Pilly Praveen K, Skorheim Steven W, Hubbard Ryan J, Ketz Nicholas A, Roach Shane M, Lerner Itamar, Jones Aaron P, Robert Bradley, Bryant Natalie B, Hartholt Arno, Mullins Teagan S, Choe Jaehoon, Clark Vincent P, Howard Michael D
Center for Human-Machine Collaboration, Information and Systems Sciences Laboratory, HRL Laboratories, LLC, Malibu, CA, United States.
Center of Molecular and Behavior Neuroscience, Rutgers University Newark, Newark, NJ, United States.
Front Neurosci. 2020 Jan 10;13:1416. doi: 10.3389/fnins.2019.01416. eCollection 2019.
Targeted memory reactivation (TMR) during slow-wave oscillations (SWOs) in sleep has been demonstrated with sensory cues to achieve about 5-12% improvement in post-nap memory performance on simple laboratory tasks. But prior work has not yet addressed the one-shot aspect of episodic memory acquisition, or dealt with the presence of interference from ambient environmental cues in real-world settings. Further, TMR with sensory cues may not be scalable to the multitude of experiences over one's lifetime. We designed a novel non-invasive non-sensory paradigm that tags one-shot experiences of minute-long naturalistic episodes in immersive virtual reality (VR) with unique spatiotemporal amplitude-modulated patterns (STAMPs) of transcranial electrical stimulation (tES). In particular, we demonstrated that these STAMPs can be re-applied as brief pulses during SWOs in sleep to achieve about 10-20% improvement in the metamemory of targeted episodes compared to the control episodes at 48 hours after initial viewing. We found that STAMPs can not only facilitate but also impair metamemory for the targeted episodes based on an interaction between pre-sleep metamemory and the number of STAMP applications during sleep. Overnight metamemory improvements were mediated by spectral power increases following the offset of STAMPs in the slow-spindle band (8-12 Hz) for left temporal areas in the scalp electroencephalography (EEG) during sleep. These results prescribe an optimal strategy to leverage STAMPs for boosting metamemory and suggest that real-world episodic memories can be modulated in a targeted manner even with coarser, non-invasive spatiotemporal stimulation.
睡眠期间慢波振荡(SWO)过程中的靶向记忆再激活(TMR)已通过感觉线索得到证实,在简单的实验室任务中,午睡后的记忆表现可提高约5%-12%。但先前的研究尚未涉及情景记忆获取的一次性方面,也未处理现实环境中来自周围环境线索的干扰。此外,带有感觉线索的TMR可能无法扩展到一个人一生中的众多经历。我们设计了一种新颖的非侵入性非感觉范式,该范式通过独特的经颅电刺激(tES)时空幅度调制模式(STAMP),在沉浸式虚拟现实(VR)中标记长达一分钟的自然主义情节的一次性经历。特别是,我们证明,与初始观看后48小时的对照情节相比,这些STAMP可以在睡眠期间的SWO期间作为短脉冲重新应用,以实现目标情节的元记忆提高约10%-20%。我们发现,基于睡前元记忆与睡眠期间STAMP应用次数之间的相互作用,STAMP不仅可以促进目标情节的元记忆,还可能损害其元记忆。睡眠期间头皮脑电图(EEG)左侧颞叶区域慢纺锤波频段(8-12Hz)中STAMP偏移后频谱功率增加,介导了夜间元记忆的改善。这些结果规定了一种利用STAMP增强元记忆的最佳策略,并表明即使采用更粗略的非侵入性时空刺激,也可以有针对性地调节现实世界中的情景记忆。
