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Memory-related processing is the primary driver of human hippocampal theta oscillations
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NEURON-D-23-00100_R5.pdf
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Description:
Final Accepted Manuscript
Affiliation
Neuroscience Interdisciplinary Program, University of ArizonaPsychology Department, University of Arizona
Brain Institute, University of Arizona
Issue Date
2023-07-18
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Show full item recordPublisher
Cell PressCitation
Seger, S. E., Kriegel, J. L., Lega, B. C., & Ekstrom, A. D. (2023). Memory-related processing is the primary driver of human hippocampal theta oscillations. Neuron.Journal
NeuronRights
Copyright © 2023 Elsevier Inc. All rights reserved.Collection Information
This item from the UA Faculty Publications collection is made available by the University of Arizona with support from the University of Arizona Libraries. If you have questions, please contact us at repository@u.library.arizona.edu.Abstract
Decades of work in rodents suggest that movement is a powerful driver of hippocampal low-frequency “theta” oscillations. Puzzlingly, such movement-related theta increases in primates are less sustained and of lower frequency, leading to questions about their functional relevance. Verbal memory encoding and retrieval lead to robust increases in low-frequency oscillations in humans, and one possibility is that memory might be a stronger driver of hippocampal theta oscillations in humans than navigation. Here, neurosurgical patients navigated routes and then immediately mentally simulated the same routes while undergoing intracranial recordings. We found that mentally simulating the same route that was just navigated elicited oscillations that were of greater power, higher frequency, and longer duration than those involving navigation. Our findings suggest that memory is a more potent driver of human hippocampal theta oscillations than navigation, supporting models of internally generated theta oscillations in the human hippocampus.Note
12 month embargo; first published 18 July 2023EISSN
1097-4199PubMed ID
37467749Version
Final accepted manuscriptae974a485f413a2113503eed53cd6c53
10.1016/j.neuron.2023.06.015
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