep-wake rhythms.

摘要

市面上有销售专门过滤短波长(“蓝光”)光线的镜片,用于改善睡眠和昼夜节律健康。尽管它们的应用广泛,但关于它们在减少蓝光暴露同时保持可视性方面的比较效果,数据很少。使用五种光源(蓝色 LED 阵列、电脑平板电脑显示屏、白炽灯、荧光顶灯和阳光)评估了 50 种商业镜片。在整个可见光谱(380-780nm)范围内测量了基线和每种镜片的绝对辐照度,从而可以计算出透光率。还计算了透光率的特异性,以确定光传输是否主要是昼夜节律(455-560nm)有效(380-454nm 和 561-780nm)。镜片按色调分组,并比较了组间的指标。红色镜片对昼夜节律有效光的透光率最低,而反射蓝色镜片的透光率最高。橙色镜片的昼夜节律有效光传输与红色镜片相似,但传输更多的非昼夜节律有效光,因此透光率特异性更高。橙色镜片的透光率特异性最高,同时在普通照明条件下限制了生物活性光的暴露。目前,含有这些镜片的眼镜最有可能支持昼夜节律的睡眠-觉醒节律。