环境光照的认知功效及其调节因素与作用机理

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汝涛涛¹^,²(

), 李芸³, 钱柳³, 陈庆伟¹^,³, 钟罗金⁴, 李静华⁵, 周国富¹^,²(

)

¹华南师范大学, 国家绿色光电子国际联合研究中心, 广州 51000
²华南师范大学, 华南先进光电子研究院, 广东省光信息材料与技术重点实验室&彩色动态电子纸显示技术研究所, 广州 510006
³华南师范大学心理学院, 光与身心健康实验室, 广州 510631
⁴华南师范大学基础教育与培训研究院, 广州 510631
⁵肇庆华师大光电产业研究院, 智能照明与身心健康研究中心, 肇庆 526000

收稿日期:2018-04-13出版日期:2019-10-15发布日期:2019-08-19
通讯作者:汝涛涛,周国富E-mail:taotao.ru@scnu.edu.cn;guofu.zhou@m.scnu.edu.cn

基金资助:* 广州市哲学社科规划2019年度“羊城青年学人”课题(2019GZQN19);国家重点研发计划项目(2016YFB04 01202);广东省光信息材料与技术重点实验室(2017 B030301007);国家高等学校学科创新引智计划111引智基地项目和周国富云南专家工作站资助(2017IC011)

Acute cognitive effect of ambient light exposure and its moderators and underlying mechanism

RU Taotao¹^,²(

), LI Yun³, QIAN Liu³, CHEN Qingwei¹^,³, ZHONG Luojin⁴, LI Jinghua⁵, ZHOU Guofu¹^,²(

)

¹National Center for International Research on Green Optoelectronics, South China Normal University, Guangzhou 510006, China
²Guangdong Provincial Key Laboratory of Optical Information Materials and Technology & Institute of Electronic Paper Displays, South China Academy of Advanced Optoelectronics, South China Normal University, Guangzhou 510006, China
³Lab of Light and Physio-psychological Health, School of Psychology, South China Normal University, Guangzhou 510631, China
⁴School of Professional Development and Research on Primary and Secondary Education, South China Normal University, Guangzhou 510631, China
⁵Research Center for Intelligent Lighting and Mental Health, International Academy of Optoelectronics at Zhaoqing, Zhaoqing 526000, China

Received:2018-04-13Online:2019-10-15Published:2019-08-19
Contact:RU Taotao,ZHOU Guofu E-mail:taotao.ru@scnu.edu.cn;guofu.zhou@m.scnu.edu.cn

