Does cross‐frequency phase coupling of oscillatory brain activity contribute to a better understanding of visual working memory?

Sauseng, Paul; Peylo, Charline; Biel, Anna Lena; Friedrich, Elisabeth V. C.; Romberg‐Taylor, Carola

doi:10.1111/bjop.12340

Cited by 38 publications

(30 citation statements)

References 42 publications

(81 reference statements)

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“…In contrast, theta-gamma coupling during working memory is mostly observed in frontal regions ( [122,129]; though see [39]) and mainly during nonvisual or sequential working memory involving multiple representations [79,130]. This segmentation function seems similar to the function of delta-alpha coupling discussed here.…”

Section: Involvement Of Other Frequency Bandssupporting

confidence: 67%

Oscillatory Control over Representational States in Working Memory

Vries

Slagter

Olivers

2020

Trends in Cognitive Sciences

133

120

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Section: Involvement Of Other Frequency Bandssupporting

confidence: 67%

Oscillatory Control over Representational States in Working Memory

Vries

Slagter

Olivers

2020

Trends in Cognitive Sciences

133

120

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“…Our findings do not exclude instances of PPC in event‐related data recorded during cognitive paradigms (for overviews, see for instance, Palva & Palva, ; Sauseng et al, ). Moreover, it is possible that PPC is related to the occurrence of grapho‐elements during sleep (e.g.…”

Section: Discussioncontrasting

confidence: 64%

“…Theta‐gamma PPC, for instance, may support the representation of items in working memory and the transfer of these representations to long‐term memory (e.g. Jensen & Lisman, ; Lisman & Idiart, ; Sauseng, Peylo, Biel, Friedrich, & Romberg‐Taylor, ). Compared to phase‐amplitude coupling, the higher temporal precision of PPC may be necessary for a non‐interfering representation of multiple items (Fell & Axmacher, ).…”

Section: Introductionmentioning

confidence: 99%

No evidence for spontaneous cross‐frequency phase–phase coupling in the human hippocampus

Rings

Cox

Rüber

et al. 2019

Eur J of Neuroscience

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Cross‐frequency phase–phase coupling (PPC) has been suggested to play a role in cognitive processing and, in particular, in memory consolidation during sleep. Controversial results have been reported regarding the existence of spontaneous phase–phase coupling in the hippocampus. Here, we investigated this phenomenon in intracranial EEG recordings from the human hippocampus acquired during waking state and different sleep stages. We estimated the strength of interactions between different pairs of frequency bands and evaluated the statistical significance of findings using surrogates that build on different null hypotheses. Indications for spontaneous phase–phase coupling were only observed when testing with less rigorous surrogates. When requiring that all four surrogate tests be passed, however, there were no significant indications for phase–phase coupling. In conclusion, we did not detect evidence for spontaneous cross‐frequency phase–phase coupling in the human hippocampus.

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“…The past 20–30 years have seen a surge of interest in visual working memory (VWM), and it has become a lively field with many, often overlapping, topics of investigation (and debate) concerning: whether VWM is limited by the number of items that can be held (Adam, Vogel, & Awh, ; Cowan, ; Luck & Vogel, ) or by the distribution of a flexible resource (Bays, Catalao, & Husain, ; van den Berg, Shin, Chou, George, & Ma, ); whether representation in VWM is object‐based and how features are retained bound in VWM (see Schneegans & Bays, this issue, for a review); how structure and redundancy in to‐be‐remembered material influences performance (Brady & Alvarez, ; Liesefeld, Liesefeld, & Müller, this issue; Morey, this issue); to what extent storage of visual material occurs separately from storage of other material (Berggren & Eimer, this issue; Logie, ; Morey, ); what role VWM plays in real‐world looking behaviour and visual search (Annac, Zang, Müller, & Geyer, this issue; Berggren & Eimer, this issue; Pollmann, this issue); and questions about the neurobiology underlying VWM (for a review of oscillatory underpinnings, see Sauseng, Peylo, Biel, Friedrich, & Romberg‐Taylor, this issue) and what factors influence its capacity, such as the emotional valence of items (Curby, Smith, Moerel, & Dyson, this issue) or exercise (Dodwell, Müller, & Töllner, this issue).…”

Section: Introductionmentioning

confidence: 99%

Flexible representations in visual working memory and interactions with long‐term learning: Commentary on the special issue

Rhodes

Cowan

2019

British J of Psychology

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This special issue of the British Journal of Psychology brings together cutting edge research on a range of topics in visual working memory (VWM). In this commentary, we attempt to summarize common themes in current VWM research exemplified in this issue. The articles include several reviews of important topics as well as empirical papers covering three main themes. The first concerns the nature of mental representations of memoranda in the commonly used delayed estimation task, where both fine-grained and broad categorical details appear to be represented, and their susceptibility to interference. The second concerns interactions between VWM representations, both those that produce individuation of representations and those that create an overarching ensemble structure. Finally, the third main topic concerns the use of VWM during visual search and in the learning of repeated configurations in search displays. The work presented here, and other work in the field, points to a rich interplay between representations in VWM but also between VWM and information in long-term memory. Opportunities for further investigation are highlighted throughout.

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Does cross‐frequency phase coupling of oscillatory brain activity contribute to a better understanding of visual working memory?

Cited by 38 publications

References 42 publications

Oscillatory Control over Representational States in Working Memory

Oscillatory Control over Representational States in Working Memory

No evidence for spontaneous cross‐frequency phase–phase coupling in the human hippocampus

Flexible representations in visual working memory and interactions with long‐term learning: Commentary on the special issue

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