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@ARTICLE{Grefkes:9036,
author = {Grefkes, C. and Wang, L.E. and Eickhoff, S. B. and Fink, G.
R.},
title = {{N}oradrenergic {M}odulation of {C}ortical {N}etworks
{E}ngaged in {V}isuomotor {P}rocessing},
journal = {Cerebral cortex},
volume = {20},
issn = {1047-3211},
address = {Oxford},
publisher = {Oxford Univ. Press},
reportid = {PreJuSER-9036},
pages = {783 - 797},
year = {2010},
note = {Marie Curie Early Stage Training Programme "NovoBrain''
funded by the European Union to L. E. W.; Initiative and
Networking Fund of the Helmholtz Association within the
Helmholtz Alliance on Systems Biology to S. B. E.},
abstract = {Both animal and human data suggest that stimulation of the
noradrenergic system may influence neuronal excitability in
regions engaged in sensory processing and visuospatial
attention. We tested the hypothesis that the neural
mechanisms subserving motor performance in tasks relying on
the visuomotor control of goal-directed hand movements might
be modulated by noradrenergic influences. Healthy subjects
were stimulated using the selective noradrenaline reuptake
inhibitor reboxetine (RBX) in a placebo-controlled crossover
design. Functional magnetic resonance imaging and dynamic
causal modeling (DCM) were used to assess drug-related
changes in blood oxygen level-dependent activity and
interregional connectivity while subjects performed a
joystick task requiring goal-directed movements. Improved
task performance under RBX was associated with increased
activity in right visual, intraparietal and superior frontal
cortex (premotor/frontal eye field). DCM revealed that the
neuronal coupling among these regions was significantly
enhanced when subjects were stimulated with RBX.
Concurrently, right intraparietal cortex and right superior
frontal cortex exerted a stronger driving influence on
visuomotor areas of the left hemisphere, including SMA and
M1. These effects were independent from task difficulty. The
data suggest that stimulating noradrenergic mechanisms may
rearrange the functional network architecture within and
across the hemispheres, for example, by synaptic gating,
thereby optimizing motor behavior.},
keywords = {Adrenergic Uptake Inhibitors: pharmacology / Adult /
Analysis of Variance / Bayes Theorem / Brain Mapping /
Cerebral Cortex: blood supply / Cerebral Cortex: drug
effects / Cerebral Cortex: metabolism / Cerebral Cortex:
physiology / Double-Blind Method / Female / Functional
Laterality: drug effects / Humans / Image Processing,
Computer-Assisted: methods / Magnetic Resonance Imaging:
methods / Male / Models, Neurological / Morpholines:
pharmacology / Neural Pathways: blood supply / Neural
Pathways: drug effects / Neural Pathways: physiology /
Norepinephrine: metabolism / Oxygen: blood / Photic
Stimulation: methods / Psychomotor Performance: drug effects
/ Psychomotor Performance: physiology / Time Factors / Young
Adult / Adrenergic Uptake Inhibitors (NLM Chemicals) /
Morpholines (NLM Chemicals) / Norepinephrine (NLM Chemicals)
/ Oxygen (NLM Chemicals) / reboxetine (NLM Chemicals) / J
(WoSType)},
cin = {INM-2 / INM-3},
ddc = {610},
cid = {I:(DE-Juel1)INM-2-20090406 / I:(DE-Juel1)INM-3-20090406},
pnm = {Funktion und Dysfunktion des Nervensystems (FUEK409) /
89572 - (Dys-)function and Plasticity (POF2-89572)},
pid = {G:(DE-Juel1)FUEK409 / G:(DE-HGF)POF2-89572},
shelfmark = {Neurosciences},
typ = {PUB:(DE-HGF)16},
pubmed = {pmid:19687293},
UT = {WOS:000275566500003},
doi = {10.1093/cercor/bhp144},
url = {https://juser.fz-juelich.de/record/9036},
}
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