Suchergebnisse
UB Katalog
Artikel & mehr
Suchmaske
Suchergebnisse einschränken oder erweitern
Aktive Suchfilter
Weniger Treffer
Gefunden in
Art der Quelle
Schlagwort
- medial forebrain bundle 7 Treffer
- alzheimer's disease 5 Treffer
- deep brain stimulation 4 Treffer
- memory 4 Treffer
- prosencephalon 4 Treffer
-
42 weitere Werte:
- amygdala 3 Treffer
- arc 3 Treffer
- dbs 3 Treffer
- habenula 3 Treffer
- hippocampus 3 Treffer
- intracranial self-stimulation 3 Treffer
- neuromodulation 3 Treffer
- ppi 3 Treffer
- prepulse inhibition 3 Treffer
- reactive oxygen species 3 Treffer
- reward system 3 Treffer
- thalamus 3 Treffer
- activated microglia 2 Treffer
- amygdaloid body 2 Treffer
- axotomy 2 Treffer
- brain diseases 2 Treffer
- cognitive ability 2 Treffer
- comparative studies 2 Treffer
- computer-assisted surgery 2 Treffer
- electric stimulation 2 Treffer
- evaluation research 2 Treffer
- hippocampus (brain) 2 Treffer
- human research subjects 2 Treffer
- magnetic resonance imaging 2 Treffer
- medical cooperation 2 Treffer
- neural pathways 2 Treffer
- neurodegeneration 2 Treffer
- neuroglia 2 Treffer
- neurophysiology 2 Treffer
- research 2 Treffer
- research methodology 2 Treffer
- sensorimotor cortex 2 Treffer
- startle reaction 2 Treffer
- alzheimer disease 1 Treffer
- dopaminergic neurons 1 Treffer
- medial forebrain bundle (mfb) 1 Treffer
- microglia 1 Treffer
- nerve degeneration 1 Treffer
- neuronal plasticity 1 Treffer
- self stimulation 1 Treffer
- sensory gating 1 Treffer
- transcriptional activation 1 Treffer
Sprache
5 Treffer
-
Down-regulation of microglial activity attenuates axotomized nigral dopaminergic neuronal cell loss.In: BMC Neuroscience, Jg. 14 (2013-10-01), Heft 1, S. 1-13Online academicJournalZugriff:
-
In: BMC Neuroscience, Jg. 20 (2019-04-29), Heft 1Online academicJournalZugriff:
-
In: BMC Neuroscience, Jg. 19 (2018-08-08), Heft 1Online academicJournalZugriff:
-
In: BMC Neuroscience, Jg. 19 (2018-08-08), Heft 1, S. N.PAGOnline academicJournalZugriff:
-
Down-regulation of microglial activity attenuates axotomized nigral dopaminergic neuronal cell loss.In: BMC Neuroscience, Jg. 14 (2013), Heft 1, S. 112-112Online academicJournalZugriff: