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:
2019-08-19Contact:
RU Taotao,ZHOU Guofu E-mail:taotao.ru@scnu.edu.cn;guofu.zhou@m.scnu.edu.cn摘要/Abstract
摘要: 自人类视网膜上发现存在新型的内在光敏感神经节细胞以来, 环境光照对个体生理心理功能的非视觉作用备受研究者青睐, 其中环境光照对认知功能的非视觉作用结果并不十分一致且内在机理尚不明确。环境光照的认知功效会受到光学参数、光照模式、时间因素、个体差异以及任务特征等的共同调节。未来的研究需要从环境光对心理认知功能的作用模式, 动态办公照明系统的开发, 面向特殊群体的个性化照明以及光照非视觉作用产生的分子生物学机制等视角进行扩展和深化。
图/表 1
图1光照的图像视觉功能和非图像视觉功能及其神经通路(图片来自LeGates, Fernandez, & Hattar, 2014, 部分有修改)
图1光照的图像视觉功能和非图像视觉功能及其神经通路(图片来自LeGates, Fernandez, & Hattar, 2014, 部分有修改)
参考文献 88
[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. |
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[12] | 陈文锋;禤宇明;刘烨;傅小兰;付秋芳. 创伤后应激障碍的认知功能缺陷与执行控制 ——5·12震后创伤恢复的认知基础 [J]. 心理科学进展, 2009, 17(3): 610-615. |
[13] | 莫书亮;陈楚侨. 精神分裂症对情绪的面部表情加工及其神经机制[J]. 心理科学进展, 2008, 16(2): 266-273. |
[14] | 李德明;陈天勇. 认知年老化和老年心理健康[J]. 心理科学进展, 2006, 14(4): 560-564. |
[15] | 刘昌;李德明. 成功的老年──近期老年学领域一个新的研究主题[J]. 心理科学进展, 1995, 3(1): 7-12. |
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