Sleep strengthens resting-state functional communication between brain areas involved in the consolidation of problem-solving skills

午睡 记忆巩固 心理学 程序性记忆 海马结构 认知 睡眠(系统调用) 功能连接 神经科学 合并(业务) 静息状态功能磁共振成像 认知心理学 听力学 海马体 医学 计算机科学 业务 会计 操作系统
作者
Nicholas van den Berg,Dylan M. Smith,Zhuo Fang,Alyssa Pozzobon,Balmeet Toor,J Al-Kuwatli,L. Bryan Ray,Stuart Fogel
出处
期刊:Learning & Memory [Cold Spring Harbor Laboratory Press]
卷期号:30 (1): 25-35 被引量:4
标识
DOI:10.1101/lm.053638.122
摘要

Sleep consolidates procedural memory for motor skills, and this process is associated with strengthened functional connectivity in hippocampal–striatal–cortical areas. It is unknown whether similar processes occur for procedural memory that requires cognitive strategies needed for problem-solving. It is also unclear whether a full night of sleep is indeed necessary for consolidation to occur, compared with a daytime nap. We examined how resting-state functional connectivity within the hippocampal–striatal–cortical network differs after offline consolidation intervals of sleep, nap, or wake. Resting-state fMRI data were acquired immediately before and after training on a procedural problem-solving task that requires the acquisition of a novel cognitive strategy and immediately prior to the retest period (i.e., following the consolidation interval). ROI to ROI and seed to whole-brain functional connectivity analyses both specifically and consistently demonstrated strengthened hippocampal–prefrontal functional connectivity following a period of sleep versus wake. These results were associated with task-related gains in behavioral performance. Changes in functional communication were also observed between groups using the striatum as a seed. Here, we demonstrate that at the behavioral level, procedural strategies benefit from both a nap and a night of sleep. However, a full night of sleep is associated with enhanced functional communication between regions that support problem-solving skills.

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