Sleep restriction impairs visually and memory-guided force control

Sleep loss is a common phenomenon with consequences to physical and mental health. While the effects of sleep restriction on working memory are well documented, it is unknown how sleep restriction affects continuous force control. The purpose of this study was to determine the effects of sleep restr...

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Bibliographic Details
Published in:PloS one 2022-09, Vol.17 (9), p.e0274121-e0274121
Main Authors: Brinkerhoff, Sarah A, Mathew, Gina M, Murrah, William M, Chang, Anne-Marie, Roper, Jaimie A, Neely, Kristina A
Format: Article
Language:English
Subjects:
Alertness
Attention
Attention task
Biology and Life Sciences
Blood pressure
Cardiovascular disease
Care and treatment
Cholesterol
Diabetes
Feedback
Grasping
Grip force
Health aspects
High density lipoprotein
Isometric
Medicine and Health Sciences
Memory
Memory tasks
Mental health
Mental task performance
Metabolism
People and Places
Recovery
Schedules
Short term memory
Sleep
Sleep deprivation
Social Sciences
Visual perception
Visual tasks
Young adults
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Summary:Sleep loss is a common phenomenon with consequences to physical and mental health. While the effects of sleep restriction on working memory are well documented, it is unknown how sleep restriction affects continuous force control. The purpose of this study was to determine the effects of sleep restriction on visually and memory-guided force production magnitude and variability. We hypothesized that both visually and memory-guided force production would be impaired after sleep restriction. Fourteen men participated in an eleven-day inpatient sleep study and completed a grip force task after two nights of ten hours’ time in bed (baseline); four nights of five hours’ time in bed (sleep restriction); and one night of ten hours’ time in bed (recovery). The force task entailed four 20-second trials of isometric force production with the thumb and index finger targeting 25% of the participant’s maximum voluntary contraction. During visually guided trials, participants had continuous visual feedback of their force production. During memory-guided trials, visual feedback was removed for the last 12 seconds of each trial. During both conditions, participants were told to maintain the target force production. After sleep restriction, participants decreased the magnitude of visually guided, but not memory-guided, force production, suggesting that visual attention tasks are more affected by sleep loss than memory-guided tasks. Participants who reported feeling more alert after sleep restriction and recovery sleep produced higher force during memory-guided, but not visually guided, force production, suggesting that the perception of decreased alertness may lead to more attention to the task during memory-guided visual tasks.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0274121