Hans P. A. Van Dongen scite author profile

Although the phenomenon of cognitive fatigue during sustained task performance is well documented, surprisingly little is known about its temporal dynamics. This chapter focuses on the interaction of cognitive fatigue across time on task with the influence of sleep loss (time awake) and circadian rhythm (time of day). In the section that follows, we discuss what is known about this issue from the published literature. In the next section, we present new data showing that the impact of sleep loss on the time-on-task effect generalizes from acute total sleep deprivation to the more commonly experienced conditions of chronic sleep restriction.In the section thereafter, we present additional new data from studies of repeated sleep deprivation, which reveal poor replicability of the slope of performance degradation across time on task. This finding points to considerable influence of an as yet unknown stochastic process. We conclude the chapter by introducing a theoretical account for this stochastic process, which we hypothesize involves the presence of a use-dependent sleep state in local neuronal assemblies involved in task performance. We also propose a model of the underlying mechanisms, which suggests that cognitive fatigue from sustained task performance and fatigue from sleep loss and circadian rhythm may share neurobiological pathways. Time Awake, Time of Day, and Time on TaskFrom a perspective of sleep-wake regulation, at least three key neurobiological processes cause systematic changes in cognitive function over time: a homeostatic process producing a progressive sleep drive over time awake, a circadian process We thank David Dinges and David Rector for contributing to the concepts presented in this chapter.

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Guiding principles for determining work shift duration and addressing the effects of work shift duration on performance, safety, and health: guidance from the American Academy of Sleep Medicine and the Sleep Research Society

Gurubhagavatula

Barnes

Basner

et al. 2021

Journal of Clinical Sleep Medicine

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Journal of Clinical Sleep Medicine is dedicated to advancing the science of clinical sleep medicine. In order to provide subscribers with access to new scientific developments as early as possible, accepted papers are posted prior to their final publication in an issue.These papers are posted as received-without copyediting or formatting by the publisher. In some instances, substantial changes are made during the copyediting and formatting processes; therefore, the final version of the paper may differ significantly from this version.Unless indicated otherwise, all papers are copyright of the American Academy of Sleep Medicine. No paper in whole or in part may be used in any form without written permission from the American Academy of Sleep Medicine.

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Fatigue in sustained attention: Generalizing mechanisms for time awake to time on task.

Gunzelmann¹,

Moore²,

Gluck³

et al. 2011

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New insights into the cognitive effects of sleep deprivation by decomposition of a cognitive throughput task

Honn

Halverson

Jackson

et al. 2020

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Study Objectives A cognitive throughput task known as the Digit Symbol Substitution Test (DSST) (or Symbol Digit Modalities Test) has been used as an assay of general cognitive slowing during sleep deprivation. Here, the effects of total sleep deprivation (TSD) on specific cognitive processes involved in DSST performance, including visual search, spatial memory, paired-associate learning, and motor response, were investigated through targeted task manipulations. Methods A total of 12 DSST variants, designed to manipulate the use of specific cognitive processes, were implemented in two laboratory-based TSD studies with N = 59 and N = 26 subjects, respectively. In each study, the Psychomotor Vigilance Test (PVT) was administered alongside the DSST variants. Results TSD reduced cognitive throughput on all DSST variants, with response time distributions exhibiting rightward skewing. All DSST variants showed practice effects, which were however minimized by inclusion of a pause between trials. Importantly, TSD-induced impairment on the DSST variants was not uniform, with a principal component analysis revealing three factors. Diffusion model decomposition of cognitive processes revealed that inter-individual differences during TSD on a two-alternative forced choice DSST variant were different from those on the PVT. Conclusions While reduced cognitive throughput has been interpreted to reflect general cognitive slowing, such TSD-induced impairment appears to reflect cognitive instability, like on the PVT, rather than general slowing. Further, comparisons between task variants revealed not one, but three distinct underlying processes impacted by sleep deprivation. Moreover, the practice effect on the task was found to be independent of the TSD effect and minimized by a task pacing manipulation.

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