Protocol for a prospective, multicentre, cross-sectional cohort study to assess personal light exposure

Carolina Guidolin; Sam Aerts; Gabriel Kwaku Agbeshie; Kwadwo Owusu Akuffo; Sema Nur Aydin; David Baeza-Moyano; John Bolte; Kai Broszio; Guadalupe Cantarero-García; Altug Didikoglu; Roberto Alonso González-Lezcano; Hongli Joosten-Ma; Sofía Melero-Tur; Maria Nilsson Tengelin; María Concepción Pérez Gutiérrez; Oliver Stefani; Ingemar Svensson; Ljiljana Udovičić; Johannes Zauner; Manuel Spitschan

doi:10.1186/s12889-024-20206-4

Protocol for a prospective, multicentre, cross-sectional cohort study to assess personal light exposure

Carolina Guidolin, Sam Aerts, Gabriel Kwaku Agbeshie, Kwadwo Owusu Akuffo, Sema Nur Aydin, David Baeza-Moyano, John Bolte, Kai Broszio, Guadalupe Cantarero-García, Altug Didikoglu, Roberto Alonso González-Lezcano, Hongli Joosten-Ma, Sofía Melero-Tur, Maria Nilsson Tengelin, María Concepción Pérez Gutiérrez, Oliver Stefani, Ingemar Svensson, Ljiljana Udovičić, Johannes Zauner, Manuel Spitschan

Assistant Professorship of Chronobiology und Health

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

1 Scopus citations

Abstract

Light profoundly impacts many aspects of human physiology and behaviour, including the synchronization of the circadian clock, the production of melatonin, and cognition. These effects of light, termed the non-visual effects of light, have been primarily investigated in laboratory settings, where light intensity, spectrum and timing can be carefully controlled to draw associations with physiological outcomes of interest. Recently, the increasing availability of wearable light loggers has opened the possibility of studying personal light exposure in free-living conditions where people engage in activities of daily living, yielding findings associating aspects of light exposure and health outcomes, supporting the importance of adequate light exposure at appropriate times for human health. However, comprehensive protocols capturing environmental (e.g., geographical location, season, climate, photoperiod) and individual factors (e.g., culture, personal habits, behaviour, commute type, profession) contributing to the measured light exposure are currently lacking. Here, we present a protocol that combines smartphone-based experience sampling (experience sampling implementing Karolinska Sleepiness Scale, KSS ratings) and high-quality light exposure data collection at three body sites (near-corneal plane between the two eyes mounted on spectacle, neck-worn pendant/badge, and wrist-worn watch-like design) to capture daily factors related to individuals’ light exposure. We will implement the protocol in an international multi-centre study to investigate the environmental and socio-cultural factors influencing light exposure patterns in Germany, Ghana, Netherlands, Spain, Sweden, and Turkey (minimum n = 15, target n = 30 per site, minimum n = 90, target n = 180 across all sites). With the resulting dataset, lifestyle and context-specific factors that contribute to healthy light exposure will be identified. This information is essential in designing effective public health interventions.

Original language	English
Article number	3285
Journal	BMC Public Health
Volume	24
Issue number	1
DOIs	https://doi.org/10.1186/s12889-024-20206-4
State	Published - Dec 2024

Keywords

Circadian rhythm
Cross-sectional studies
Environmental exposure
Health behavior
Light
Photoperiod
Photoreception, non-visual
Public health
Wearable electronic devices

UN SDGs

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

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10.1186/s12889-024-20206-4

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Guidolin, C., Aerts, S., Agbeshie, G. K., Akuffo, K. O., Aydin, S. N., Baeza-Moyano, D., Bolte, J., Broszio, K., Cantarero-García, G., Didikoglu, A., González-Lezcano, R. A., Joosten-Ma, H., Melero-Tur, S., Tengelin, M. N., Pérez Gutiérrez, M. C., Stefani, O., Svensson, I., Udovičić, L., Zauner, J., & Spitschan, M. (2024). Protocol for a prospective, multicentre, cross-sectional cohort study to assess personal light exposure. BMC Public Health, 24(1), Article 3285. https://doi.org/10.1186/s12889-024-20206-4