[1]	陈庆伟, 汝涛涛, 周菊燕, 李静华, 熊晓, 李笑然, 周国富 . ( 2018). 光照对社会心理和行为的影响. 心理科学进展, 26( 6), 1083-1095.
[2]	鲁玉红, 王毓蓉, 金尚忠, 曾珊珊, 邵茂丰 . ( 2013). 不同波长蓝光LED对人体光生物节律效应的影响. 发光学报, 34( 8), 1061-1065.
[3]	罗明, 郑诗琪, 叶鸣 . ( 2016). 动态光对人警觉度与表现的影响. 照明工程学报, 27( 6), 1-5.
[4]	熊晓, 朱莹莹, 陈庆伟, 汝涛涛, 周国富 . ( 2018). 室内照度和时间对警觉性和视空绩效的影响. 心理科学, 41( 6), 1325-1332.
[5]	朱莹莹, 汝涛涛, 周国富 . ( 2015). 照明的非视觉作用及其脑神经机制. 心理科学进展, 23( 8), 1348-1360.
[6]	Aan Het Rot M., Benkelfat C., Boivin D. B., & Young S. N . ( 2008). Bright light exposure during acute tryptophan depletion prevents a lowering of mood in mildly seasonal women. European Neuropsychopharmacology, 18( 1), 14-23.
[7]	Baek H., & Min B.-K. ( 2015). Blue light aids in coping with the post-lunch dip: An EEG study. Ergonomics, 58( 5), 803-810.
[8]	Beaven C. M., & Ekstrom J. ( 2013). A comparison of blue light and caffeine effects on cognitive function and alertness in humans. PLoS ONE, 8( 10), e76707.
[9]	Begemann S. H. A., van den Beld, G. J., & Tenner A. D . ( 1997). Daylight, artificial light and people in an office environment, overview of visual and biological responses. International Journal of Industrial Ergonomics, 20( 3), 231-239.
[10]	Benloucif S., Green K., L'Hermite-Balériaux M., Weintraub S., Wolfe L. F., & Zee P. C . ( 2006). Responsiveness of the aging circadian clock to light. Neurobiology of Aging, 27( 12), 1870-1879.
[11]	Berson D. M., Dunn F. A., & Takao M . ( 2002). Phototransduction by retinal ganglion cells that set the circadian clock. Science, 295( 5557), 1070-1073.
[12]	Borbély A. A . ( 1982). A two process model of sleep regulation. Human Neurobiology, 1( 3), 195-204.
[13]	Brainard G. C., Lewy A. J., Menaker M., Fredrickson R. H., Miller L. S., Weleber R. G., .. Hudson D . ( 1988). Dose-response relationship between light irradiance and the suppression of plasma melatonin in human volunteers. Brain Research, 454( 1-2), 212-218.
[14]	Cajochen, C. ( 2007). Alerting effects of light. Sleep Medicine Reviews, 11( 6), 453-464.
[15]	Cajochen C., Kräuchi K., Danilenko K. V., & Wirz-Justice A . ( 1998). Evening administration of melatonin and bright light: Interactions on the EEG during sleep and wakefulness. Journal of Sleep Research, 7( 3), 145-157.
[16]	Cajochen C., Munch M., Kobialka S., Krauchi K., Steiner R., Oelhafen P., .. Wirz-Justice A . ( 2005). High sensitivity of human melatonin, alertness, thermoregulation and heart rate to short wavelength light. The Journal of Clinical Endocrinology and Metabolism, 90( 3), 1311-1316.
[17]	Cajochen C., Zeitzer J. M., Czeisler C. A., & Dijk-J D . ( 2000). Dose-response relationship for light intensity and ocular and electroencephalographic correlates of human alertness. Behavioural Brain Research, 115( 1), 75-83.
[18]	Canazei M., Dehoff P., Staggl S., & Pohl W . ( 2014). Effects of dynamic ambient lighting on female permanent morning shift workers. Lighting Research and Technology, 46( 2), 140-156.
[19]	Chellappa S. L., Steiner R., Blattner P., Oelhafen P., Gotz T., & Cajochen C . ( 2011). Non-visual effects of light on melatonin, alertness and cognitive performance: Can blue-enriched light keep us alert? PLoS ONE, 6( 1), e16429.
[20]	Correa Á., Barba A., & Padilla F . ( 2016). Light effects on behavioural performance depend on the individual state of vigilance. PLoS ONE, 11( 11), e164945.
[21]	Coull J. T . ( 1998). Neural correlates of attention and arousal: Insights from electrophysiology, functional neuroimaging and psychopharmacology. Progress in Neurobiology, 55( 4), 343-361.
