A Review of Human Physiological Responses to Light: Implications for the Development of Integrative Lighting Solutions

Céline Vetter; P. Morgan Pattison; Kevin Houser; Michael Herf; Andrew J.K. Phillips; Kenneth P. Wright; Debra J. Skene; George C. Brainard; Diane B. Boivin; Gena Glickman

doi:10.1080/15502724.2021.1872383

A Review of Human Physiological Responses to Light: Implications for the Development of Integrative Lighting Solutions

Céline Vetter, P. Morgan Pattison, Kevin Houser, Michael Herf, Andrew J.K. Phillips, Kenneth P. Wright, Debra J. Skene, George C. Brainard, Diane B. Boivin, Gena Glickman

Psychology

Research output: Contribution to journal › Review Article › Research › peer-review

144 Citations (Scopus)

Abstract

Architectural lighting has potent biological effects but applied lighting practices that capitalize on this potential have been limited. In this review, we endeavor to consolidate and synthesize key references that will be useful for lighting professionals, with the goal of supporting knowledge translation into pragmatic lighting strategies. Specifically, we explain relevant terminology, outline basic concepts, identify key references, provide a balanced overview of the current state of knowledge, and highlight important remaining questions. We summarize the physiological effects of light on human health and well-being, including a description of the processes underlying the photic regulation of circadian, neuroendocrine, and neurobehavioral functions. We review seminal work elucidating the elements mediating the potency of light for these physiological responses, with specific attention to factors critical for interpreting those findings. In parallel, we explain and endorse melanopic Equivalent Daylight Illuminance ((Formula presented.)) as the preferred measure to quantify the biological potency of light. Ultimately, while future studies are necessary to further facilitate the translation of laboratory knowledge to domestic and workplace settings, the immediate potential for applied lighting to better support human health is clear. Aiming for integrative lighting solutions that have biologically high potency light during the day and low potency during the night is perhaps the most immediate improvement to be made in order to better support applications for humans.

Original language	English
Pages (from-to)	387-414
Number of pages	28
Journal	LEUKOS: The Journal of the Illuminating Engineering Society
Volume	18
Issue number	3
DOIs	https://doi.org/10.1080/15502724.2021.1872383
Publication status	Published - 3 Jul 2022

Keywords

Circadian
health
light
melanopic equivalent daylight illuminance (EDI)
physiology

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1080/15502724.2021.1872383

Cite this

Vetter, C., Pattison, P. M., Houser, K., Herf, M., Phillips, A. J. K., Wright, K. P., Skene, D. J., Brainard, G. C., Boivin, D. B., & Glickman, G. (2022). A Review of Human Physiological Responses to Light: Implications for the Development of Integrative Lighting Solutions. LEUKOS: The Journal of the Illuminating Engineering Society, 18(3), 387-414. https://doi.org/10.1080/15502724.2021.1872383

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title = "A Review of Human Physiological Responses to Light: Implications for the Development of Integrative Lighting Solutions",

abstract = "Architectural lighting has potent biological effects but applied lighting practices that capitalize on this potential have been limited. In this review, we endeavor to consolidate and synthesize key references that will be useful for lighting professionals, with the goal of supporting knowledge translation into pragmatic lighting strategies. Specifically, we explain relevant terminology, outline basic concepts, identify key references, provide a balanced overview of the current state of knowledge, and highlight important remaining questions. We summarize the physiological effects of light on human health and well-being, including a description of the processes underlying the photic regulation of circadian, neuroendocrine, and neurobehavioral functions. We review seminal work elucidating the elements mediating the potency of light for these physiological responses, with specific attention to factors critical for interpreting those findings. In parallel, we explain and endorse melanopic Equivalent Daylight Illuminance ((Formula presented.)) as the preferred measure to quantify the biological potency of light. Ultimately, while future studies are necessary to further facilitate the translation of laboratory knowledge to domestic and workplace settings, the immediate potential for applied lighting to better support human health is clear. Aiming for integrative lighting solutions that have biologically high potency light during the day and low potency during the night is perhaps the most immediate improvement to be made in order to better support applications for humans.",

keywords = "Circadian, health, light, melanopic equivalent daylight illuminance (EDI), physiology",

author = "C{\'e}line Vetter and Pattison, \{P. Morgan\} and Kevin Houser and Michael Herf and Phillips, \{Andrew J.K.\} and Wright, \{Kenneth P.\} and Skene, \{Debra J.\} and Brainard, \{George C.\} and Boivin, \{Diane B.\} and Gena Glickman",

note = "Funding Information: We would like to thank T. Phan and S.S. Golden of the UC San Diego BioClock Studio for contributing to ; L. Hunt (CU Boulder) for assistance with the Tables 1 and 2; and R. Lucas (University of Manchester) for helpful and constructive feedback on an earlier version of the manuscript. The material in the report is based upon work supported by the U.S. Department of Energy{\textquoteright}s Office of Energy Efficiency and Renewable Energy (EERE), under award number DE-FE0025912. Publisher Copyright: {\textcopyright} 2021 The Author(s). Published with license by Taylor \& Francis Group, LLC.",

