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睡眠纺锤体不应期分离了记忆再激活的时段。

Sleep Spindle Refractoriness Segregates Periods of Memory Reactivation.

机构信息

Princeton Neuroscience Institute, Princeton University, Princeton, NJ 08544, USA.

Princeton Neuroscience Institute, Princeton University, Princeton, NJ 08544, USA.

出版信息

Curr Biol. 2018 Jun 4;28(11):1736-1743.e4. doi: 10.1016/j.cub.2018.04.020. Epub 2018 May 24.

DOI:10.1016/j.cub.2018.04.020
PMID:29804809
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5992601/
Abstract

The stability of long-term memories is enhanced by reactivation during sleep. Correlative evidence has linked memory reactivation with thalamocortical sleep spindles, although their functional role is not fully understood. Our initial study replicated this correlation and also demonstrated a novel rhythmicity to spindles, such that a spindle is more likely to occur approximately 3-6 s following a prior spindle. We leveraged this rhythmicity to test the role of spindles in memory by using real-time spindle tracking to present cues within versus just after the presumptive refractory period; as predicted, cues presented just after the refractory period led to better memory. Our findings demonstrate a precise temporal link between sleep spindles and memory reactivation. Moreover, they reveal a previously undescribed neural mechanism whereby spindles may segment sleep into two distinct substates: prime opportunities for reactivation and gaps that segregate reactivation events.

摘要

睡眠期间的重新激活可增强长期记忆的稳定性。相关证据将记忆重新激活与丘脑皮质睡眠纺锤波联系起来,尽管其功能作用尚不完全清楚。我们的初步研究复制了这种相关性,并证明了纺锤波具有新颖的节律性,即在前一个纺锤波之后大约 3-6 秒出现纺锤波的可能性更大。我们利用这种节律性,通过实时跟踪纺锤波,在假定的不应期内或之后立即呈现提示,来测试纺锤波在记忆中的作用;正如预测的那样,在不应期后立即呈现提示会导致更好的记忆。我们的发现表明睡眠纺锤波和记忆再激活之间存在精确的时间联系。此外,它们揭示了一种以前未描述的神经机制,通过该机制,纺锤波可以将睡眠分割成两个不同的亚状态:重新激活的主要机会和分离重新激活事件的间隙。

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