This policy-focused paper contends that U.S. oversight of radiofrequency radiation from wireless technologies is outdated and insufficient, with exposure limits and testing approaches not aligned with modern long-term, chronic exposure scenarios. It emphasizes gaps in protections for children, pregnancy, vulnerable populations, workers, and wildlife, and describes limited monitoring, research, and enforcement capacity. The author proposes reforms to improve independent research, science-based limits, surveillance, and regulatory transparency.

This occupational study compared oxidative stress biomarkers across four groups: control, noise-only, ELF-EMF-only, and combined noise plus ELF-EMF exposure in power plant workers. The combined exposure group showed higher lipid peroxidation (MDA) and lower antioxidant-related measures (GSH and TAC) versus controls, while SOD activity was reduced in the noise-only and combined groups. The authors interpret these findings as evidence linking concurrent noise and ELF-EMF exposure with increased oxidative stress and call for further research and occupational safety guidance.

This laboratory study examined whether a 900 MHz radiofrequency electromagnetic field (RF-EMF) influences the behavior of newly emerged honey bee workers. Compared with controls, the exposed groups showed behavioral changes, with some parameters showing statistically significant differences seven days after exposure. The authors frame RF-EMF as a potential environmental stressor and call for further research, including gene expression analyses.

This occupational epidemiology study used machine learning to evaluate whether workplace exposures (including magnetic and electric fields, vibration, noise, and heat stress) predict male reproductive indicators in 80 workers. The models and explainable AI outputs highlighted magnetic and electric field exposures and age as key predictors linked to lower free testosterone. The authors also report a 10-year forecast identifying electric field exposure as the most important long-term risk factor.

This cross-sectional epidemiologic study enrolled 100 employees of an electricity company to assess whether occupational low-frequency electromagnetic field exposure is associated with cataract development. Cataract frequency was higher in exposed versus non-exposed groups, and nuclear opacity grading differed significantly between groups. Within exposed workers, nuclear and posterior subcapsular cataract grades were associated with longer work experience, suggesting occupational exposure may be a risk factor, particularly for nuclear cataracts.