[22]	Curcio G., Casagrande M., & Bertini M . ( 2001). Sleepiness: Evaluating and quantifying methods. International Journal of Psychophysiology, 41( 3), 251-263.
[23]	Daneault V., Hébert M., Albouy G., Doyon J., Dumont M., Carrier J., & Vandewalle G . ( 2014). Aging reduces the stimulating effect of blue light on cognitive brain functions. Sleep, 37( 1), 85-96.
[24]	Daneault V., Vandewalle G., Hébert M., Teikari P., Mure L. S., Doyon J., .. Carrier J . ( 2012). Does pupil constriction under blue and green monochromatic light exposure change with age? Journal of Biological Rhythms, 27( 3), 257-264.
[25]	de Kort, Y. A. W., & Smolders, K. C. H. J. ( 2010). Effects of dynamic lighting on office workers: First results of a field study with monthly alternating settings. Lighting Research and Technology, 42( 3), 345-360.
[26]	Dijk D. J., & Archer, S. N. ( 2010). PERIOD3, circadian phenotypes, and sleep homeostasis. Sleep Medicine Reviews, 14( 3), 151-160.
[27]	Ferlazzo F., Piccardi L., Burattini C., Barbalace M., Giannini A. M., & Bisegna F . ( 2014). Effects of new light sources on task switching and mental rotation performance. Journal of Environmental Psychology, 39( 4), 92-100.
[28]	Figueiro M. G., Sahin L., Wood B., & Plitnick B . ( 2016). Light at night and measures of alertness and performance: Implications for shift workers. Biological Research for Nursing, 18( 1), 90-100.
[29]	Figueiro M. G., & Rea, M. S. ( 2012). Short-wavelength light enhances cortisol awakening response in sleep-restricted adolescents. International Journal of Endocrinology, 2012, 301935.
[30]	Fisk A. S., Shu K. E. T., Brown L. A., Vyazovskiy V. V., Bannerman D. M., & Peirson S. N . ( 2018). Light and cognition: Roles for circadian rhythms, sleep, and arousal. Frontiers in Neurology, 9, 56.
[31]	Gabel V., Maire M., Reichert C. F., Chellappa S. L., Schmidt C., Hommes V., .. Cajochen C . ( 2013). Effects of artificial dawn and morning blue light on daytime cognitive performance, well-being, cortisol and melatonin levels. Chronobiology International, 30( 8), 988-997.
[32]	Gabel V., Maire M., Reichert C. F., Chellappa S. L., Schmidt C., Hommes V., .. Viola A. U . ( 2015). Dawn simulation light impacts on different cognitive domains under sleep restriction. Behavioural Brain Research, 281, 258-266.
[33]	Grass F., & Kasper S. ( 2008). Humoral phototransduction: Light transportation in the blood, and possible biological effects. Medical Hypotheses, 71( 2), 314-317.
[34]	Hankins M. W., Peirson S. N., & Foster R. G . ( 2008). Melanopsin: An exciting photopigment. Trends in Neurosciences, 31(1), 27-36.
[35]	Huiberts L. M., Smolders K. C. H. J., & de Kort, Y. A. W . ( 2015). Shining light on memory: Effects of bright light on working memory performance. Behavioural Brain Research, 294, 234-245.
[36]	Huiberts L. M., Smolders K. C. H. J., & de Kort, Y. A. W . ( 2016). Non-image forming effects of illuminance level: Exploring parallel effects on physiological arousal and task performance. Physiology & Behavior, 164, 129-139.
[37]	Huiberts L. M., Smolders K. C. H. J., & de Kort, Y. A. W . ( 2017). Seasonal and time-of-day variations in acute non-image forming effects of illuminance level on performance, physiology, and subjective well-being. Chronobiology International, 34( 7), 827-844.
[38]	Kaida K., Takahashi M., Haratani T., Otsuka Y., Fukasawa K., & Nakata A . ( 2006). Indoor exposure to natural bright light prevents afternoon sleepiness. Sleep, 29( 4), 462-469.
