Effects of Simultaneous In-Vitro Exposure to 5G-Modulated 3.5 GHz and GSM-Modulated 1.8 GHz Radio-Frequency Electromagnetic Fields on Neuronal Network Electrical Activity and Cellular Stress in Skin Fibroblast Cells
Research
RF Safe Research Library
Jan 1, 2025
This in-vitro study exposed primary cortical neurons and human immortalized skin fibroblasts to simultaneous 5G-modulated 3.5 GHz and GSM-modulated 1.8 GHz RF-EMF at SARs of 1 or 4 W/kg. It reports no significant changes in neuronal network firing/bursting activity and no alteration of mitochondrial ROS in…
Variations of the spontaneous electrical activities of the neuronal networks imposed by the exposure of electromagnetic radiations using computational map-based modeling.
Research
RF Safe Research Library
Jan 1, 2023
This computational neuroscience study models a ring of three coupled Rulkov neurons to examine how electromagnetic induction may change spontaneous neuronal network activity. The abstract reports that magnetic field effects depend on the network’s initial dynamical regime and synaptic strength, including elimination…
Synchronization of neuron population subject to steady DC electric field induced by magnetic stimulation.
Research
RF Safe Research Library
Jan 1, 2013
This paper investigates, in an interneuronal network model, how a steady DC electric field induced by magnetic stimulation affects network coherence and synchronization. The authors report that coherence can exhibit a peak or plateau across a defined range of induced field values. Effects varied by network topology…