Subsequent memory-dependent EEG θ correlates to parahippocampal blood oxygenation level-dependent response

Naoyuki Sato; Takashi J. Ozaki; Yoshiaki Someya; Kimitaka Anami; Seiji Ogawa; Hiroaki Mizuhara; Yoko Yamaguchi

doi:10.1097/WNR.0b013e328332072a

Subsequent memory-dependent EEG θ correlates to parahippocampal blood oxygenation level-dependent response

Naoyuki Sato^*, Takashi J. Ozaki, Yoshiaki Someya, Kimitaka Anami, Seiji Ogawa, Hiroaki Mizuhara, Yoko Yamaguchi

^*Corresponding author for this work

Data Science Center for Medicine and Hospital Management

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

The 4-12 Hz (θ rhythm)-dependent neural dynamics play a fundamental role in the memory formation of the rat hippocampus. Although the power of human scalp electroencephalography θ (EEG θ) is known to be associated with a hippocampus-dependent memory encoding, it remains unclear whether the human hippocampus uses θ rhythm. In this study, we aim to identify the scalp EEG θ-related neural regions during memory encoding by using a simultaneous EEG-functional magnetic resonance imaging recording. We showed that the parahippocampal and the medial frontal and posterior regions were significantly correlated to subsequent memory-dependent EEG θ power. This evidence suggests that the human parahippocampal region and associated structures use θ rhythm during hippocampal memory encoding as in rodents.

Original language	English
Pages (from-to)	168-172
Number of pages	5
Journal	NeuroReport
Volume	21
Issue number	3
DOIs	https://doi.org/10.1097/WNR.0b013e328332072a
State	Published - 2010/02

Keywords

Objectï-place associative memory
Simultaneous EEGï-fMRI recording
Subsequent memory effect
Theta phase coding

ASJC Scopus subject areas

General Neuroscience

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10.1097/WNR.0b013e328332072a

Cite this

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title = "Subsequent memory-dependent EEG θ correlates to parahippocampal blood oxygenation level-dependent response",

abstract = "The 4-12 Hz (θ rhythm)-dependent neural dynamics play a fundamental role in the memory formation of the rat hippocampus. Although the power of human scalp electroencephalography θ (EEG θ) is known to be associated with a hippocampus-dependent memory encoding, it remains unclear whether the human hippocampus uses θ rhythm. In this study, we aim to identify the scalp EEG θ-related neural regions during memory encoding by using a simultaneous EEG-functional magnetic resonance imaging recording. We showed that the parahippocampal and the medial frontal and posterior regions were significantly correlated to subsequent memory-dependent EEG θ power. This evidence suggests that the human parahippocampal region and associated structures use θ rhythm during hippocampal memory encoding as in rodents.",

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AU - Sato, Naoyuki

AU - Ozaki, Takashi J.

AU - Someya, Yoshiaki

AU - Anami, Kimitaka

AU - Ogawa, Seiji

AU - Mizuhara, Hiroaki

AU - Yamaguchi, Yoko

PY - 2010/2

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AB - The 4-12 Hz (θ rhythm)-dependent neural dynamics play a fundamental role in the memory formation of the rat hippocampus. Although the power of human scalp electroencephalography θ (EEG θ) is known to be associated with a hippocampus-dependent memory encoding, it remains unclear whether the human hippocampus uses θ rhythm. In this study, we aim to identify the scalp EEG θ-related neural regions during memory encoding by using a simultaneous EEG-functional magnetic resonance imaging recording. We showed that the parahippocampal and the medial frontal and posterior regions were significantly correlated to subsequent memory-dependent EEG θ power. This evidence suggests that the human parahippocampal region and associated structures use θ rhythm during hippocampal memory encoding as in rodents.

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KW - Simultaneous EEGï-fMRI recording

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Subsequent memory-dependent EEG θ correlates to parahippocampal blood oxygenation level-dependent response

Abstract

Keywords

ASJC Scopus subject areas

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