Rhythmic temporal cues coordinate cross-frequency phase-amplitude coupling during memory encoding

Article

Townsend, P., Jones, A., Patel, A. and Race, E. 2024. Rhythmic temporal cues coordinate cross-frequency phase-amplitude coupling during memory encoding. Journal of Cognitive Neuroscience. 36 (10), pp. 2100-2116. https://doi.org/10.1162/jocn_a_02217
TypeArticle
TitleRhythmic temporal cues coordinate cross-frequency phase-amplitude coupling during memory encoding
AuthorsTownsend, P., Jones, A., Patel, A. and Race, E.
Abstract

Accumulating evidence suggests that rhythmic temporal cues in the environment influence the encoding of information into long-term memory. Here, we test the hypothesis that these mnemonic effects of rhythm reflect the coupling of high-frequency (gamma) oscillations to entrained lower-frequency oscillations synchronized to the beat of the rhythm. In Study 1, we first test this hypothesis in the context of global effects of rhythm on memory, when memory is superior for visual stimuli presented in rhythmic compared with arrhythmic patterns at encoding [Jones, A., & Ward, E. V. Rhythmic temporal structure at encoding enhances recognition memory, Journal of Cognitive Neuroscience, 31, 1549–1562, 2019]. We found that rhythmic presentation of visual stimuli during encoding was associated with greater phase-amplitude coupling (PAC) between entrained low-frequency (delta) oscillations and higher-frequency (gamma) oscillations. In Study 2, we next investigated cross-frequency PAC in the context of local effects of rhythm on memory encoding, when memory is superior for visual stimuli presented in-synchrony compared with out-of-synchrony with a background auditory beat (Hickey et al., 2020). We found that the mnemonic effect of rhythm in this context was again associated with increased cross-frequency PAC between entrained low-frequency (delta) oscillations and higher-frequency (gamma) oscillations. Furthermore, the magnitude of gamma power modulations positively scaled with the subsequent memory benefit for in- versus out-of-synchrony stimuli. Together, these results suggest that the influence of rhythm on memory encoding may reflect the temporal coordination of higher-frequency gamma activity by entrained low-frequency oscillations.

Sustainable Development Goals3 Good health and well-being
Middlesex University ThemeHealth & Wellbeing
Research GroupCognitive Psychology and Neuroscience Research Group
PublisherThe MIT Press
JournalJournal of Cognitive Neuroscience
ISSN0898-929X
Electronic1530-8898
Publication dates
Online15 Aug 2024
Print01 Oct 2024
Publication process dates
Accepted03 May 2024
Deposited11 Sep 2024
Output statusPublished
Accepted author manuscript
File Access Level
Open
Copyright Statement

© 2024 Massachusetts Institute of Technology

This is the author’s final version, this article has been accepted for publication in Journal of Cognitive Neuroscience.

Digital Object Identifier (DOI)https://doi.org/10.1162/jocn_a_02217
LanguageEnglish
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