This RF Safe article reports that in mid-January 2026 HHS, led by Secretary Robert F. Kennedy Jr., removed or redirected certain FDA webpages that previously conveyed strong “no-risk” conclusions about cellphone radiation. It argues the updated FDA framing emphasizes statutory duties (monitoring, testing, hazard control) and signals a shift from definitive safety messaging toward renewed inquiry, while noting that details of any planned research have not been publicly disclosed. The piece also highlights Kennedy’s past public statements alleging harms from Wi‑Fi/5G and links the policy context to the 2021 D.C. Circuit remand of FCC RF policy.

RF Safe promotes its QuantaCase (also called TruthCase) as a leading “anti-radiation” phone case for 2026, emphasizing a directional shielding design intended to deflect RF energy away from the body. The article argues the product aligns with consumer-safety guidance such as keeping phones away from the body and using hands-free modes, and it claims RF Safe’s earlier advocacy influenced FTC/FCC warnings about ineffective or counterproductive shielding products. It cites comparisons, user reviews, and an “independent” 2017 TV review as support, but presents limited verifiable technical detail in the excerpt.

RF Safe promotes its QuantaCase as the only “truthful” anti-radiation phone case and argues that many competing shielding cases use misleading “percent blocking” claims and can sometimes increase user exposure depending on design and phone behavior. The post mixes product marketing with broader claims about RF-EMF health effects, criticizing current exposure guidelines (e.g., FCC/ICNIRP) as outdated and insufficient for non-thermal effects. It cites various reports and analyses (e.g., a 2017 TV test segment and multiple study-count summaries) but does not provide verifiable study details within the excerpt.

RF Safe promotes its QuantaCase™ (also called TruthCase™) as the “best anti-radiation phone case,” citing a review of 2025 market options, expert analyses, and user feedback from platforms like Reddit and Amazon. The post argues that while no case provides 100% protection, QuantaCase’s approach is more credible than “fake” anti-radiation cases and should be paired with exposure-reduction behaviors (e.g., distance and wired tech). It also references a claimed WHO 2025 position on animal cancer certainty, but provides no verifiable details in the excerpt.

RF Safe describes the “S4–Mito–Spin” framework as a proposed multi-stage mechanism linking weak electromagnetic fields to biological effects. The article argues that membrane voltage sensors (S4 segments), mitochondrial/NOX-driven oxidative stress pathways, and spin-sensitive radical-pair chemistry together could reduce the fidelity of cellular signaling under “non-native EMFs.” It cites a recent review on magnetic field effects and the radical pair mechanism as support for the “Spin” pillar, but does not provide study details in the excerpt.

RF Safe promotes its TruthCase™ (QuantaCase®) phone case as a "training tool" and "physics-first" product intended to reduce RF exposure through correct phone orientation and design, while criticizing many "anti-radiation" cases as potentially increasing exposure by detuning antennas. The post also argues that current RF safety policy relies on "1990s, heat-only limits" and calls for stronger protections, especially for children. It presents a proposed biological mechanism framework ("S4–Mito–Spin") describing how weak RF/ELF fields might interact with voltage-gated channels, mitochondria/ROS pathways, and spin-sensitive redox chemistry, but does not provide study details in the excerpt.

An RF Safe article argues that “non-thermal” RF/ELF electromagnetic fields from phones, Wi‑Fi, and 5G cause widespread biological harm and that regulators and industry have misled the public by focusing on heating-based safety limits. It claims 2025 is a “tipping point,” citing WHO-commissioned reviews, animal studies (e.g., NTP/Ramazzini), a “Frontiers review,” and ICBE-EMF statements as evidence of cancer and other health risks. The piece frames the issue as urgent and settled, calling for public action and policy change, but presents these conclusions in advocacy language without providing verifiable study details in the excerpt.

An RF Safe commentary advocates for a proposed “Clean Ether Act” that would mandate replacing Wi‑Fi/5G with LiFi, arguing that current RF exposure limits ignore non-thermal biological effects. The post alleges widespread health harms from RF/EMF (e.g., cancers, fertility impacts) and claims regulatory capture by industry, citing animal studies and a U.S. court decision as support. It frames the issue as urgent and preventable through policy changes and technology substitution, but presents these assertions in highly charged language without providing verifiable bill details in the text shown.

RF Safe argues that animal evidence for RF-related carcinogenicity is now strong and should not be dismissed, citing the NTP (2018) and Ramazzini (2018) lifetime rodent studies as showing statistically significant increases in the same rare tumor types (heart schwannomas and brain gliomas). The post further claims that effects occurred at relatively low whole-body SAR levels and references additional mechanistic hypotheses (e.g., VGCC-related models and radical-pair/spin effects) and a reported human ultrasound observation of acute non-thermal changes. These points are presented as supporting a shift away from a “thermal-only” interpretation, but the item is advocacy/commentary and does not provide full methodological details in the excerpt.

This RF Safe article argues that the “strongest” RF-EMF literature supports concern about cancer-related findings, emphasizing non-monotonic dose–response patterns in the U.S. National Toxicology Program (NTP) rat study and citing additional analyses and animal studies. It reports that FDA evaluations have downplayed the human relevance of NTP results due to high exposures and inconsistencies, and counters that some effects may occur at lower exposure levels than commonly claimed. The piece also references the Ramazzini Institute rat study as supportive evidence at lower whole-body SARs and mentions a 2024 PLOS ONE paper analyzing Ramazzini tumors, but provides limited detail in the excerpt.