[39]	Keis O., Helbig H., Streb J., & Hille K . ( 2014). Influence of blue-enriched classroom lighting on students? cognitive performance. Trends in Neuroscience and Education, 3( 3-4), 86-92.
[40]	Knez, I. ( 1995). Effects of indoor lighting on mood and cognition. Journal of Environmental Psychology, 15( 1), 39-51.
[41]	Knez I., & Kers C. ( 2000). Effects of indoor lighting, gender, and age on mood and cognitive performance. Environment and Behavior, 32( 6), 817-831.
[42]	Kretschmer V., Griefahn B., & Schmidt K. -H . ( 2011). Bright light and night work: Effects on selective and divided attention in elderly persons. Lighting Research and Technology, 43( 4), 473-486.
[43]	Kretschmer V., Schmidt K. -H., & Griefahn B . ( 2012). Bright light effects on working memory, sustained attention and concentration of elderly night shift workers. Lighting Research and Technology, 44( 3), 316-333.
[44]	LeGates T. A., Fernandez D. C., & Hattar S . ( 2014). Light as a central modulator of circadian rhythms, sleep and affect. Nature Reviews Neuroscience, 15( 7), 443-454.
[45]	Leproult R., Colecchia E. F., Hermite-Baleriaux M. L., & van Cauter E . ( 2001). Transition from dim to bright light in the morning induces an immediate elevation of cortisol levels. The Journal of Clinical Endocrinology and Metabolism, 86( 1), 151-157.
[46]	Lewy A. J., Wehr T. A., Goodwin F. K., Newsome D. A., & Markey S. P . ( 1980). Light suppresses melatonin secretion in humans. Science, 210( 4475), 1267-1269.
[47]	Lim J., & Dinges, D. F. ( 2010). A meta-analysis of the impact of short-term sleep deprivation on cognitive variables. Psychological Bulletin, 136( 3), 375-389.
[48]	Lockley S. W., Evans E. E., Scheer F. A. J. L., Brainard G. C., Czeisler C. A., & Aeschbach D . ( 2006). Short-wavelength sensitivity for the direct effects of light on alertness, vigilance, and the waking electroencephalogram in humans. Sleep, 29( 2), 161-168.
[49]	Lucas R. J., Hattar S., Takao M., Berson D. M., Foster R. G., & Yau K.-W . ( 2003). Diminished pupillary light reflex at high irradiances in melanopsin-knockout mice. Science, 299( 5604), 245-247.
[50]	Mills P. R., Tomkins S. C., & Schlangen, L. J. M . ( 2007). The effect of high correlated colour temperature office lighting on employee wellbeing and work performance. Journal of Circadian Rhythms, 5( 1), 2.
[51]	Min B. K., Jung Y. C., Kim E., & Jin Y. P . ( 2013). Bright illumination reduces parietal EEG alpha activity during a sustained attention task. Brain Research, 1538( 22), 83-92.
[52]	Okamoto Y., Rea M. S., & Figueiro M. G . ( 2014). Temporal dynamics of EEG activity during short- and long-wavelength light exposures in the early morning. BMC Research Notes, 7( 1), 113.
[53]	Okamoto Y., & Nakagawa S. ( 2015). Effects of daytime light exposure on cognitive brain activity as measured by the ERP P300. Physiology & Behavior, 138( 15), 313-318.
[54]	Perrin F., Peigneux P., Fuchs S., Verhaeghe S., Laureys S., Middleton B., .. Balteau E . ( 2004). Nonvisual responses to light exposure in the human brain during the circadian night. Current Biology, 14( 20), 1842-1846.
[55]	Phipps-Nelson J., Redman J. R., Dijk D. J., & Rajaratnam S. M . ( 2003). Daytime exposure to bright light, as compared to dim light, decreases sleepiness and improves psychomotor vigilance performance. Sleep, 26( 6), 695-700.
[56]	Plitnick B., Figueiro M. G., Wood B., & Rea M. S . ( 2010). The effects of red and blue light on alertness and mood at night. Lighting Research and Technology, 42( 4), 449-458.
[57]	Rautkylä E., Puolakka M., & Halonen L . ( 2012). Alerting effects of daytime light exposure-a proposed link between light exposure and brain mechanisms. Lighting Research and Technology, 44( 2), 238-252.
