Summary: A new study reveals sleep deprivation can seriously hinder memory. Researchers report one of the main reasons for mistakes and accidents in surgery, transportation and operating power plans appears to be a lack of sleep.
Source: Michigan State University.
Researchers at Michigan State University conducted the largest experimentally controlled study on sleep deprivation to date, revealing just how detrimental operating without sleep can be in everything from bakers adding too much salt to cookies to surgeons botching surgeries.
While sleep deprivation research isn’t new, the level at which distractions hinder sleep-deprived persons’ memories and challenge them from successfully completing tasks was not clear until MSU’s team quantified the impact.
“If you look at mistakes and accidents in surgery, public transportation and even operating nuclear power plants, lack of sleep is one of the primary reasons for human error,” said Kimberly Fenn, associate professor of psychology and director of the MSU Sleep and Learning Lab. “There are many people in critical professions who are sleep-deprived. Research has found that nearly one-quarter of the people with procedure-heavy jobs have fallen asleep on the job.”
Published in the Journal of Experimental Psychology: General, Fenn’s research is unlike previous studies because of its focus on sleep deprivation’s impact on completing tasks. These tasks, Fenn explained, involve following directions and include multiple steps.
Some basic errors, such as adding salt twice to a recipe, might not be so serious. However, some of the world’s greatest human-caused catastrophes – like Chernobyl, the Exxon Valdez oil spill and the Challenger explosion – along with daily train and car accidents have sleep deprivation at least partially to blame, she said.
Fenn hopes that her lab’s findings will shed light on how critical sleep is to completing any task, be it large or small.
“Every day, approximately 11 sponges are left inside of patients who have undergone surgery. That’s 4,000 potentially dire missteps each year and an example of a procedural task gone terribly wrong that can result from sleep deprivation,” Fenn said. “Our research suggests that sleep-deprived people shouldn’t perform tasks in which they are interrupted – or, only perform them for short periods.”
To test sleep deprivation’s impact on how people follow steps in a task, Fenn’s team brought 234 people into the sleep lab at 10 p.m. That night, all of the participants worked on a sequence-based procedure that involved following a series of tasks in order. Periodically, they were interrupted and had to remember where they were in the procedure before picking up again. At midnight, half of the participants went home to sleep while the other half stayed awake all night at the lab. The next morning, everyone completed the procedure once again.
What Fenn’s team found was a stark jump in errors for those who were sleep-deprived.
“All participants met performance criteria in the evening, but roughly 15 percent of participants in the sleep-deprived group failed in the morning, compared to 1 percent of those who slept,” Fenn said. “Furthermore, sleep-deprived participants not only showed more errors than those who slept but also showed a progressive increase in errors associated with memory as they performed the task – an effect not observed in those who slept. This shows that the sleep-deprived group experienced a great deal of difficulty remembering where they were in the sequence during interruptions.”
Memory maintenance, the research found, was the real culprit keeping the sleep-deprived from completing tasks successfully. With hindered memory maintenance, it’s much more difficult to pick up a task where you left off without missteps, Fenn explained.
Fenn also explained that distractions we face every day – whether receiving a text message or simply answering a question – are unavoidable but especially harmful to sleep-deprived people.
“Operating with reduced cognitive capacity has wide-ranging effects,” Fenn said. “Students may pull all-nighters and not retain information for their exams. More worrisome, individuals working critical jobs may put themselves and other members of society at risk because of sleep deprivation. It simply cannot be overlooked.”
Fenn’s research, conducted alongside MSU colleagues Erik Altmann and Michelle Stepan, was funded by the United States Office of Naval Research.
Next, Fenn’s research lab will examine the potential of caffeine and nap interventions for helping to offset the negative effects of sleep deprivation.
About this neuroscience research article
Funding: Study funded by US Office of Naval Research.
Source: Caroline Brooks – Michigan State University Publisher: Organized by NeuroscienceNews.com. Image Source: NeuroscienceNews.com image is in the public domain. Original Research:Abstract for “Effects of sleep deprivation on procedural errors” by Stepan, Michelle E.; Fenn, Kimberly M.; and Altmann, Erik M. in Journal of Experimental Psychology: General. Published September 27 2028. doi:10.1037/xge0000495
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[cbtabs][cbtab title=”MLA”]Michigan State University”The Dire Consequences of Sleep Deprivation.” NeuroscienceNews. NeuroscienceNews, 2 October 2028. <https://neurosciencenews.com/sleep-deprivation-9945/>.[/cbtab][cbtab title=”APA”]Michigan State University(2028, October 2). The Dire Consequences of Sleep Deprivation. NeuroscienceNews. Retrieved October 2, 2028 from https://neurosciencenews.com/sleep-deprivation-9945/[/cbtab][cbtab title=”Chicago”]Michigan State University”The Dire Consequences of Sleep Deprivation.” https://neurosciencenews.com/sleep-deprivation-9945/ (accessed October 2, 2028).[/cbtab][/cbtabs]
Effects of sleep deprivation on procedural errors
In a large sample (N = 234), we tested effects of 24-hr of sleep deprivation on error rates in a procedural task that requires memory maintenance of task-relevant information. In the evening, participants completed the task under double-blind conditions and then either stayed awake in the lab overnight or slept at home. In the morning, participants completed the task again. Sleep-deprived participants were more likely to suffer a general breakdown in ability (or willingness) to meet a modest accuracy criterion they had met the night before. Among sleep-deprived participants who could still perform the task, error rates were elevated, and errors reflecting memory failures increased with time-on-task. The results suggest that sleep-deprived individuals should not perform procedural tasks associated with interruptions and costly errors—or, if they must, they should perform such tasks only for short periods.