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Vetter, C, Pattison, PM, Houser, K, Herf, M, Phillips, AJK, Wright, KP, Skene, DJ, Brainard, GC, Boivin, DB & Glickman, G 2022, 'A Review of Human Physiological Responses to Light: Implications for the Development of Integrative Lighting Solutions', LEUKOS: The Journal of the Illuminating Engineering Society, vol. 18, no. 3, pp. 387-414. https://doi.org/10.1080/15502724.2021.1872383

A Review of Human Physiological Responses to Light: Implications for the Development of Integrative Lighting Solutions. / Vetter, Céline; Pattison, P. Morgan; Houser, Kevin et al.
In: LEUKOS: The Journal of the Illuminating Engineering Society, Vol. 18, No. 3, 03.07.2022, p. 387-414.

Research output: Contribution to journal › Review Article › Research › peer-review

TY - JOUR

T1 - A Review of Human Physiological Responses to Light

T2 - Implications for the Development of Integrative Lighting Solutions

AU - Vetter, Céline

AU - Pattison, P. Morgan

AU - Houser, Kevin

AU - Herf, Michael

AU - Phillips, Andrew J.K.

AU - Wright, Kenneth P.

AU - Skene, Debra J.

AU - Brainard, George C.

AU - Boivin, Diane B.

AU - Glickman, Gena

N1 - Funding Information: We would like to thank T. Phan and S.S. Golden of the UC San Diego BioClock Studio for contributing to ; L. Hunt (CU Boulder) for assistance with the Tables 1 and 2; and R. Lucas (University of Manchester) for helpful and constructive feedback on an earlier version of the manuscript. The material in the report is based upon work supported by the U.S. Department of Energy’s Office of Energy Efficiency and Renewable Energy (EERE), under award number DE-FE0025912. Publisher Copyright: © 2021 The Author(s). Published with license by Taylor & Francis Group, LLC.

PY - 2022/7/3

Y1 - 2022/7/3

N2 - Architectural lighting has potent biological effects but applied lighting practices that capitalize on this potential have been limited. In this review, we endeavor to consolidate and synthesize key references that will be useful for lighting professionals, with the goal of supporting knowledge translation into pragmatic lighting strategies. Specifically, we explain relevant terminology, outline basic concepts, identify key references, provide a balanced overview of the current state of knowledge, and highlight important remaining questions. We summarize the physiological effects of light on human health and well-being, including a description of the processes underlying the photic regulation of circadian, neuroendocrine, and neurobehavioral functions. We review seminal work elucidating the elements mediating the potency of light for these physiological responses, with specific attention to factors critical for interpreting those findings. In parallel, we explain and endorse melanopic Equivalent Daylight Illuminance ((Formula presented.)) as the preferred measure to quantify the biological potency of light. Ultimately, while future studies are necessary to further facilitate the translation of laboratory knowledge to domestic and workplace settings, the immediate potential for applied lighting to better support human health is clear. Aiming for integrative lighting solutions that have biologically high potency light during the day and low potency during the night is perhaps the most immediate improvement to be made in order to better support applications for humans.

AB - Architectural lighting has potent biological effects but applied lighting practices that capitalize on this potential have been limited. In this review, we endeavor to consolidate and synthesize key references that will be useful for lighting professionals, with the goal of supporting knowledge translation into pragmatic lighting strategies. Specifically, we explain relevant terminology, outline basic concepts, identify key references, provide a balanced overview of the current state of knowledge, and highlight important remaining questions. We summarize the physiological effects of light on human health and well-being, including a description of the processes underlying the photic regulation of circadian, neuroendocrine, and neurobehavioral functions. We review seminal work elucidating the elements mediating the potency of light for these physiological responses, with specific attention to factors critical for interpreting those findings. In parallel, we explain and endorse melanopic Equivalent Daylight Illuminance ((Formula presented.)) as the preferred measure to quantify the biological potency of light. Ultimately, while future studies are necessary to further facilitate the translation of laboratory knowledge to domestic and workplace settings, the immediate potential for applied lighting to better support human health is clear. Aiming for integrative lighting solutions that have biologically high potency light during the day and low potency during the night is perhaps the most immediate improvement to be made in order to better support applications for humans.

KW - Circadian

KW - health

KW - light

KW - melanopic equivalent daylight illuminance (EDI)

KW - physiology

UR - https://www.scopus.com/pages/publications/85100742977

U2 - 10.1080/15502724.2021.1872383

DO - 10.1080/15502724.2021.1872383

M3 - Review Article

AN - SCOPUS:85100742977

SN - 1550-2716

VL - 18

SP - 387

EP - 414

JO - LEUKOS: The Journal of the Illuminating Engineering Society

JF - LEUKOS: The Journal of the Illuminating Engineering Society

IS - 3

ER -

A Review of Human Physiological Responses to Light: Implications for the Development of Integrative Lighting Solutions

Abstract

Keywords

UN SDGs

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