This scoping review and evidence map (PRISMA-ScR) summarizes over 500 studies on RF-EMF exposure and genotoxicity across in vitro, in vivo, and epidemiological research. The authors report a higher proportion of significant DNA damage findings in in vivo and epidemiological studies than in vitro studies, with DNA base damage commonly reported under real-world/pulsed/GSM talk-mode conditions and longer exposures. They conclude that DNA damage has been observed at exposure levels below ICNIRP limits and recommend precautionary measures and updates to guidelines to address potential non-thermal effects.

This cross-sectional study compared 183 higher-exposed residents with 126 matched reference residents and assessed symptoms via questionnaire alongside in-home RF-EMF power density measurements from mobile phone base stations. Higher exposure (including proximity within 50 m and power densities of 5–8 mW/m2) was reported to be associated with increased symptom prevalence across mood-energy, cognitive-sensory, inflammatory, and anatomical categories. The authors conclude that current public exposure limits may be inadequate for long-term, non-thermal biological impacts and call for precautionary policy updates.

This paper proposes a new methodology to better assess indoor RF-EMF exposure in buildings near telecommunication base station antennas by refining measurement-point selection. Implemented in four multi-storey buildings in Natal, Brazil, indoor electric field peaks and averages were reported to be substantially higher than ground-level measurements. Although the highest indoor levels remained below ICNIRP recommended limits, the authors argue current regulatory evaluation methods may underestimate indoor exposure in certain building locations.

This study simulated 1 g and 10 g peak spatial SAR (psSAR) in classroom settings where each student uses a Wi‑Fi laptop at 2.45 GHz and 100 mW. Maximum simulated psSAR values were reported to be below ICNIRP and IEEE recommended limits, but desk spacing and multi-user configurations could substantially increase psSAR compared with a single-user setup. The authors emphasize that long-term low-level exposure, particularly for children, remains a concern and recommend mitigation via increased spacing and wired connections.

This exposure assessment measured 20 kHz magnetic field leakage from induction cooking heaters across four models and compared results with ICNIRP general public limits. The maximum reported magnetic flux density was 16 µT at a specified measurement point using two S-type pans. Field leakage depended on pan size and configuration, and finite element modeling was reported to align closely with measurements.