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abstract = "Light profoundly impacts many aspects of human physiology and behaviour, including the synchronization of the circadian clock, the production of melatonin, and cognition. These effects of light, termed the non-visual effects of light, have been primarily investigated in laboratory settings, where light intensity, spectrum and timing can be carefully controlled to draw associations with physiological outcomes of interest. Recently, the increasing availability of wearable light loggers has opened the possibility of studying personal light exposure in free-living conditions where people engage in activities of daily living, yielding findings associating aspects of light exposure and health outcomes, supporting the importance of adequate light exposure at appropriate times for human health. However, comprehensive protocols capturing environmental (e.g., geographical location, season, climate, photoperiod) and individual factors (e.g., culture, personal habits, behaviour, commute type, profession) contributing to the measured light exposure are currently lacking. Here, we present a protocol that combines smartphone-based experience sampling (experience sampling implementing Karolinska Sleepiness Scale, KSS ratings) and high-quality light exposure data collection at three body sites (near-corneal plane between the two eyes mounted on spectacle, neck-worn pendant/badge, and wrist-worn watch-like design) to capture daily factors related to individuals{\textquoteright} light exposure. We will implement the protocol in an international multi-centre study to investigate the environmental and socio-cultural factors influencing light exposure patterns in Germany, Ghana, Netherlands, Spain, Sweden, and Turkey (minimum n = 15, target n = 30 per site, minimum n = 90, target n = 180 across all sites). With the resulting dataset, lifestyle and context-specific factors that contribute to healthy light exposure will be identified. This information is essential in designing effective public health interventions.",

keywords = "Circadian rhythm, Cross-sectional studies, Environmental exposure, Health behavior, Light, Photoperiod, Photoreception, non-visual, Public health, Wearable electronic devices",

author = "Carolina Guidolin and Sam Aerts and Agbeshie, {Gabriel Kwaku} and Akuffo, {Kwadwo Owusu} and Aydin, {Sema Nur} and David Baeza-Moyano and John Bolte and Kai Broszio and Guadalupe Cantarero-Garc{\'i}a and Altug Didikoglu and Gonz{\'a}lez-Lezcano, {Roberto Alonso} and Hongli Joosten-Ma and Sof{\'i}a Melero-Tur and Tengelin, {Maria Nilsson} and {P{\'e}rez Guti{\'e}rrez}, {Mar{\'i}a Concepci{\'o}n} and Oliver Stefani and Ingemar Svensson and Ljiljana Udovi{\v c}i{\'c} and Johannes Zauner and Manuel Spitschan",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = dec,

doi = "10.1186/s12889-024-20206-4",

language = "English",

volume = "24",

journal = "BMC Public Health",

issn = "1471-2458",

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Guidolin, C, Aerts, S, Agbeshie, GK, Akuffo, KO, Aydin, SN, Baeza-Moyano, D, Bolte, J, Broszio, K, Cantarero-García, G, Didikoglu, A, González-Lezcano, RA, Joosten-Ma, H, Melero-Tur, S, Tengelin, MN, Pérez Gutiérrez, MC, Stefani, O, Svensson, I, Udovičić, L, Zauner, J & Spitschan, M 2024, 'Protocol for a prospective, multicentre, cross-sectional cohort study to assess personal light exposure', BMC Public Health, vol. 24, no. 1, 3285. https://doi.org/10.1186/s12889-024-20206-4

TY - JOUR

T1 - Protocol for a prospective, multicentre, cross-sectional cohort study to assess personal light exposure