This RF Safe commentary argues that non-thermal RF/5G effects may vary by tissue based on the density of specific biological “targets,” such as voltage-gated channel S4 helices, mitochondrial/NOX ROS capacity, and heme/flavin “spin chemistry” substrates. It claims that reported null findings in 5G mmWave skin-cell studies can be reconciled with reported red blood cell (RBC) rouleaux observations by proposing a “density-gated” mechanism where spin-related effects are more detectable in heme-dense cells like RBCs. The post cites an ultrasound study (named “Brown & Biebrich”) as showing in-vivo rouleaux changes within minutes near a smartphone, but provides limited methodological detail in the excerpt.

An RF Safe article presents a personal narrative and hypothesis that “non-native EMFs” act as “entropic waste” that could disrupt early embryonic neurodevelopment (neurulation), potentially contributing to neural-tube defects and later neurodevelopmental outcomes such as autism/ADHD. The author links a family tragedy to this hypothesis and argues for reducing wireless exposure as a precaution. The post cites several studies/reports (e.g., Farrell 1997, Aldad 2012, NTP 2018, WHO SR4A 2025) but does not provide detailed methods or evidence appraisal within the excerpt.

An RF Safe post argues that a proposed “S4–mitochondria axis” mechanism (linking voltage-gated ion channel S4 segments and mitochondrial/oxidative stress pathways) has been validated or mainstreamed by “2025 WHO reviews.” The author frames this mechanism as a unifying explanation for reported RF bioeffects across disparate findings, including animal tumor studies, male fertility impacts, immune dysregulation, and pancreatic beta-cell dysfunction. The piece is presented as a synthesis and advocacy-style interpretation rather than a primary research report, and specific WHO review details are not provided in the excerpt.

RF Safe argues that a single biological mechanism explains widespread harm to children from modern wireless signals (cell phones, Wi‑Fi, 5G, DECT), emphasizing that these signals are “pulsed and modulated.” The post claims that “animal proof” is now high-certainty and references “WHO 2025 GRADE-rated systematic reviews,” linking EMF exposure to rare cancers in young people, declining sperm counts, and childhood autoimmune/neurodevelopmental disorders. The excerpt provided does not include citations or details sufficient to verify these claims.

This RF Safe article argues that pulsed, low-frequency-modulated wireless radiofrequency exposures could disrupt voltage-gated ion channel timing (via the S4 voltage sensor), leading to altered immune-cell signaling, mitochondrial oxidative stress, and downstream innate immune activation and inflammation. It presents a mechanistic narrative linking small membrane-potential shifts to changes in calcium and proton channel behavior, then to mitochondrial reactive oxygen species and inflammatory pathways (e.g., cGAS–STING, TLR9, NLRP3). The post cites animal findings and a described 2025 mouse gene-expression study as supportive, but the piece itself is not a peer-reviewed study and some claims are presented as deterministic without providing full methodological details in the excerpt.

This RF Safe article argues that persistent low-intensity, pulsed RF exposure could disrupt the timing of voltage-gated ion channel activity by affecting the S4 voltage-sensing region, leading to downstream changes in calcium/proton signaling, mitochondrial stress, and immune dysregulation. It proposes a mechanistic chain from altered ion gating to increased mitochondrial ROS, mitochondrial DNA release, and activation of innate immune pathways (e.g., cGAS-STING, TLR9, NLRP3). The post cites “multiple reviews and experiments” and references animal findings and a 2025 mouse study, but the provided text does not include enough study details to independently assess the strength of the evidence.

This conference paper uses numerical simulations to evaluate near-field exposure and thermal effects in a detailed human head model from a realistic 5G mobile phone operating at 26 GHz. The preliminary modeling suggests moderate, localized temperature increases in superficial tissues. The authors emphasize the need for higher-resolution models, refined tissue segmentation, longer exposure durations, and varied phone placements to better characterize potential impacts.

This study uses anatomically detailed computational models of a five-year-old girl, a pregnant woman in the third trimester, and a fetus to simulate mobile phone RF exposure inside an elevator cabin. Simulations at 1000 MHz and 1800 MHz across 48 configurations evaluated SAR10g, whole-body SAR, and maximum temperature. The abstract reports that configuration (positioning and phone orientation) can substantially change absorption and temperature metrics and calls for broader scenario testing to inform safety guidance for vulnerable populations.

In a rat experiment (n=59), a single 40-minute whole-body 28 GHz exposure at near-threshold WBA-SAR levels was evaluated under normal and heat conditions with restraint. After accounting for sham-related restraint stress, exposure was associated with increased serum-free corticosterone 1–3 days later, especially when rectal temperature rose by >1°C. Urinary catecholamines suggested an immediate inhibitory effect on stress response (notably noradrenaline), with heat amplifying effects and linking noradrenaline to tail surface temperature.

This paper presents a mixed-method study protocol examining electromagnetic hypersensitivity (EHS) in relation to mobile phone radiofrequency radiation exposure among undergraduate students. The quantitative component aims to identify predictors of EHS using a biopsychosocial model, while the qualitative component explores individual experiences through in-depth interviews. The abstract provides study design details and sample size but does not report study results.

This conference abstract reports a pilot matched case-control study examining whether carrying a cellphone below the waist is associated with early-onset colorectal cancer (EOCRC). The authors report higher EOCRC likelihood among those who carried phones below the waist, with the strongest association for ipsilateral carrying (same side as the tumor) and high cumulative hours. Details on exposure measurement, confounding control, and full statistical reporting are not provided in the abstract.

This narrative review proposes that low-intensity microwave/lower-frequency EMFs activate plasma membrane calcium channels in animals, increasing intracellular calcium and triggering downstream signaling including oxidative stress pathways. It further suggests that EMF actions in terrestrial multicellular plants are probably similar, with plant two-pore channels proposed as plausible mediators due to a comparable voltage sensor. The abstract describes briefly reviewed plant studies as consistent with this mechanism, but does not provide detailed exposure parameters or quantitative results.