Mechanism first explanation of how the plasma membrane potential controls immune responses
Independent Voices
RF Safe
Nov 4, 2025
An RF Safe article argues that plasma membrane potential (Vm) is a key control variable for immune cell behavior by shaping ion driving forces, especially Ca2+ influx through CRAC channels and K+ channel–mediated hyperpolarization. It describes proposed links between Vm-regulated ion flux and downstream immune…
External low energy electromagnetic fields affect heart dynamics: surrogate for system synchronization, chaos control and cancer patient's health.
Research
RF Safe Research Library
Jan 1, 2024
This paper discusses how low-energy, specifically modulated electromagnetic fields delivered via an active closed-loop medical device may temporarily alter plasma membrane ionic flow and heart oscillation dynamics. It frames heart rate dynamics as a surrogate for systemic synchronization/entrainment and suggests…
Electromagnetic Fields Act Similarly in Plants as in Animals: Probable Activation of Calcium Channels via Their Voltage Sensor
Research
RF Safe Research Library
Jan 1, 2016
This narrative review proposes that low-intensity microwave/lower-frequency EMFs activate plasma membrane calcium channels in animals, increasing intracellular calcium and triggering downstream signaling including oxidative stress pathways. It further suggests that EMF actions in terrestrial multicellular plants are…
Critical electric field strengths of onion tissues treated by pulsed electric fields.
Research
RF Safe Research Library
Jan 1, 2010
This experimental study examined how pulsed electric fields affect onion tissue integrity and texture across different field strengths and pulse counts. It reports distinct critical field strengths for plasma membrane versus tonoplast membrane breakdown, with higher thresholds needed for tonoplast disruption. Effects…