Extremely low-frequency electromagnetic fields facilitate proliferation and functional differentiation in spinal neural stem cells.
Research
RF Safe Research Library
Jan 1, 2025
This in vitro study examined extremely low-frequency electromagnetic field (ELF-EMF) effects on spinal cord-derived neural stem cells (NSCs) from adult mice. The authors report that ELF-EMFs increase NSC proliferation and self-renewal with upregulation of Sox2. They also report activation of T-type calcium channels,…
Exposure to Radiofrequency Induces Synaptic Dysfunction in Cortical Neurons Causing Learning and Memory Alteration in Early Postnatal Mice.
Research
RF Safe Research Library
Jan 1, 2024
This animal study examined 1850 MHz RF-EMF exposure (SAR 4.0 W/kg) in early postnatal mice and assessed synaptic and behavioral outcomes. The abstract reports reductions in dendritic spine maturation markers, decreases in PSD-95 puncta, inhibited neurite outgrowth, and downregulation of synapse-related genes in…
Exposure to RF-EMF Alters Postsynaptic Structure and Hinders Neurite Outgrowth in Developing Hippocampal Neurons of Early Postnatal Mice.
Research
RF Safe Research Library
Jan 1, 2021
This animal and primary neuron culture study exposed early postnatal mice to whole-body RF-EMF (SAR 4.0 W/kg) for 5 hours/day from P1 to P28. The authors report reductions in dendritic spine measures (notably mushroom-type spines), decreased glutamate receptor expression in mushroom-type spines, and lower BDNF…
Stable morphological-physiological and neural protein expression changes in rat bone marrow mesenchymal stem cells treated with electromagnetic field and nitric oxide.
Research
RF Safe Research Library
Jan 1, 2017
This in vitro study evaluated combined effects of extremely low frequency EMF (50 Hz, 20 mT) and nitric oxide (NO) on rat bone marrow mesenchymal stem cells. The authors report reduced viability and morphology changes with high NO in the presence of EMF, along with increased calcium ion entry. They also report…
Electric field-induced astrocyte alignment directs neurite outgrowth.
Research
RF Safe Research Library
Jan 1, 2006
This in vitro study examined whether astrocyte alignment induced by an applied electric field influences neurite outgrowth. Astrocytes were pre-aligned using a physiological-strength electric field (500 mV mm(-1)), and dorsal root ganglia cells were then seeded onto them. Neurite outgrowth at 24 and 48 hours was…