Evidence for Human Fronto-Central Gamma Activity during Long-Term Memory Encoding of Word Sequences

Esther Berendina Meeuwissen,Atsuko Takashima,Guillén Fernández,Ole Jensen,Thomas Koenig

doi:10.1371/journal.pone.0021356

Esther Berendina Meeuwissen, Atsuko Takashima + Show 3 more

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https://doi.org/10.1371/journal.pone.0021356

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Journal: PloS one	Publication Date: Jun 29, 2011
Citations: 90	License type: CC BY 4.0

Affiliation: Radboud University Nijmegen, Royal Dutch Kentalis

Abstract

Although human gamma activity (30–80 Hz) associated with visual processing is often reported, it is not clear to what extend gamma activity can be reliably detected non-invasively from frontal areas during complex cognitive tasks such as long term memory (LTM) formation. We conducted a memory experiment composed of 35 blocks each having three parts: LTM encoding, working memory (WM) maintenance and LTM retrieval. In the LTM encoding and WM maintenance parts, participants had to respectively encode or maintain the order of three sequentially presented words. During LTM retrieval subjects had to reproduce these sequences. Using magnetoencephalography (MEG) we identified significant differences in the gamma and beta activity. Robust gamma activity (55–65 Hz) in left BA6 (supplementary motor area (SMA)/pre-SMA) was stronger during LTM rehearsal than during WM maintenance. The gamma activity was sustained throughout the 3.4 s rehearsal period during which a fixation cross was presented. Importantly, the difference in gamma band activity correlated with memory performance over subjects. Further we observed a weak gamma power difference in left BA6 during the first half of the LTM rehearsal interval larger for successfully than unsuccessfully reproduced word triplets. In the beta band, we found a power decrease in left anterior regions during LTM rehearsal compared to WM maintenance. Also this suppression of beta power correlated with memory performance over subjects. Our findings show that an extended network of brain areas, characterized by oscillatory activity in different frequency bands, supports the encoding of word sequences in LTM. Gamma band activity in BA6 possibly reflects memory processes associated with language and timing, and suppression of beta activity at left frontal sensors is likely to reflect the release of inhibition directly associated with the engagement of language functions.

Highlights

Numerous electrophysiological studies point to oscillatory gamma activity playing an important role for neuronal processing [1,2,3]
We investigated the oscillatory activity related to encoding and maintenance of word triplets in long-term memory (LTM) and working memory (WM), respectively
The experiment was composed of LTM encoding trials, WM maintenance trials and LTM retrieval trials (Figure 1)

Summary

Introduction

Numerous electrophysiological studies point to oscillatory gamma activity playing an important role for neuronal processing [1,2,3]. Long-term memory formation is often studied using subsequent memory paradigms in which the brain activity is compared for later remembered and later forgotten items. Oscillatory gamma activity might be conducive to longterm formation since synchronized neuronal spiking promotes synaptic plasticity [13]. Most of the gamma sources being modulated by LTM processing have been identified in posterior regions and the hippocampus [10,11,15]. Numerous fMRI and PET studies suggest that regions beyond the hippocampus and posterior brain regions play an important role for LTM processing [16,17,18]. In this study we have investigated whether gamma activity related to LTM can be identified in frontal regions

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