Comparison between low frequency magnetic field stimulation and nerve growth factor treatment of cultured chromaffin cells, on neurite growth, noradrenaline release, excitable properties, and grafting in nigrostriatal lesioned rats
med./bio.
[Vergleich zwischen niederfrequenter-Magnetfeldstimulation und Nervenwachstumsfaktor-Behandlung kultivierter Chromaffin Zellen, auf Neurit-Auswachsen, Noradrenalin-Auschüttung, Erregungseigenschaften und Pfropfen bei nigrostriatal geschädigten Ratten]
Von:
Drucker-Colin R, Verdugo-Diaz L, Mendez M, Carrillo-Ruiz J, Morgado-Valle C, Hernandez-Cruz A, Corkidi G
Gao Q et al.
(2021):
Extremely low frequency electromagnetic fields promote cognitive function and hippocampal neurogenesis of rats with cerebral ischemia
Cuccurazzu B et al.
(2010):
Exposure to extremely low-frequency (50 Hz) electromagnetic fields enhances adult hippocampal neurogenesis in C57BL/6 mice
Piacentini R et al.
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Extremely low-frequency electromagnetic fields promote in vitro neurogenesis via upregulation of Ca(v)1-channel activity
Benfante R et al.
(2008):
The expression of PHOX2A, PHOX2B and of their target gene dopamine-beta-hydroxylase (DbetaH) is not modified by exposure to extremely-low-frequency electromagnetic field (ELF-EMF) in a human neuronal model
Craviso GL et al.
(2003):
Catecholamine release from cultured bovine adrenal medullary chromaffin cells in the presence of 60-Hz magnetic fields
Rao RR et al.
(2002):
Effects of 60 Hz electromagnetic field exposure on APP695 transcription levels in differentiating human neuroblastoma cells
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