RF Safe argues that HHS is not complying with Public Law 90-602’s requirements to run an electronic product radiation control program, support research, and make results publicly available. The post claims the National Toxicology Program (NTP) RF bioeffects work was halted in 2024 and has not restarted, and calls for immediate resumption with open data and a public timetable. It also presents a mechanistic narrative and cites various animal and cell-study findings as support for potential non-thermal RF biological effects, alongside policy recommendations such as LiFi-first guidance for schools and updated standards that account for signal timing characteristics.

RF Safe argues that non-thermal biological effects from low-frequency/pulsed RF-EMF exposures can be explained by a “timing-fidelity” mechanism involving voltage-gated ion channel (VGIC) gating perturbations. The post links altered ion-channel timing to downstream immune signaling changes (e.g., Ca²⁺ dynamics, NFAT/NF-κB transcription), mitochondrial stress, and inflammatory pathway activation, and suggests this could relate to reported animal cancer signals and reproductive endpoints. It proposes a set of “falsifiable tests” and calls for a policy/engineering program (“Clean Ether Act”) emphasizing RF temporal patterning and shifting some connectivity to LiFi.

RF Safe presents a mechanistic hypothesis that low-frequency electromagnetic fields (LF-EMFs) can disrupt the timing (“fidelity”) of voltage-gated ion channel activity, creating bioelectric “phase noise” that could alter calcium signaling and gene transcription involved in immune function. The article further argues that this mistiming may impair mitochondrial function, increasing reactive oxygen species and inflammatory feedback loops, potentially contributing to immune dysregulation. It also proposes a policy/engineering response focused on reducing indoor RF exposure and promoting alternatives such as LiFi, while citing animal and epidemiology findings as suggestive but not definitive support for the broader framework.