Unified Visual Working Memory without the Anterior Corpus Callosum

Autor:	Gabriele Polonara, Sabrina Siliquini, Mara Fabri, Simona Lattanzi, Yair Pinto, Nicoletta Foschi, Maria-Chiara Villa, Edward H.F. de Haan, Claudia Passamonti
Přispěvatelé:	Brein en Cognitie (Psychologie, FMG)
Rok vydání:	2020
Předmět:	Physics and Astronomy (miscellaneous) General Mathematics Corpus callosum working memory 050105 experimental psychology Memorization corpus callosum 03 medical and health sciences 0302 clinical medicine Visual memory Cortex (anatomy) Computer Science (miscellaneous) medicine 0501 psychology and cognitive sciences split-brain Working memory lcsh:Mathematics 05 social sciences Split-brain Cognition Human brain lcsh:QA1-939 attention medicine.anatomical_structure Chemistry (miscellaneous) visual memory Psychology 030217 neurology & neurosurgery Cognitive psychology
Zdroj:	Symmetry Volume 12 Issue 12 Symmetry, Vol 12, Iss 2106, p 2106 (2020) Symmetry, 12(12):2106. MDPI
ISSN:	2073-8994
DOI:	10.3390/sym12122106
Popis:	One of the most fundamental, and most studied, human cognitive functions is working memory. Yet, it is currently unknown how working memory is unified. In other words, why does a healthy human brain have one integrated capacity of working memory, rather than one capacity per visual hemifield, for instance. Thus, healthy subjects can memorize roughly as many items, regardless of whether all items are presented in one hemifield, rather than throughout two visual hemifields. In this current research, we investigated two patients in whom either most, or the entire, corpus callosum has been cut to alleviate otherwise untreatable epilepsy. Crucially, in both patients the anterior parts connecting the frontal and most of the parietal cortices, are entirely removed. This is essential, since it is often posited that working memory resides in these areas of the cortex. We found that despite the lack of direct connections between the frontal cortices in these patients, working memory capacity is similar regardless of whether stimuli are all presented in one visual hemifield or across two visual hemifields. This indicates that in the absence of the anterior parts of the corpus callosum working memory remains unified. Moreover, it is important to note that memory performance was not similar across visual fields. In fact, capacity was higher when items appeared in the left visual hemifield than when they appeared in the right visual hemifield. Visual information in the left hemifield is processed by the right hemisphere and vice versa. Therefore, this indicates that visual working memory is not symmetric, with the right hemisphere having a superior visual working memory. Nonetheless, a (subcortical) bottleneck apparently causes visual working memory to be integrated, such that capacity does not increase when items are presented in two, rather than one, visual hemifield.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::239e4fb5bb44f9ab9e157b06a11c7a54 https://doi.org/10.3390/sym12122106 Zobrazit plný text záznamu Plný text ve formátu PDF Plný text ve formátu HTML
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