[58]	Revell V. L., Arendt J., Fogg L. F., & Skene D. J . ( 2006). Alerting effects of light are sensitive to very short wavelengths. Neuroscience Letters, 399( 1-2), 96-100.
[59]	Rimmer D. W., Boivin D. B., Shanahan T. L., Kronauer R. E., Duffy J. F., .. Czeisler C. A . ( 2000). Dynamic resetting of the human circadian pacemaker by intermittent bright light. American Journal of Physiology-Regulatory Integrative and Comparative Physiology, 279( 5), R1574-R1579.
[60]	Ru T., de Kort, Y. A. W., Smolders K. C. H. J., Chen Q., & Zhou G . ( 2019). Non-image forming effects of illuminance and correlated color temperature of office light on alertness, mood, and performance across cognitive domains. Building and Environment, 149, 253-263.
[61]	Rüger M., Gordijn M. C., Beersma D. G., de Vries B., & Daan S . ( 2006). Time-of-day-dependent effects of bright light exposure on human psychophysiology: Comparison of daytime and nighttime exposure. American Journal of Physiology-Regulatory Integrative and Comparative Physiology, 290( 5), 1413-1420.
[62]	Sahin L., Wood B. M., Plitnick B., & Figueiro M. G . ( 2014). Daytime light exposure: Effects on biomarkers, measures of alertness, and performance. Behavioural Brain Research, 274, 176-185.
[63]	Sahin L., & Figueiro, M. G. ( 2013). Alerting effects of short-wavelength (blue) and long-wavelength (red) lights in the afternoon. Physiology & Behavior, 116-117( 2), 1-7.
[64]	Saito Y., Shimizu T., Takahashi Y., Mishima K., Takahashi K., Ogawa Y., .. Hishikawa Y . ( 1996). Effect of bright light exposure on muscle sympathetic nerve activity in human. Neuroscience Letters, 219( 2), 135-137.
[65]	Santhi N., Groeger J. A., Archer S. N., Gimenez M., Schlangen L. J. M., & Dijk D. J . ( 2013). Morning sleep inertia in alertness and performance: Effect of cognitive domain and white light conditions. PLoS ONE, 8( 11), e79688.
[66]	Sharkey K. M., Carskadon M. A., Figueiro M. G., Zhu Y., & Rea M. S . ( 2011). Effects of an advanced sleep schedule and morning short wavelength light exposure on circadian phase in young adults with late sleep schedules. Sleep Medicine, 12( 7), 685-692.
[67]	Slama H., Deliens G., Schmitz R., Peigneux P., & Leproult R . ( 2015). Afternoon nap and bright light exposure improve cognitive flexibility post lunch. PLoS ONE, 10( 5), e125359.
[68]	Smolders K. C. H. J., de Kort, Y. A. W.,& Cluitmans, P. J. M. ( 2012). A higher illuminance induces alertness even during office hours: Findings on subjective measures, task performance and heart rate measures. Physiology & Behavior, 107( 1), 7-16.
[69]	Smolders K. C. H. J., de Kort, Y. A. W., & van den Berg, S. M. ( 2013). Daytime light exposure and feelings of vitality: Results of a field study during regular weekdays. Journal of Environmental Psychology, 36( 3), 270-279.
[70]	Smolders K. C. H. J., & de Kort, Y. A. W . ( 2014). Bright light and mental fatigue: Effects on alertness, vitality, performance and physiological arousal. Journal of Environmental Psychology, 39, 77-91.
[71]	Smolders K. C. H. J., & de Kort, Y. A. W . ( 2017). Investigating daytime effects of correlated colour temperature on experiences, performance, and arousal. Journal of Environmental Psychology, 50, 80-93.
[72]	Stephenson K. M., Schroder C. M., Bertschy G., & Bourgin P . ( 2012). Complex interaction of circadian and non-circadian effects of light on mood: Shedding new light on an old story. Sleep Medicine Reviews, 16( 5), 445-454.
