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000140885 0247_ $$2doi$$a10.1002/hipo.23081
000140885 0247_ $$2pmid$$apmid:30775825
000140885 0247_ $$2ISSN$$a1050-9631
000140885 0247_ $$2ISSN$$a1098-1063
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000140885 037__ $$aDZNE-2020-07207
000140885 041__ $$aEnglish
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000140885 1001_ $$0P:(DE-HGF)0$$aCraig, Michael$$b0$$eCorresponding author
000140885 245__ $$aRapid improvement of cognitive maps in the awake state.
000140885 260__ $$aNew York, NY [u.a.]$$bWiley$$c2019
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000140885 520__ $$aPost-navigation awake quiescence, relative to task engagement, benefits the accuracy of a new 'cognitive map'. This effect is hypothesized to reflect awake quiescence, like sleep, being conducive to the consolidation and integration of new spatial memories. Sleep has been shown to improve cognitive map accuracy over time. It remained unknown whether awake quiescence can induce similar time-related improvements in new cognitive maps, or whether it simply counteracts their decay. We examined this question via two experiments. In Experiment 1, using an established cognitive mapping paradigm, we reveal that map accuracy for a virtual town was significantly better in people whose memory was probed after 10 min of post-navigation awake quiescence or ongoing cognitive engagement, relative to those whose memory was probed shortly after initial navigation. In Experiment 2, using a newly developed cognitive mapping task that involved a more complex and real-life virtual town, we again found that map accuracy was superior in those whose memory was probed after 10 min of awake quiescence than those who were tested soon after navigation. These findings indicate that actual improvements in human memories are not restricted to sleep. Thus, contrary to conventional wisdom and theories, the passage of (day)time need not always result in forgetting.
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000140885 650_2 $$2MeSH$$aBrain Mapping
000140885 650_2 $$2MeSH$$aCognition: physiology
000140885 650_2 $$2MeSH$$aFemale
000140885 650_2 $$2MeSH$$aHumans
000140885 650_2 $$2MeSH$$aMale
000140885 650_2 $$2MeSH$$aMemory: physiology
000140885 650_2 $$2MeSH$$aMemory Consolidation
000140885 650_2 $$2MeSH$$aOrientation: physiology
000140885 650_2 $$2MeSH$$aSleep
000140885 650_2 $$2MeSH$$aSpace Perception
000140885 650_2 $$2MeSH$$aVirtual Reality
000140885 650_2 $$2MeSH$$aWakefulness
000140885 650_2 $$2MeSH$$aYoung Adult
000140885 7001_ $$0P:(DE-2719)2810583$$aWolbers, Thomas$$b1$$udzne
000140885 7001_ $$0P:(DE-HGF)0$$aStrickland, Shannon$$b2
000140885 7001_ $$0P:(DE-2719)2810753$$aAchtzehn, Johannes$$b3$$udzne
000140885 7001_ $$0P:(DE-HGF)0$$aDewar, Michaela$$b4
000140885 77318 $$2Crossref$$3journal-article$$a10.1002/hipo.23081$$b : Wiley, 2019-02-18$$n9$$p862-868$$tHippocampus$$v29$$x1050-9631$$y2019
000140885 773__ $$0PERI:(DE-600)1498049-6$$a10.1002/hipo.23081$$gVol. 29, no. 9, p. 862 - 868$$n9$$p862-868$$q29:9<862 - 868$$tHippocampus$$v29$$x1050-9631$$y2019
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