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@ARTICLE{Worringer:862645,
author = {Worringer, Britta and Langner, Robert and Koch, Iring and
Eickhoff, Simon and Eickhoff, Claudia and Binkofski,
Ferdinand C.},
title = {{C}ommon and distinct neural correlates of dual-tasking and
task-switching: a meta-analytic review and a neuro-cognitive
processing model of human multitasking},
journal = {Brain structure $\&$ function},
volume = {224},
number = {5},
issn = {1863-2661},
address = {Heidelberg},
publisher = {Springer},
reportid = {FZJ-2019-02901},
pages = {1845–1869},
year = {2019},
note = {This study was supported by the Deutsche
Forschungsge-meinschaft (LA 3071/3-1 to R.L. and S.B.E.; EI
816/4-1 to S.B.E.), the National Institute of Mental Health
(R01-MH074457 to S.B.E.), the Helmholtz Portfolio Theme
“Supercomputing and Modeling for the Human Brain”
(S.B.E.), and the European Union Seventh Frame-work
Programme (FP7/2007-2013) under Grant agreement no. 604102
(S.B.E.).},
abstract = {Although there are well-known limitations of the human
cognitive system in performing two tasks simultaneously
(dual-tasking) or alternatingly (task-switching), the
question for a common vs. distinct neural basis of these
multitasking limitations is still open. We performed two
Activation Likelihood Estimation meta-analyses of
neuroimaging studies on dual-tasking or task-switching and
tested for commonalities and differences in the brain
regions associated with either domain. We found a common
core network related to multitasking comprising bilateral
intraparietal sulcus (IPS), left dorsal premotor cortex
(dPMC), and right anterior insula. Meta-analytic contrasts
revealed eight fronto-parietal clusters more consistently
activated in dual-tasking (bilateral frontal operculum,
dPMC, and anterior IPS, left inferior frontal sulcus and
left inferior frontal gyrus) and, conversely, four clusters
(left inferior frontal junction, posterior IPS, and
precuneus as well as frontomedial cortex) more consistently
activated in task-switching. Together with sub-analyses of
preparation effects in task-switching, our results argue
against purely passive structural processing limitations in
multitasking. Based on these findings and drawing on current
theorizing, we present a neuro-cognitive processing model of
multitasking.},
cin = {INM-7 / INM-1},
ddc = {610},
cid = {I:(DE-Juel1)INM-7-20090406 / I:(DE-Juel1)INM-1-20090406},
pnm = {571 - Connectivity and Activity (POF3-571) / SMHB -
Supercomputing and Modelling for the Human Brain
(HGF-SMHB-2013-2017) / HBP - The Human Brain Project
(604102)},
pid = {G:(DE-HGF)POF3-571 / G:(DE-Juel1)HGF-SMHB-2013-2017 /
G:(EU-Grant)604102},
typ = {PUB:(DE-HGF)16},
pubmed = {pmid:31037397},
UT = {WOS:000471236200011},
doi = {10.1007/s00429-019-01870-4},
url = {https://juser.fz-juelich.de/record/862645},
}
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