AU - Guidolin, Carolina

AU - Aerts, Sam

AU - Agbeshie, Gabriel Kwaku

AU - Akuffo, Kwadwo Owusu

AU - Aydin, Sema Nur

AU - Baeza-Moyano, David

AU - Bolte, John

AU - Broszio, Kai

AU - Cantarero-García, Guadalupe

AU - Didikoglu, Altug

AU - González-Lezcano, Roberto Alonso

AU - Joosten-Ma, Hongli

AU - Melero-Tur, Sofía

AU - Tengelin, Maria Nilsson

AU - Pérez Gutiérrez, María Concepción

AU - Stefani, Oliver

AU - Svensson, Ingemar

AU - Udovičić, Ljiljana

AU - Zauner, Johannes

AU - Spitschan, Manuel

PY - 2024/12

Y1 - 2024/12

N2 - Light profoundly impacts many aspects of human physiology and behaviour, including the synchronization of the circadian clock, the production of melatonin, and cognition. These effects of light, termed the non-visual effects of light, have been primarily investigated in laboratory settings, where light intensity, spectrum and timing can be carefully controlled to draw associations with physiological outcomes of interest. Recently, the increasing availability of wearable light loggers has opened the possibility of studying personal light exposure in free-living conditions where people engage in activities of daily living, yielding findings associating aspects of light exposure and health outcomes, supporting the importance of adequate light exposure at appropriate times for human health. However, comprehensive protocols capturing environmental (e.g., geographical location, season, climate, photoperiod) and individual factors (e.g., culture, personal habits, behaviour, commute type, profession) contributing to the measured light exposure are currently lacking. Here, we present a protocol that combines smartphone-based experience sampling (experience sampling implementing Karolinska Sleepiness Scale, KSS ratings) and high-quality light exposure data collection at three body sites (near-corneal plane between the two eyes mounted on spectacle, neck-worn pendant/badge, and wrist-worn watch-like design) to capture daily factors related to individuals’ light exposure. We will implement the protocol in an international multi-centre study to investigate the environmental and socio-cultural factors influencing light exposure patterns in Germany, Ghana, Netherlands, Spain, Sweden, and Turkey (minimum n = 15, target n = 30 per site, minimum n = 90, target n = 180 across all sites). With the resulting dataset, lifestyle and context-specific factors that contribute to healthy light exposure will be identified. This information is essential in designing effective public health interventions.

AB - Light profoundly impacts many aspects of human physiology and behaviour, including the synchronization of the circadian clock, the production of melatonin, and cognition. These effects of light, termed the non-visual effects of light, have been primarily investigated in laboratory settings, where light intensity, spectrum and timing can be carefully controlled to draw associations with physiological outcomes of interest. Recently, the increasing availability of wearable light loggers has opened the possibility of studying personal light exposure in free-living conditions where people engage in activities of daily living, yielding findings associating aspects of light exposure and health outcomes, supporting the importance of adequate light exposure at appropriate times for human health. However, comprehensive protocols capturing environmental (e.g., geographical location, season, climate, photoperiod) and individual factors (e.g., culture, personal habits, behaviour, commute type, profession) contributing to the measured light exposure are currently lacking. Here, we present a protocol that combines smartphone-based experience sampling (experience sampling implementing Karolinska Sleepiness Scale, KSS ratings) and high-quality light exposure data collection at three body sites (near-corneal plane between the two eyes mounted on spectacle, neck-worn pendant/badge, and wrist-worn watch-like design) to capture daily factors related to individuals’ light exposure. We will implement the protocol in an international multi-centre study to investigate the environmental and socio-cultural factors influencing light exposure patterns in Germany, Ghana, Netherlands, Spain, Sweden, and Turkey (minimum n = 15, target n = 30 per site, minimum n = 90, target n = 180 across all sites). With the resulting dataset, lifestyle and context-specific factors that contribute to healthy light exposure will be identified. This information is essential in designing effective public health interventions.

KW - Circadian rhythm

KW - Cross-sectional studies

KW - Environmental exposure

KW - Health behavior

KW - Light

KW - Photoperiod

KW - Photoreception, non-visual

KW - Public health

KW - Wearable electronic devices

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U2 - 10.1186/s12889-024-20206-4

DO - 10.1186/s12889-024-20206-4

M3 - Article

AN - SCOPUS:85210434379

SN - 1471-2458

VL - 24

JO - BMC Public Health

JF - BMC Public Health

IS - 1

M1 - 3285

ER -

Protocol for a prospective, multicentre, cross-sectional cohort study to assess personal light exposure

Abstract

Keywords

UN SDGs

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