记忆巩固
振荡(细胞信号)
贝叶斯概率
荟萃分析
合并(业务)
睡眠(系统调用)
联轴节(管道)
计算机科学
神经科学
心理学
工程类
医学
经济
生物
人工智能
内科学
机械工程
会计
操作系统
遗传学
海马体
作者
T.-P. Ng,Eunsol Noh,Rebecca M. C. Spencer
标识
DOI:10.1101/2024.08.28.610060
摘要
The active system consolidation theory suggests that information transfer between the hippocampus and cortex during sleep underlies memory consolidation. Neural oscillations during sleep, including the temporal coupling between slow oscillations (SO) and sleep spindles (SP), may play a mechanistic role in memory consolidation. However, differences in analytical approaches and the presence of physiological and behavioral moderators have led to inconsistent conclusions. This metaanalysis, comprising 23 studies and 297 effect sizes, focused on four standard phase-amplitude coupling measures including coupling phase, strength, percentage, and SP amplitude, and their relationship with memory retention. We developed a standardized approach to incorporate non-normal circular-linear correlations. We found strong evidence supporting that precise and strong SO-fast SP coupling in the frontal lobe predicts memory consolidation. The strength of this association is modulated by memory type, aging, and dynamic spatio-temporal features, including SP frequency and cortical topography. In conclusion, SO-fast SP coupling should be considered as a general physiological mechanism for memory consolidation.
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