Ultradian sleep cycles: frequency, duration, and associations with individual and environmental factors—a retrospective study
Ultradian sleep cycles: frequency, duration, and associations with individual and environmental factors—a retrospective study
Objective: sleep varies between individuals in response to sleep-wake history and various environmental factors, including light and noise. Here we report on the intranight variation of the ultradian nonrapid eye movement-rapid eye movement (NREM-REM) sleep cycle in 369 participants who have contributed to different laboratory studies from 1994 to 2020 at the Centre for Chronobiology, Basel, Switzerland.
Results: we observed a large interindividual variability in sleep cycle duration, including NREM and REM sleep episodes in healthy participants who were given an 8-hour sleep opportunity at habitual bedtime in controlled laboratory settings. The median sleep cycle duration was 96 minutes out of 6064 polysomnographically-recorded cycles. The number and duration of cycles were not normally distributed, and the distribution became narrower for NREM sleep and wider for REM sleep later in the night. The first cycle was consistently shorter than subsequent cycles, and moderate presleep light or nocturnal noise exposure had no significant effects on ultradian sleep cycle duration. Age and sex significantly affected NREM and REM sleep duration, with older individuals having longer NREM and shorter REM sleep particularly in the end of the night, and females having longer NREM sleep episodes. High sleep pressure (ie, sleep deprivation) and low sleep pressure (ie, multiple naps) altered ultradian sleep cycles, with high sleep pressure leading to longer NREM sleep in the first cycle, and low sleep pressure leading to longer REM sleep episodes. Positive correlations were observed between N2 and NREM duration, and between N1 and REM duration. Weak intrasleep REM sleep homeostasis was also evident in our data set.
Conclusions: we conclude that ultradian sleep cycles are endogenous biological rhythms modulated by age, sex, and sleep homeostasis, but not directly responsive to (moderate levels of) environmental cues in healthy good sleepers.
S52-S62
Cajochen, Christian
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Reichert, Carolin Franziska
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Münch, Mirjam
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Virginie, Gabel
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Stefani, Oliver
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Chellappa, Sarah Laxhmi
516582b5-3cba-4644-86c9-14c91a4510f2
Schmidt, Christina
f97ad7fd-94ce-4a6f-8320-d8c0374ca0bf
16 April 2024
Cajochen, Christian
f605e720-e417-45dc-9b5c-244b1a1d6265
Reichert, Carolin Franziska
8b7aa01c-9b54-4bc0-9bb9-451d86fdca71
Münch, Mirjam
a6ef08c2-3526-467d-8768-ee7be82d2682
Virginie, Gabel
1b3b40e4-8170-40f1-b5c5-eb7eb175e1e6
Stefani, Oliver
d96c315f-7350-4cb6-b24a-2babe5d0b442
Chellappa, Sarah Laxhmi
516582b5-3cba-4644-86c9-14c91a4510f2
Schmidt, Christina
f97ad7fd-94ce-4a6f-8320-d8c0374ca0bf
Cajochen, Christian, Reichert, Carolin Franziska, Münch, Mirjam, Virginie, Gabel, Stefani, Oliver, Chellappa, Sarah Laxhmi and Schmidt, Christina
(2024)
Ultradian sleep cycles: frequency, duration, and associations with individual and environmental factors—a retrospective study.
Sleep Health, 10 (1), .
(doi:10.1016/j.sleh.2023.09.002).
Abstract
Objective: sleep varies between individuals in response to sleep-wake history and various environmental factors, including light and noise. Here we report on the intranight variation of the ultradian nonrapid eye movement-rapid eye movement (NREM-REM) sleep cycle in 369 participants who have contributed to different laboratory studies from 1994 to 2020 at the Centre for Chronobiology, Basel, Switzerland.
Results: we observed a large interindividual variability in sleep cycle duration, including NREM and REM sleep episodes in healthy participants who were given an 8-hour sleep opportunity at habitual bedtime in controlled laboratory settings. The median sleep cycle duration was 96 minutes out of 6064 polysomnographically-recorded cycles. The number and duration of cycles were not normally distributed, and the distribution became narrower for NREM sleep and wider for REM sleep later in the night. The first cycle was consistently shorter than subsequent cycles, and moderate presleep light or nocturnal noise exposure had no significant effects on ultradian sleep cycle duration. Age and sex significantly affected NREM and REM sleep duration, with older individuals having longer NREM and shorter REM sleep particularly in the end of the night, and females having longer NREM sleep episodes. High sleep pressure (ie, sleep deprivation) and low sleep pressure (ie, multiple naps) altered ultradian sleep cycles, with high sleep pressure leading to longer NREM sleep in the first cycle, and low sleep pressure leading to longer REM sleep episodes. Positive correlations were observed between N2 and NREM duration, and between N1 and REM duration. Weak intrasleep REM sleep homeostasis was also evident in our data set.
Conclusions: we conclude that ultradian sleep cycles are endogenous biological rhythms modulated by age, sex, and sleep homeostasis, but not directly responsive to (moderate levels of) environmental cues in healthy good sleepers.
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Accepted/In Press date: 6 September 2023
e-pub ahead of print date: 31 October 2023
Published date: 16 April 2024
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Local EPrints ID: 502837
URI: http://eprints.soton.ac.uk/id/eprint/502837
ISSN: 2352-7218
PURE UUID: f189b6aa-0c32-41c0-a59f-74e1ae714e6e
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Date deposited: 09 Jul 2025 16:33
Last modified: 22 Aug 2025 02:39
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Author:
Christian Cajochen
Author:
Carolin Franziska Reichert
Author:
Mirjam Münch
Author:
Gabel Virginie
Author:
Oliver Stefani
Author:
Sarah Laxhmi Chellappa
Author:
Christina Schmidt
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