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@ARTICLE{Walter:912519,
author = {Walter, Helene Luise and Pikhovych, Anton and Endepols,
Heike and Rotthues, Steffen and Bärmann, Johannes and
Backes, Heiko and Hoehn, Mathias and Wiedermann, Dirk and
Neumaier, Bernd and Fink, Gereon Rudolf and Rueger, Maria
Adele and Schroeter, Michael},
title = {{T}ranscranial-{D}irect-{C}urrent-{S}timulation
{A}ccelerates {M}otor {R}ecovery {A}fter {C}ortical
{I}nfarction in {M}ice: {T}he {I}nterplay of {S}tructural
{C}ellular {R}esponses and {F}unctional {R}ecovery},
journal = {Neurorehabilitation and neural repair},
volume = {36},
number = {10-11},
issn = {0888-4390},
address = {Thousand Oaks, Calif.},
publisher = {Sage},
reportid = {FZJ-2022-05692},
pages = {701 - 714},
year = {2022},
note = {post print angefragt am 07.12. Kein Post-print vorhanden},
abstract = {Background: Transcranial direct current stimulation (tDCS)
promotes recovery after stroke in humans. The underlying
mechanisms, however, remain to be elucidated. Animal models
suggest tDCS effects on neuroinflammation, stem cell
proliferation, neurogenesis, and neural
plasticity.Objective: In a longitudinal study, we employed
tDCS in the subacute and chronic phase after experimental
focal cerebral ischemia in mice to explore the relationship
between functional recovery and cellular processes.Methods:
Mice received photothrombosis in the right motor cortex,
verified by Magnetic Resonance Imaging. A composite
neuroscore quantified subsequent functional deficits. Mice
received tDCS daily: either 5 sessions from day 5 to 9, or
10 sessions with days 12 to 16 in addition. TDCS with anodal
or cathodal polarity was compared to sham stimulation.
Further imaging to assess proliferation and
neuroinflammation was performed by immunohistochemistry at
different time points and Positron Emission Tomography at
the end of the observation time of 3 weeks.Results: Cathodal
tDCS at 198 kC/m<sup>2</sup> (220 A/m<sup>2</sup>) between
days 5 and 9 accelerated functional recovery, increased
neurogenesis, decreased microglial activation, and mitigated
CD16/32-expression associated with M1-phenotype. Anodal tDCS
exerted similar effects on neurogenesis and microglial
polarization but not on recovery of function or microglial
activation. TDCS on days 12 to 16 after stroke did not
induce any further effects, suggesting that the therapeutic
time window was closed by then.Conclusion: Overall, data
suggest that non-invasive neuromodulation by tDCS impacts
neurogenesis and microglial activation as critical cellular
processes influencing functional recovery during the early
phase of regeneration from focal cerebral ischemia.Keywords:
experimental stroke; functional recovery; microglia;
photothrombosis; tDCS.},
cin = {INM-3},
ddc = {610},
cid = {I:(DE-Juel1)INM-3-20090406},
pnm = {5251 - Multilevel Brain Organization and Variability
(POF4-525)},
pid = {G:(DE-HGF)POF4-5251},
typ = {PUB:(DE-HGF)16},
pubmed = {36124996},
UT = {WOS:000857964900001},
doi = {10.1177/15459683221124116},
url = {https://juser.fz-juelich.de/record/912519},
}
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