Bassen HI, Moore HJ, Ruggera PS · 1998
Researchers tested how digital cell phones affect implantable cardioverter-defibrillators (ICDs), medical devices that shock the heart back into rhythm during dangerous arrhythmias. They found that phones using TDMA technology could cause ICDs to malfunction when held within 2-6 centimeters of the device, either preventing necessary pacing or triggering inappropriate high-voltage shocks. The interference stopped immediately when phones were moved away from the ICD.
Pakhomova ON, Belt ML, Mathur SP, Lee JC, Akyel Y · 1998
Researchers exposed yeast cells to extremely high-intensity electromagnetic pulses (up to 104,000 volts per meter) after damaging them with UV radiation to see if the EMF exposure would worsen genetic damage. The ultra-wide band pulses, delivered at repetition rates of 16 Hz or 600 Hz for 30 minutes, showed no effect on DNA repair, mutation rates, or cell survival. This suggests that even very intense pulsed electromagnetic fields may not interfere with cellular DNA repair mechanisms.
Kavaliers M, Choleris E, Prato FS, Ossenkopp K · 1998
Researchers exposed land snails to 60-Hz magnetic fields from power lines and found the fields disrupted the animals' natural pain relief systems by altering brain chemistry. This shows that common household electrical frequencies can interfere with basic biological processes controlling pain in living organisms.
Lai H, Singh NP · 1997
Researchers exposed rats to 60-Hz magnetic fields (the same frequency as household electricity) and found that this exposure caused DNA breaks in brain cells. However, when the rats were given melatonin or another antioxidant compound before exposure, these protective substances completely blocked the DNA damage. This suggests that magnetic fields may damage DNA through free radical formation, and that antioxidants might offer protection.
Litovitz et al. · 1997
Researchers exposed cells to microwave radiation from cell phones and found it increased activity of an enzyme called ornithine decarboxylase, which is linked to cell growth and potentially cancer. However, when they added low-frequency electromagnetic 'noise' during the exposure, it completely blocked these cellular effects. This suggests that certain types of electromagnetic interference might actually protect cells from microwave damage.
Klug S, Hetscher M, Giles S, Kohlsmann S, Kramer K, · 1997
German researchers exposed developing rat embryos to radio frequency electromagnetic fields at various power levels for up to 36 hours to test whether EMF exposure during critical development stages causes birth defects or growth problems. The study found no significant effects on embryo development, growth, or cellular structure across all tested exposure levels, including levels far exceeding typical telecommunication device emissions. This suggests that RF fields at these intensities may not pose developmental risks during embryonic growth.
Fiorani M et al. · 1997
Italian researchers exposed rabbit red blood cells to 50 Hz magnetic fields (the same frequency as electrical power lines) while simultaneously stressing them with oxidizing chemicals. They found that magnetic field exposure at 0.5 milliTesla made the cellular damage significantly worse, increasing enzyme breakdown by 20% and doubling the production of damaged hemoglobin compared to cells exposed to oxidative stress alone.
Kittel A, Siklos L, Thuroczy G, Somosy Z · 1996
Researchers exposed mice to 16-Hz modulated microwaves and examined calcium distribution in brain cells using electron microscopy. They found that microwave exposure disrupted normal calcium storage in nerve terminals, causing calcium to relocate from inside synaptic vesicles (where it belongs) to spaces between neurons and cell surfaces. This disruption of calcium homeostasis - the brain's careful management of calcium levels - persisted for at least 24 hours after exposure.
Bawin SM, Satmary WM, Jones RA, Adey WR, Zimmerman G. · 1996
Scientists exposed rat brain tissue to extremely low frequency magnetic fields at power line frequencies (1-60 Hz). Fields at 56 and 560 microtesla disrupted normal brain rhythms linked to memory, but only when specific brain chemicals were present. This shows magnetic fields can interfere with brain function.
Bortkiewicz A, Gadzicka E, Zmyslony M, · 1996
Researchers studied 71 broadcast station workers exposed to medium-frequency electromagnetic fields and compared their heart rate variability (a measure of nervous system control over heart rhythm) to 22 unexposed workers. The exposed workers showed impaired nervous system regulation of their cardiovascular function, with higher electromagnetic field intensities correlating with greater disruption. This suggests that occupational EMF exposure may interfere with the body's ability to properly control heart function.
Roy S et al. · 1995
Researchers exposed rat immune cells called neutrophils to a weak 60 Hz magnetic field (0.1 mT) and found it increased their production of free radicals by 12.4% when the cells were stimulated. Free radicals are reactive molecules that can damage cells and contribute to inflammation and disease. This was the first study to show that magnetic fields can directly influence free radical production in living immune cells.
