Want to learn something? Sleep on it, but not too deeply: study

August 8, 2017
The human brain can learn only in certain phases of shut-eye

Scientists fascinated by the idea that humans might be able to learn while asleep—a new language, say, or a piece of music—have long been coming up with clashing experimental results.

On Tuesday, a team said it has finally unravelled why. The human brain can learn only in certain phases of shut-eye.

Participants in a study were able to memorise sound patterns played to them during two phases of sleep called Rapid Eye Movement (REM) and N2, researchers wrote in the journal Nature Communications.

REM is the phase of unconsciousness during which we typically dream, and is characterised, as its name suggests, by the eyes flitting about restlessly. N2 is a phase of lighter, non-REM sleep.

A third of deep non-REM sleep called N3, said the researchers, was positively bad for formation, however.

"Sounds previously learned during N2 sleep are forgotten or unlearned, as if erased from memory," the French team said in a statement.

They had wired 23 volunteers up to EEG brain monitors, and played them recordings of while they slept.

When they awoke, the trial participants were tested on how well they could remember the simple compositions.

Participant of a sleep experiment equipped with an electroencephalogram. The electroencephalogram records brain's electrical activity and allows to determine in real time whether a person is awake or asleep. Response handles placed in participants' hands allowed them to categorize the sounds presented during the experiment. Credit: Scientifilms

The team "observed a sharp distinction between light NREM sleep, during which learning was possible, and deep NREM sleep, during which learning was suppressed," said a press summary by the journal.

In fact, upon waking, the participants who unlearnt the sounds during N3 sleep found the same patterns even harder to relearn than to pick up completely new ones.

This supported theories that N3 sleep serves to unclutter the memory, said the researchers.

Further research must be done to determine how the findings may find practical application as a learning aid.

More information: Thomas Andrillon et al. Formation and suppression of acoustic memories during human sleep, Nature Communications (2017). DOI: 10.1038/s41467-017-00071-z

© 2017 AFP

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