Archive
7 postsInhibition of mitochondrial NADH:ubiquinone oxidoreductase by spinning oscillating magnetic fields causes toxicity in cancer cells
This in vitro study examines a spinning oscillating magnetic field (sOMF) generated by an Oncomagnetic device and reports selective toxicity in glioma cancer cells. The abstract attributes effects to ROS-dependent inhibition of mitochondrial complex I, with downstream oxidative stress, DNA damage, cell-cycle arrest, and apoptosis. It also reports no similar toxic effects in normal human astrocytes/astroglial cells under the studied conditions.
Causal relationship between duration of mobile phone use and risk of aneurysmal subarachnoid hemorrhage: A 2-sample Mendelian randomization analysis
This two-sample Mendelian randomization study examined whether duration of mobile phone use is causally related to aneurysmal subarachnoid hemorrhage using large European GWAS datasets. The primary MR analysis reported that excessive duration of mobile phone use was associated with higher aSAH risk, and sensitivity analyses were described as supportive. The authors conclude the findings have potential clinical, public health, and policy implications.
Electromagnetic Field Stimulation Effects on Intrinsically Disordered Proteins and Their Role in Aging and Neurodegeneration
This review discusses preclinical studies suggesting non-ionizing EMF exposures can produce beneficial biological effects, while noting ongoing controversy about mechanisms. It reports evidence of EMF-associated conformational changes in intrinsically disordered proteins relevant to neurodegeneration and describes RF exposure conditions that activate proteostasis and autophagy in cell and animal models. The authors propose a quantum-biophysical framework involving the water-protein interface and suggest potential human applications within regulatory safety thresholds.
Electromagnetic fields from mobile phones: A risk for maintaining energy homeostasis?
This narrative review discusses low-intensity RF-EMF exposure, primarily from mobile phones, with a focus on thermoregulation and energy homeostasis. It reports that many rodent studies at 900 MHz describe cold-like thermoregulatory and behavioral responses and molecular findings suggestive of WAT browning, while BAT transcriptional changes typical of cold exposure were not observed. The authors indicate short-term adaptations may not disrupt homeostasis, but emphasize uncertainty about long-term consequences and call for further research, including at 5G-relevant frequencies.
Impact of a Terahertz electromagnetic field on the ion permeation of potassium and sodium channels
This biophysics study used molecular dynamics simulations to examine how terahertz electromagnetic fields affect ion permeation in voltage-gated potassium (Kv1.2) and sodium (Nav1.5) channels. The simulations report increased ion permeability at several specific terahertz frequencies, with effects depending on field frequency and direction and increasing with field amplitude. The authors frame these results as evidence of specific EMF–ion channel interactions with potential health relevance and possible biomedical applications.
Extremely low frequency magnetic field distracts zebrafish from a visual cognitive task
This animal study trained adult zebrafish to perform a conditioned avoidance response to a visual cue. The visual cue was presented alone or together with an extremely low frequency sinusoidally changing magnetic field (0.3 Hz) at 0.015 mT or 0.06 mT. The abstract reports that the 0.06 mT magnetic field condition impaired learning performance and response behavior, suggesting a cross-modal distraction effect.
Effects of moderate static magnetic fields on voltage-gated potassium ion channels in sympathetic neuron-like PC12 cells
This in vitro study examined effects of moderate static magnetic field exposure on sympathetic neuron-like PC12 cells. The authors report a significant reduction in voltage-gated potassium (Kv) channel current density after 18 hours of exposure, with the reduction persisting after the field was removed. RNA sequencing identified 37 SMF-sensitive genes and pathway analyses suggested upregulation of signaling associated with reduced neuronal excitability.