The impact of structured sleep schedules prior to an in-laboratory study: Individual differences in sleep and circadian timing

Many sleep and circadian studies require participants to adhere to structured sleep-wake schedules designed to stabilize sleep outcomes and circadian phase prior to in-laboratory testing. The effectiveness of this approach has not been rigorously evaluated, however. We therefore investigated the dif...

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Bibliographic Details
Published in:PloS one 2020-08, Vol.15 (8), p.e0236566-e0236566
Main Authors: McMahon, William R, Ftouni, Suzanne, Phillips, Andrew J.K, Beatty, Caroline, Lockley, Steven W, Rajaratnam, Shanthakumar M.W, Maruff, Paul, Drummond, Sean P.A, Anderson, Clare
Format: Article
Language:English
Subjects:
Alcohol
Alignment
Behavior
Biology and Life Sciences
Brain research
Caffeine
Circadian rhythm
Circadian rhythms
Health aspects
Laboratories
Laboratory tests
Medical research
Medical research volunteers
Medicine and Health Sciences
Melatonin
Menstruation
Mental health
Night
People and Places
Physical Sciences
Productivity
Psychological aspects
Quality
Schedules
Sleep
Sleep and wakefulness
Sleep deprivation
Sleep medicine
Sleep-wake cycles
Studies
Young adults
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Summary:Many sleep and circadian studies require participants to adhere to structured sleep-wake schedules designed to stabilize sleep outcomes and circadian phase prior to in-laboratory testing. The effectiveness of this approach has not been rigorously evaluated, however. We therefore investigated the differences between participants' unstructured and structured sleep over a three-week interval. Twenty-three healthy young adults completed three weeks of sleep monitoring, including one week of unstructured sleep and two weeks of structured sleep with consistent bed and wake times. Circadian phase was assessed via salivary dim light melatonin onset (DLMO) during both the unstructured and structured sleep episodes. Compared to their unstructured sleep schedule, participants' bed- and wake times were significantly earlier in their structured sleep, by 34 ± 44 mins (M ± SD) and 44 ± 41 mins, respectively. During structured sleep, circadian phase was earlier in 65% of participants (40 ± 32 mins) and was later in 35% (41 ± 25 mins) compared to unstructured sleep but did not change at the group level. While structured sleep reduced night-to-night variability in sleep timing and sleep duration, and improved the alignment (phase angle) between sleep onset and circadian phase in the most poorly aligned individuals (DLMO 3h before sleep onset time; 25% of our sample), sleep duration and quality were unchanged. Our results show adherence to a structured sleep schedule results in more regular sleep timing, and improved alignment between sleep and circadian timing for those individuals who previously had poorer alignment. Our findings support the use of structured sleep schedules prior to in-laboratory sleep and circadian studies to stabilize sleep and circadian timing in healthy volunteers.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0236566