[73]	Thessing V. C., Anch A. M., Muehlbach M. J., Schweitzer P. K., & Walsh J. K . ( 1994). Two- and 4-hour bright-light exposures differentially effect sleepiness and performance the subsequent night. Sleep, 17( 2), 140-145.
[74]	Thompson A., Jones H., Gregson W., & Atkinson G . ( 2014). Effects of dawn simulation on markers of sleep inertia and post-waking performance in humans. European Journal of Applied Physiology, 114( 5), 1049-1056.
[75]	van de Werken M., Giménez M. C., de Vries B., Beersma D. G., van Someren E. J., .. Gordijn M. C . ( 2010). Effects of artificial dawn on sleep inertia, skin temperature, and the awakening cortisol response. Journal of Sleep Research, 19( 3), 425-435.
[76]	Vandewalle G., Archer S. N., Wuillaume C., Balteau E., Degueldre C., Luxen A., .. Maquet P . ( 2011). Effects of light on cognitive brain responses depend on circadian phase and sleep homeostasis. Journal of Biological Rhythms, 26( 3), 249-259.
[77]	Vandewalle G., Balteau E., Phillips C., Degueldre C., Moreau V., Sterpenich V., .. Dang-Vu T. T . ( 2006). Daytime light exposure dynamically enhances brain responses. Current Biology, 16( 16), 1616-1621.
[78]	Vandewalle G., Gais S., Schabus M., Balteau E., Carrier J., Darsaud A., .. Maquet P . ( 2007). Wavelength-dependent modulation of brain responses to a working memory task by daytime light exposure. Cerebral Cortex, 17( 12), 2788-2795.
[79]	Vandewalle G., Maquet P., & Dijk D. J . ( 2009). Light as a modulator of cognitive brain function. Trends in Cognitive Sciences, 13( 10), 429-438.
[80]	Vandewalle G., Schwartz S., Grandjean D., Wuillaume C., Balteau E., Degueldre C., .. Dijk D. J . ( 2010). Spectral quality of light modulates emotional brain responses in humans. Proceedings of the National Academy of Sciences, 107( 45), 19549-19554.
[81]	Viola A. U., Archer S. N., James L. M., Groeger J. A., Lo J. C. Y., Skene D. J., .. Dijk D. J . ( 2007). PER3 polymorphism predicts sleep structure and waking performance. Current Biology, 17( 7), 613-618.
[82]	Viola A. U., James L. M., Schlangen L. J. M., & Dijk D. J . ( 2008). Blue-enriched white light in the workplace improves self-reported alertness, performance and sleep quality. Scandinavian Journal of Work, Environment & Health, 34( 4), 297-306.
[83]	Warman V. L., Dijk D. J., Warman G. R., Arendt J., & Skene D. J . ( 2003). Phase advancing human circadian rhythms with short wavelength light. Neuroscience Letters, 342( 1-2), 37-40.
[84]	Willeit M., Sitte H. H., Thierry N., Michalek K., Praschak-Rieder N., Zill P., .. Bondy B . ( 2008). Enhanced serotonin transporter function during depression in seasonal affective disorder. Neuropsychopharmacolog, 33( 7), 1503-1513.
[85]	Yang J., Ru T., Chen Q., Mao T., Ji Y., & Zhou G . ( 2019). The effects of ambient light on task switching depend on the chronotype. Lighting Research and Technology, 51( 4), 544-556.
[86]	Yang M., Ma N., Zhu Y., Su Y., Chen Q., Hsiao F., .. Zhou G . ( 2018). The acute effects of intermittent light exposure in the evening on alertness and subsequent sleep architecture. International Journal of Environmental Research and Public Health, 15( 3), 524.
[87]	Yerkes R. M., & Dodson, J. D. ( 1908). The relation of strength of stimulus to rapidity of habit-formation. Journal of Comparative Neurology and Psychology, 18( 5), 459-482.
[88]	Yoon I. Y., Jeong D. U., Kwon K. B., Kang S. B., & Song B. G . ( 2002). Bright light exposure at night and light attenuation in the morning improve adaptation of night shift workers. Sleep, 25( 3), 351-356.