Please use this identifier to cite or link to this item: http://hdl.handle.net/2440/66606
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Type: Journal article
Title: Dynamics of neurobehavioral performance variability under forced desynchrony: Evidence of state instability
Author: Zhou, X.
Ferguson, S.
Matthews, R.
Sargent, C.
Darwent, D.
Kennaway, D.
Roach, G.
Citation: Sleep, 2011; 34(1):57-63
Publisher: Amer Academy Sleep Medicine
Issue Date: 2011
ISSN: 0161-8105
1550-9109
Statement of
Responsibility: 
Xuan Zhou, Sally A. Ferguson, Raymond W. Matthews, Charli Sargent, David Darwent, David J. Kennaway and Gregory D. Roach
Abstract: Study Objectives: The state instability hypothesis posits that increasing sleep drive brings about escalating state instability in attention, making neurobehavioral performance increasingly variable. This hypothesis predicts that performance variability is a function of prior wake, circadian phase, and time on task. These predictions have been supported when wakefulness is beyond the habitual wake period. Our study aimed to test these predictions within the habitual wake period. Design: A 12-calendar-day 28-h forced desynchrony protocol consisting of 7 repetitions of a 28-h sleep/wake cycle, with two-thirds time awake and one-third time in bed. Each wake period included 7 equally spaced 1-h testing sessions. Setting: A time-isolation sleep laboratory. Participants: Thirteen young healthy males. Interventions: Wake periods during the protocol were 4 h delayed each 28-h “day” relative to the circadian system, such that they were distributed across the whole circadian cycle. This allowed performance testing at different combinations of prior wake of a habitual length (i.e., < 18 h) and circadian phase. Measurements and Results: Performance variability was indexed by standard deviation of response times within a 10-min psychomotor vigilance task. We found that response times became more variable with increasing wakefulness and towards circadian nadir, i.e., when sleep drive was increasing. These changes in response time variability were however not dependent on time on task, which is likely due to the modest level of sleep drive in our study. Conclusions: The state instability hypothesis, as an explanation for the responsiveness of neurobehavioral performance to increasing sleep drive, is supported during the habitual wake period.
Keywords: State instability; performance variability; forced desynchrony; circadian phase; prior wake
Rights: Copyright status unknown
RMID: 0020103222
DOI: 10.1093/sleep/34.1.57
Appears in Collections:Obstetrics and Gynaecology publications

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