The science behind TERA+
The conditions we assess are not speculative. Decades of independent research across multiple disciplines have documented the biological effects of electromagnetic exposure and natural geophysical influences.
Sleep and recovery
Electromagnetic fields and sleep disruption
Exposure to radiofrequency fields and low-frequency magnetic fields near sleeping areas has been associated with altered sleep architecture, reduced melatonin production, and impaired recovery during rest. Studies have shown measurable changes in EEG patterns in subjects exposed to RF during sleep.
Bioelectromagnetics, Int. Journal of Environmental Research and Public Health
Children's sensitivity
Developing biology and electromagnetic exposure
Exposure to radiofrequency fields and low-frequency magnetic fields near sleeping areas has been associated with altered sleep architecture, reduced melatonin production, and impaired recovery during rest. Studies have shown measurable changes in EEG patterns in subjects exposed to RF during sleep.
Bioelectromagnetics, Int. Journal of Environmental Research and Public Health
Geopathic and geomagnetic factors
Natural earth influences on biological systems
Geomagnetic field variations, geopathic stress zones, and underground water courses have been associated with disturbed sleep, altered hormone profiles, and long-term health patterns in epidemiological studies. Earth's magnetic field is also undergoing documented changes that make these variables increasingly relevant to assess.
Geophysical Research Letters, studies by Betz et al., Hacker et al.
Earth's changing magnetic field
Geomagnetic decline and its growing relevance
Earth's magnetic dipole moment has decreased by approximately 9% over the past 200 years, with the rate of decline accelerating.As the geomagnetic field weakens, the shielding it provides against solar and cosmic radiation diminishes, meaning the natural electromagnetic conditions at the surface are actively shifting.
NOAA National Centers for Environmental Information, Nature
Oxidative stress
EMF exposure and cellular oxidative damage
A substantial body of research documents that electromagnetic field exposure can increase reactive oxygen species (ROS) production in cells, leading to oxidative stress. This mechanism is linked to inflammation, DNA damage, and impaired cellular repair, and has been observed across multiple tissue types.
Journal of Chemical Neuroanatomy (2016), Journal of Microscopy and Ultrastructure
Immune function
Electromagnetic fields and immune system modulation
Research indicates that chronic low-level EMF exposure can affect immune system function, including altered cytokine production, changes in lymphocyte activity, and modulation of inflammatory responses. These effects are particularly relevant for understanding long-term health in high-exposure indoor environments.
Electromagnetic Biology and Medicine, Clinical Biochemistry reviews
Indoor exposure
Wi-Fi, smart devices, and cumulative indoor exposure
Modern homes contain an average of 15 to 25 connected wireless devices. The cumulative RF exposure from Wi-Fi routers, smart home systems, Bluetooth devices, and cordless phones creates a chronic low-level exposure environment that has no historical precedent and is rarely assessed in conventional property checks.
IEEE proceedings, Building and Environment journal studies
Neurological effects
Low-frequency electromagnetic fields and brain function
ELF-EMF exposure has been shown to affect EEG traces, cognitive performance, and neurotransmitter regulation. A 2024 peer-reviewed pilot study co-authored by TERA co-founder Dr. Alberto Garoli demonstrated statistically significant improvements in neurological outcomes in children treated with targeted ELF-EMF protocols.
Brain Sciences (2024), Pietramala et al. / University of Ferrara