This review argues that EMF exposure is associated in the literature with several adverse central nervous system outcomes, including blood-brain barrier disruption, oxidative stress, neurotransmitter changes, cognitive effects, and neurodevelopmental impacts. It reports that evidence on EMFs and brain tumors is conflicting, while noting WHO’s classification of radiofrequency EMFs as possibly carcinogenic to humans. The authors highlight prenatal and childhood periods as potentially more vulnerable and call for more standardized long-term and mechanistic research to guide public health policy.

This paper evaluates and critiques 12 WHO-commissioned systematic reviews and meta-analyses on RF-EMF health effects across outcomes including cancer and reproductive endpoints. It argues that serious methodological flaws and limitations in the WHO reviews prevent them from providing assurance of safety for cell phones and other wireless devices. The authors highlight reported evidence in the animal cancer review (high certainty for heart schwannomas; moderate certainty for brain gliomas) and describe dose-related adverse effects on male fertility and reproductive outcomes, including at exposure levels below current ICNIRP thresholds.

This article summarizes a webinar series and frames pesticides and wireless radiation as concurrent environmental health crises affecting ecosystems and public health. It asserts that evidence is building for adverse effects of EMF/wireless radiation in humans, animals, and bees, including “high-certainty links” between RF radiation and tumors in brain and heart nerves. It also suggests potential synergy between chemical and EMF exposures impacting bee hive productivity and argues for precautionary policy and stronger exposure guidelines.

This animal study examined continual 2.4 GHz Wi‑Fi exposure (200–500 μW/m²) during 9 days of chicken embryo incubation and assessed the mesonephros at day 9. The authors report no adverse effects on general mesonephros development, but describe moderate degenerative changes and vascular congestion without inflammatory infiltrate. They also report significantly increased apoptotic and proliferating cells and up-regulation of caspase‑1 gene expression, interpreted as disruption of regulatory processes during development.

This narrative review argues that non-thermal biological effects of extremely low and microwave frequency EMFs may be mediated by activation of voltage-gated calcium channels (VGCCs). It cites 23 studies in which VGCC blockers reportedly block or reduce diverse EMF effects and proposes downstream Ca2+/calmodulin-dependent nitric oxide signaling. The review discusses both potential therapeutic effects (e.g., bone growth stimulation) and potential adverse effects via oxidative stress pathways, including a reviewed example of DNA single-strand breaks.