Neural oscillations associated with the primacy and recency effects of verbal working memory

Massoud Stephane; Nuri F. Ince; Michael Kuskowski; Arthur Leuthold; Ahmed H. Tewfik; Katie Nelson; Kate McClannahan; Charles R. Fletcher; Vijay Aditya Tadipatri

doi:10.1016/j.neulet.2010.02.025

Neural oscillations associated with the primacy and recency effects of verbal working memory

Massoud Stephane, Nuri F. Ince, Michael Kuskowski, Arthur Leuthold, Ahmed H. Tewfik, Katie Nelson, Kate McClannahan, Charles R. Fletcher, Vijay Aditya Tadipatri

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

13 Scopus citations

Abstract

For sequential information, the first (primacy) and last (recency) items are better remembered than items in the middle of the sequence. The cognitive operations and neural correlates for the primacy and recency effects are unclear. In this paper, we investigate brain oscillations associated with these effects. MEG recordings were obtained on 19 subjects performing a modified Sternberg paradigm. Correlation analyses were performed between brain oscillatory activity and primacy and recency indices. Oscillatory activity during information maintenance, not encoding, was correlated with the primacy and recency effects. The primacy effect was associated with occipital post-desynchrony, and temporal post-synchrony. The recency effect was associated with parietal and temporal desynchrony. Differences were also observed according to the maintenance strategy. These data indicate that the primacy and recency effects are related to different neural, and likely cognitive, operations that are dependant on the strategy for information maintenance.

Original language	English
Pages (from-to)	172-177
Number of pages	6
Journal	Neuroscience Letters
Volume	473
Issue number	3
DOIs	https://doi.org/10.1016/j.neulet.2010.02.025
State	Published - Apr 2010

Keywords

MEG
Oscillations
Primacy effect
Recency effect
Working memory

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10.1016/j.neulet.2010.02.025

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title = "Neural oscillations associated with the primacy and recency effects of verbal working memory",

abstract = "For sequential information, the first (primacy) and last (recency) items are better remembered than items in the middle of the sequence. The cognitive operations and neural correlates for the primacy and recency effects are unclear. In this paper, we investigate brain oscillations associated with these effects. MEG recordings were obtained on 19 subjects performing a modified Sternberg paradigm. Correlation analyses were performed between brain oscillatory activity and primacy and recency indices. Oscillatory activity during information maintenance, not encoding, was correlated with the primacy and recency effects. The primacy effect was associated with occipital post-desynchrony, and temporal post-synchrony. The recency effect was associated with parietal and temporal desynchrony. Differences were also observed according to the maintenance strategy. These data indicate that the primacy and recency effects are related to different neural, and likely cognitive, operations that are dependant on the strategy for information maintenance.",

keywords = "MEG, Oscillations, Primacy effect, Recency effect, Working memory",

author = "Massoud Stephane and Ince, {Nuri F.} and Michael Kuskowski and Arthur Leuthold and Tewfik, {Ahmed H.} and Katie Nelson and Kate McClannahan and Fletcher, {Charles R.} and Tadipatri, {Vijay Aditya}",

note = "Funding Information: Supported by grants from the VA Medical Center, the MIND institute, and Martha and William Muska Foundation. ",

year = "2010",

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doi = "10.1016/j.neulet.2010.02.025",

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volume = "473",

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journal = "Neuroscience Letters",

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AU - Stephane, Massoud

AU - Ince, Nuri F.

AU - Kuskowski, Michael

AU - Leuthold, Arthur

AU - Tewfik, Ahmed H.

AU - Nelson, Katie

AU - McClannahan, Kate

AU - Fletcher, Charles R.

AU - Tadipatri, Vijay Aditya

N1 - Funding Information: Supported by grants from the VA Medical Center, the MIND institute, and Martha and William Muska Foundation.

PY - 2010/4

Y1 - 2010/4

N2 - For sequential information, the first (primacy) and last (recency) items are better remembered than items in the middle of the sequence. The cognitive operations and neural correlates for the primacy and recency effects are unclear. In this paper, we investigate brain oscillations associated with these effects. MEG recordings were obtained on 19 subjects performing a modified Sternberg paradigm. Correlation analyses were performed between brain oscillatory activity and primacy and recency indices. Oscillatory activity during information maintenance, not encoding, was correlated with the primacy and recency effects. The primacy effect was associated with occipital post-desynchrony, and temporal post-synchrony. The recency effect was associated with parietal and temporal desynchrony. Differences were also observed according to the maintenance strategy. These data indicate that the primacy and recency effects are related to different neural, and likely cognitive, operations that are dependant on the strategy for information maintenance.

AB - For sequential information, the first (primacy) and last (recency) items are better remembered than items in the middle of the sequence. The cognitive operations and neural correlates for the primacy and recency effects are unclear. In this paper, we investigate brain oscillations associated with these effects. MEG recordings were obtained on 19 subjects performing a modified Sternberg paradigm. Correlation analyses were performed between brain oscillatory activity and primacy and recency indices. Oscillatory activity during information maintenance, not encoding, was correlated with the primacy and recency effects. The primacy effect was associated with occipital post-desynchrony, and temporal post-synchrony. The recency effect was associated with parietal and temporal desynchrony. Differences were also observed according to the maintenance strategy. These data indicate that the primacy and recency effects are related to different neural, and likely cognitive, operations that are dependant on the strategy for information maintenance.

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KW - Working memory

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Neural oscillations associated with the primacy and recency effects of verbal working memory

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Keywords

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