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Neural Dynamics of Visual Stream Interactions During Memory-Guided Actions Investigated by Intracranial EEG
S. Moraresku, J. Hammer, V. Dimakopoulos, M. Kajsova, R. Janca, P. Jezdik, A. Kalina, P. Marusic, K. Vlcek
Jazyk angličtina Země Singapur
Typ dokumentu časopisecké články
NLK
PubMed Central
od 2007 do Před 1 rokem
Europe PubMed Central
od 2007 do Před 1 rokem
Medline Complete (EBSCOhost)
od 2007-01-01 do Před 1 rokem
- MeSH
- dospělí MeSH
- elektroencefalografie MeSH
- elektrokortikografie MeSH
- hipokampus * fyziologie MeSH
- lidé MeSH
- mladý dospělý MeSH
- paměť * fyziologie MeSH
- spánkový lalok * fyziologie MeSH
- temenní lalok * fyziologie MeSH
- zraková percepce * fyziologie MeSH
- zrakové dráhy * fyziologie MeSH
- Check Tag
- dospělí MeSH
- lidé MeSH
- mladý dospělý MeSH
- mužské pohlaví MeSH
- ženské pohlaví MeSH
- Publikační typ
- časopisecké články MeSH
The dorsal and ventral visual streams have been considered to play distinct roles in visual processing for action: the dorsal stream is assumed to support real-time actions, while the ventral stream facilitates memory-guided actions. However, recent evidence suggests a more integrated function of these streams. We investigated the neural dynamics and functional connectivity between them during memory-guided actions using intracranial EEG. We tracked neural activity in the inferior parietal lobule in the dorsal stream, and the ventral temporal cortex in the ventral stream as well as the hippocampus during a delayed action task involving object identity and location memory. We found increased alpha power in both streams during the delay, indicating their role in maintaining spatial visual information. In addition, we recorded increased alpha power in the hippocampus during the delay, but only when both object identity and location needed to be remembered. We also recorded an increase in theta band phase synchronization between the inferior parietal lobule and ventral temporal cortex and between the inferior parietal lobule and hippocampus during the encoding and delay. Granger causality analysis indicated dynamic and frequency-specific directional interactions among the inferior parietal lobule, ventral temporal cortex, and hippocampus that varied across task phases. Our study provides unique electrophysiological evidence for close interactions between dorsal and ventral streams, supporting an integrated processing model in which both streams contribute to memory-guided actions.
3rd Faculty of Medicine Charles University Prague Czechia
Klinik für Neurochirurgie Universitätsspital Zürich Universität Zürich Zurich Switzerland
Citace poskytuje Crossref.org
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- $a Moraresku, Sofiia $u Laboratory of Neurophysiology of Memory, Institute of Physiology, Czech Academy of Sciences, Prague, Czechia. sofiia.moraresku@fgu.cas.cz $u Third Faculty of Medicine, Charles University, Prague, Czechia. sofiia.moraresku@fgu.cas.cz $1 https://orcid.org/0000000323789377
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- $a The dorsal and ventral visual streams have been considered to play distinct roles in visual processing for action: the dorsal stream is assumed to support real-time actions, while the ventral stream facilitates memory-guided actions. However, recent evidence suggests a more integrated function of these streams. We investigated the neural dynamics and functional connectivity between them during memory-guided actions using intracranial EEG. We tracked neural activity in the inferior parietal lobule in the dorsal stream, and the ventral temporal cortex in the ventral stream as well as the hippocampus during a delayed action task involving object identity and location memory. We found increased alpha power in both streams during the delay, indicating their role in maintaining spatial visual information. In addition, we recorded increased alpha power in the hippocampus during the delay, but only when both object identity and location needed to be remembered. We also recorded an increase in theta band phase synchronization between the inferior parietal lobule and ventral temporal cortex and between the inferior parietal lobule and hippocampus during the encoding and delay. Granger causality analysis indicated dynamic and frequency-specific directional interactions among the inferior parietal lobule, ventral temporal cortex, and hippocampus that varied across task phases. Our study provides unique electrophysiological evidence for close interactions between dorsal and ventral streams, supporting an integrated processing model in which both streams contribute to memory-guided actions.
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