Ullrich Wagner scite author profile

Insight denotes a mental restructuring that leads to a sudden gain of explicit knowledge allowing qualitatively changed behaviour. Anecdotal reports on scientific discovery suggest that pivotal insights can be gained through sleep. Sleep consolidates recent memories and, concomitantly, could allow insight by changing their representational structure. Here we show a facilitating role of sleep in a process of insight. Subjects performed a cognitive task requiring the learning of stimulus-response sequences, in which they improved gradually by increasing response speed across task blocks. However, they could also improve abruptly after gaining insight into a hidden abstract rule underlying all sequences. Initial training establishing a task representation was followed by 8 h of nocturnal sleep, nocturnal wakefulness, or daytime wakefulness. At subsequent retesting, more than twice as many subjects gained insight into the hidden rule after sleep as after wakefulness, regardless of time of day. Sleep did not enhance insight in the absence of initial training. A characteristic antecedent of sleep-related insight was revealed in a slowing of reaction times across sleep. We conclude that sleep, by restructuring new memory representations, facilitates extraction of explicit knowledge and insightful behaviour.

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Emotional Memory Formation Is Enhanced across Sleep Intervals with High Amounts of Rapid Eye Movement Sleep

Wagner¹,

Gais²,

Born³

2001

Learn. Mem.

529

387

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Recent studies indicated a selective activation during rapid eye movement (REM) sleep of the amygdala known to play a decisive role in the processing of emotional stimuli. This study compared memory retention of emotional versus neutral text material over intervals covering either early sleep known to be dominated by nonREM slow wave sleep (SWS) or late sleep, in which REM sleep is dominant. Two groups of men were tested across 3-h periods of early and late sleep (sleep group) or corresponding retention intervals filled with wakefulness (wake group). Sleep was recorded polysomnographically. Cortisol concentrations in saliva were monitored at acquisition and retrieval testing. As expected, the amount of REM sleep was about three times greater during late than during early retention sleep, whereas a reversed pattern was observed for SWS distribution (P < 0.001). Sleep improved retention, compared with the effects of wake intervals (P < 0.02). However, this effect was substantial only in the late night (P < 0.005), during which retention was generally worse than during the early night (P < 0.02). Late sleep particularly enhanced memory for emotional texts. This effect was highly significant in comparison with memory for neutral texts (P < 0.01) and in comparison with memory after late and early wake intervals (P < 0.001). Cortisol concentration differed between early and late retention intervals but not between sleep and wake conditions. Results are consonant with a supportive function of REM sleep predominating late sleep for the formation of emotional memory in humans.It is well established that sleep has a facilitating effect on memory formation in animals and humans (e.g., Jenkins and Dallenbach 1924;Smith 1985Smith , 1995Stickgold et al. 2000). However, the physiological mechanisms of this effect are still unclear. Specifically, there is an ongoing controversy concerning the differential contribution of rapid eye movement (REM) sleep and slow wave sleep (SWS) to memory consolidation. In particular, human studies provided mixed results, some indicating a beneficial effect of REM sleep on memory (Empson and Clarke 1970;Lewin and Glaubman 1975;Tilley and Empson 1978) whereas others suggested SWS to be critical for memory formation (Yaroush et al. 1971;Barrett and Ekstrand 1972;Fowler et al. 1973;Ekstrand 1977). The divergent outcomes appear to reflect differences in the methods used for investigating memory formation during sleep and in the type of memory examined. The most commonly used approach in the study of sleepassociated memory formation is the REM sleep deprivation paradigm, in which subjects are awakened whenever polysomnographic recordings indicate signs of REM sleep. In control conditions, awakenings are induced in nonREM sleep. Yet the REM sleep-deprivation paradigm has been subject to profound criticism (Horne and McGrath 1984; Vertes and Eastman, in press). Compared with other sleep stages, frequent arousal from REM sleep induces serious emotional and cognitive disturbances. These disturbances impa...

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Early sleep triggers memory for early visual discrimination skills

et al. 2000

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Improvement after practicing visual texture discrimination does not occur until several hours after practice has ended. We show that this improvement strongly depends on sleep. To specify the process responsible for sleep-related improvement, we compared the effects of 'early' and 'late' sleep, dominated respectively by slow-wave and rapid eye movement (REM) sleep. Discrimination skills significantly improved over early sleep, improved even more over a whole night's sleep, but did not improve after late sleep alone. These findings suggest that procedural memory formation is prompted by slow-wave sleep-related processes. Late REM sleep may promote memory formation at a second stage, only after periods of early sleep have occurred.

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Common and differential neural networks of emotion regulation by Detachment, Reinterpretation, Distraction, and Expressive Suppression: A comparative fMRI investigation

et al. 2014

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Brief Sleep After Learning Keeps Emotional Memories Alive for Years

Wagner

Hallschmid

Rasch

et al. 2006

Biological Psychiatry

263

201

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Ullrich Wagner

Sleep inspires insight

Emotional Memory Formation Is Enhanced across Sleep Intervals with High Amounts of Rapid Eye Movement Sleep

Early sleep triggers memory for early visual discrimination skills

Common and differential neural networks of emotion regulation by Detachment, Reinterpretation, Distraction, and Expressive Suppression: A comparative fMRI investigation

Brief Sleep After Learning Keeps Emotional Memories Alive for Years

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