Age-related neuroendocrine and alerting responses to light
Age-related neuroendocrine and alerting responses to light
Aging is associated with sleep and circadian alterations, which can negatively affect quality of life and longevity. Importantly, the age-related reduction in light sensitivity, particularly in the short-wavelength range, may underlie sleep and circadian alterations in older people. While evidence suggests that non-image-forming (NIF) light responses may diminish in older individuals, most laboratory studies have low sample sizes, use non-ecological light settings (e.g., monochromatic light), and typically focus on melatonin suppression by light. Here, we investigated whether NIF light effects on endogenous melatonin levels and sleep frontal slow-wave activity (primary outcomes), and subjective sleepiness and sustained attention (secondary outcomes) attenuate with aging. We conducted a stringently controlled within-subject study with 3 laboratory protocols separated by ~ 1 week in 31 young (18-30 years; 15 women) and 16 older individuals (55-80 years; eight women). Each protocol included 2 h of evening exposure to commercially available blue-enriched polychromatic light (6500 K) or non-blue-enriched light (3000 K or 2500 K) at low levels (~ 40 lx, habitual in evening indoor settings). Aging significantly affected the influence of light on endogenous melatonin levels, subjective sleepiness, sustained attention, and frontal slow-wave activity (interaction: P < 0.001, P = 0.004, P = 0.007, P = 0.001, respectively). In young individuals, light exposure at 6500 K significantly attenuated the increase in endogenous melatonin levels, improved subjective sleepiness and sustained attention performance, and decreased frontal slow-wave activity in the beginning of sleep. Conversely, older individuals did not exhibit signficant differential light sensitivity effects. Our findings provide evidence for an association of aging and reduced light sensitivity, with ramifications to sleep, cognition, and circadian health in older people.
Chellappa, Sarah
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Bromundt, Vivien
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Frey, Sylvia
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Schlote, Torsten
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Goldblum, David
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Cajochen, Christian
202964e9-9406-4f66-9ddc-94fc94c1bc69
Chellappa, Sarah
516582b5-3cba-4644-86c9-14c91a4510f2
Bromundt, Vivien
4c9f3199-1aaf-4ec8-bbdf-07b83326c5f1
Frey, Sylvia
866a7a91-f45d-47e6-9adb-fb372a4764ea
Schlote, Torsten
4722a40a-4d11-432c-9e96-2fb0d542b888
Goldblum, David
c81fe349-437d-4b65-93d3-e8ee12dfa233
Cajochen, Christian
202964e9-9406-4f66-9ddc-94fc94c1bc69
Chellappa, Sarah, Bromundt, Vivien, Frey, Sylvia, Schlote, Torsten, Goldblum, David and Cajochen, Christian
(2021)
Age-related neuroendocrine and alerting responses to light.
GeroScience, 43.
(doi:10.1007/s11357-021-00333-1).
Abstract
Aging is associated with sleep and circadian alterations, which can negatively affect quality of life and longevity. Importantly, the age-related reduction in light sensitivity, particularly in the short-wavelength range, may underlie sleep and circadian alterations in older people. While evidence suggests that non-image-forming (NIF) light responses may diminish in older individuals, most laboratory studies have low sample sizes, use non-ecological light settings (e.g., monochromatic light), and typically focus on melatonin suppression by light. Here, we investigated whether NIF light effects on endogenous melatonin levels and sleep frontal slow-wave activity (primary outcomes), and subjective sleepiness and sustained attention (secondary outcomes) attenuate with aging. We conducted a stringently controlled within-subject study with 3 laboratory protocols separated by ~ 1 week in 31 young (18-30 years; 15 women) and 16 older individuals (55-80 years; eight women). Each protocol included 2 h of evening exposure to commercially available blue-enriched polychromatic light (6500 K) or non-blue-enriched light (3000 K or 2500 K) at low levels (~ 40 lx, habitual in evening indoor settings). Aging significantly affected the influence of light on endogenous melatonin levels, subjective sleepiness, sustained attention, and frontal slow-wave activity (interaction: P < 0.001, P = 0.004, P = 0.007, P = 0.001, respectively). In young individuals, light exposure at 6500 K significantly attenuated the increase in endogenous melatonin levels, improved subjective sleepiness and sustained attention performance, and decreased frontal slow-wave activity in the beginning of sleep. Conversely, older individuals did not exhibit signficant differential light sensitivity effects. Our findings provide evidence for an association of aging and reduced light sensitivity, with ramifications to sleep, cognition, and circadian health in older people.
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Accepted/In Press date: 1 February 2021
e-pub ahead of print date: 26 February 2021
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Local EPrints ID: 479490
URI: http://eprints.soton.ac.uk/id/eprint/479490
ISSN: 2509-2723
PURE UUID: ea050801-3cf8-4bae-8946-2c29f6ff8130
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Date deposited: 25 Jul 2023 16:44
Last modified: 17 Mar 2024 04:20
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Author:
Sarah Chellappa
Author:
Vivien Bromundt
Author:
Sylvia Frey
Author:
Torsten Schlote
Author:
David Goldblum
Author:
Christian Cajochen
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