RF Safe argues that radiofrequency (RF) emissions from phones and Wi‑Fi pose non-thermal biological risks and that current safety limits are outdated. The post cites animal studies (including NTP and Ramazzini) and references WHO and IARC positions while promoting a proposed mechanism framework (“S4‑Mito‑Spin”) and calling for regulatory and policy changes. It also includes advocacy claims about regulatory capture and promotes RF Safe products and exposure-reduction practices.

An RF Safe article argues that everyday RF-EMF exposures from phones, Wi‑Fi, and vehicles pose serious health risks, using dramatic framing such as “blood into pancakes.” It cites an ultrasound demonstration and references to a Frontiers in Cardiovascular Medicine paper, WHO reviews, and animal tumor findings, while promoting a proprietary-sounding framework (“S4‑Mito‑Spin”) and proposed solutions like “Clean Ether” tech and LiFi. The piece also calls for policy changes and encourages readers to run self-tests and share results on social media.

This animal study examined Wi-Fi RF-EMR exposure in adult zebrafish (4 hours/day for 30 days) and assessed reproductive tissues and offspring outcomes. The abstract reports testicular and ovarian histopathological abnormalities in exposed adults. Offspring from exposed parents, maintained under EMF-free conditions, reportedly showed increased mortality, morphological abnormalities, and anxiety-like behavior, with malformations increasing with longer parental exposure.

This animal experimental study exposed chicken embryos (CAM) continuously to 2.4 GHz Wi-Fi at an average power density of 300 μW/m2 for 9 or 14 embryonic days. H&E staining reportedly showed no significant structural differences in large vessel walls versus controls. However, special staining reported decreased optical density of elastic fibers at both time points and changes in collagen fiber optical density (increase at day 9, decrease at day 14). The authors conclude Wi-Fi exposure can alter fibrous vessel wall components and suggest potential relevance to cardiovascular disorders.

The review states there is no scientific consensus on whether Wi‑Fi (2.4/5 GHz) contributes to Alzheimer's disease through oxidative stress, and that existing results are mixed and inconclusive. It discusses an indirect analysis linking oxidative-stress-responsive genes after 2.4 GHz exposure with genes associated with Alzheimer's disease. The authors suggest chronic exposure could affect regulation of neurodegeneration-related genes (e.g., GSK3B, APOE), while emphasizing that a direct relationship has not been demonstrated and more research is needed.

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 exposed rats to Wi‑Fi waves for 7 hours/day for 2 months and assessed sperm parameters, serum testosterone, and testicular/epididymal pathology, with and without coenzyme Q10 (CoQ10). The authors report that Wi‑Fi exposure was linked to worse sperm parameters, lower testosterone, and adverse testicular pathology. CoQ10 supplementation during exposure was reported to mitigate these changes compared with Wi‑Fi exposure alone.

This animal study exposed adult zebrafish to 2.45 GHz Wi‑Fi radiation for 4 hours daily over 30 consecutive days. The authors report neurobehavioral impairments with altered locomotion, alongside decreased acetylcholinesterase and increased brain oxidative stress. They conclude these findings indicate a safety risk and call for further mechanistic and public health research.

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 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 animal study exposed Sprague-Dawley rats (including pregnant females and offspring) to 2.45 GHz Wi-Fi or mobile jammer radiation for 2 hours daily over two weeks and assessed thyroid hormones and thyroid histology. The abstract reports significant changes in T4 in exposed adult males and significant differences in T3 among male offspring exposed to jammer radiation. Histopathology reportedly showed disrupted thyroid follicular structure in exposed rats. The authors conclude these findings support a potential link between non-ionizing radiation exposure and altered thyroid endocrine and histological parameters.

This cohort study of 1,666 women in Yazd City examined electromagnetic-wave exposure from commonly used devices during pregnancy and birth outcomes. Longer cell phone call duration during pregnancy was reported to be associated with higher risk of miscarriage, abnormal birth weight, and abnormal newborn height. Increased cordless phone use was also reported to be linked to abnormal birth weight, while other outcomes were assessed but not described as significantly associated in the abstract.

This animal study exposed adult male rats to 2.45 GHz Wi‑Fi from an active router for 4 or 24 hours daily over eight weeks and assessed reproductive organ histology and sperm parameters. The authors report histological changes in testes and epididymis, multifocal atypical hyperplasia in seminal vesicles, reduced seminiferous tubule diameter, and reduced spermatogenesis index in exposed groups. Sperm concentration decreased in both exposed groups, motility decreased in the 4-hour group, and viability increased in the 24-hour group, leading to an overall interpretation of potential reproductive risk under the studied conditions.

This animal study examined whether continuous prenatal exposure to 2450 MHz radiofrequency radiation (simulating Wi‑Fi) affects thyroid tissue in rat offspring at 6 months. The exposed group showed significantly increased mononuclear cell infiltration and vascular congestion in thyroid histology. TUNEL-positive cell percentage and H2A.X antibody levels did not differ significantly between groups.