This animal study tested whether short-term 28 GHz (5G-band) millimeter-wave exposure modifies doxorubicin-induced cardiotoxicity in male rats and whether vitamin C mitigates effects. Co-exposure to 28 GHz EMR was reported to worsen several indices of DOX-related cardiac injury (including CAT reduction, increased BAX expression, and QT prolongation), while vitamin C provided partial attenuation. The authors emphasize that results are limited to a short-duration preclinical model and that human relevance remains preliminary.

This case-control genetic association study in men from West Bengal, India examined variants in meiotic regulator genes (SPO11, RNF212, SYCP3) alongside reported exposure to electronic (electromagnetic) radiation as risk factors for azoospermia. It reports that genetic variants were associated with increased azoospermia risk, and that risk was higher among men aged 30+ who were also exposed to electromagnetic radiation. The authors conclude that EMF exposure may exacerbate fertility impairment in genetically predisposed men.

This animal study exposed mice to 2.45 GHz electromagnetic fields daily for up to 5 months and assessed liver effects using serum tests, lipidomics, histology, and single-cell/spatiotemporal transcriptomics. The authors report that hepatic cell types differed in sensitivity, with hepatocytes, endothelial cells, and monocytes showing notable transcriptomic disruptions. Reported changes involved lipid metabolism and immune regulation and were spatially enriched in peri-portal liver regions. The authors frame the findings as evidence of significant biological impacts on the liver from long-term EMF exposure.

This animal study exposed adult male C57BL/6 mice to a 4.9 GHz radiofrequency field for three weeks (1 hour/day) and compared them with a sham group. The abstract reports altered fecal microbiome composition with reduced diversity in the RF group, along with 258 significantly differentially abundant fecal metabolites. The authors conclude that 4.9 GHz RF exposure is associated with changes in gut microbiota and metabolic profiles and call for further EMF safety research.