边睡边学习:将有针对性的记忆再激活作为本科生的独立研究项目。

IF 1.7 4区 教育学 Q2 EDUCATION, SCIENTIFIC DISCIPLINES Advances in Physiology Education Pub Date : 2024-10-24 DOI:10.1152/advan.00056.2024
Joud Mar'i, Robert Zhang, Stanislav Mircic, Étienne Serbe-Kamp, Matthias Meier, Aljoscha Leonhardt, Michael Drews, Nicholas A Del Grosso, James W Antony, Kenneth A Norman, Timothy C Marzullo, Gregory J Gage
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引用次数: 0

摘要

新获得的信息会通过巩固过程稳定在长期记忆中。记忆并不是一成不变的,而是通过重新激活不断更新的,这种重新激活主要发生在慢波睡眠(SWS,在人类中也称为 N3)期间。在这里,我们将介绍一种可扩展的神经科学研究,利用低成本的脑电图(EEG)记录硬件和开源软件,为 K-12 和高等教育阶段的学生和教育工作者提供记忆再激活的研究。这项研究采用了一种名为 "有针对性的记忆再激活"(TMR)的方法,即在睡眠期间重新呈现以前与学习相关的听觉线索,从而引发对存储记忆的回忆,并(通过这种方法)强化这些记忆。我们在七名健康受试者(19-35 岁)身上证明了这种技术的有效性。受试者在一款应用程序上学习玩空间记忆游戏,在游戏中,他们将图片(如时钟)与网格上的位置联系起来,同时聆听与图片相适应的声音(如 "滴答");接下来,他们一边小睡一边接受脑电图记录。在SWS过程中,一半的游戏声音由应用程序重放,另一半由未学习过的声音代替。受试者醒来后再玩一次记忆游戏。结果表明,与未被提示的记忆相比,被提示记忆的空间回忆能力得到了提高,这证明了睡眠期间记忆重放的益处,并表明人们可以对这一过程进行干预,以提高特定记忆的回忆能力。这项研究调查利用了睡眠对记忆巩固的重要性,并证明了通过在睡眠中提示声音可以提高记忆能力。
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Study While You Sleep: Using Targeted Memory Reactivation as an Independent Research Project for Undergraduates.

Newly acquired information is stabilized into long-term memory through the process of consolidation. Memories are not static; rather, they are constantly updated via reactivation, and this reactivation occurs preferentially during Slow-Wave Sleep (SWS, also referred to as N3 in humans). Here we present a scalable neuroscience research investigation of memory reactivation using low-cost electroencephalogram (EEG) recording hardware and open-source software, for students and educators across the K-12 and higher education spectrum. The investigation uses a method called targeted memory reactivation (TMR), whereby auditory cues that were previously associated with learning are re-presented during sleep, triggering the recall of stored memories and (through this) strengthening these memories. We demonstrated the efficacy of this technique on seven healthy human subjects (ages 19-35). The subjects learned to play a spatial memory game on an app where they associated pictures (e.g., a clock) with locations on a grid while they listened to picture-appropriate sounds (e.g., "tic-toc"); next, they took a nap while undergoing EEG recordings. During SWS, half of the sounds from the game were replayed by the app, while half were substituted with non-learned sounds. Subjects then played the memory game again after waking. Results showed that spatial recall was improved more for cued than uncued memories, demonstrating the benefits of memory replay during sleep and suggesting that one may intervene in this process to boost recall of specific memories. This research investigation takes advantage of the importance of sleep for memory consolidation and demonstrates improved memory performance by cueing sounds during SWS.

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来源期刊
CiteScore
3.40
自引率
19.00%
发文量
100
审稿时长
>12 weeks
期刊介绍: Advances in Physiology Education promotes and disseminates educational scholarship in order to enhance teaching and learning of physiology, neuroscience and pathophysiology. The journal publishes peer-reviewed descriptions of innovations that improve teaching in the classroom and laboratory, essays on education, and review articles based on our current understanding of physiological mechanisms. Submissions that evaluate new technologies for teaching and research, and educational pedagogy, are especially welcome. The audience for the journal includes educators at all levels: K–12, undergraduate, graduate, and professional programs.
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