Research on EMF from kitchen appliances - microwave ovens, refrigerators, and other appliances.
Kantar Gok D et al. · 2014
Researchers exposed rats to electric fields like those near power lines for up to four weeks. Higher intensity, longer exposures significantly impaired the brain's ability to detect sound changes, a function essential for learning and attention, while causing oxidative brain damage.
Komaki A, Khalili A, Salehi I, Shahidi S, Sarihi A. · 2014
Researchers exposed rats to power line frequency electromagnetic fields (50 Hz) for 90 days and found it enhanced the brain's ability to form memories in the hippocampus. This suggests chronic EMF exposure can alter fundamental brain functions, though long-term health implications remain unknown.
Li C, Xie M, Luo F, He C, Wang J, Tan G, Hu Z. · 2014
Researchers exposed rats to 50 Hz magnetic fields for up to 28 days and found the exposure altered brain receptor proteins in multiple regions. Despite these measurable brain chemistry changes, the rats showed no problems with spatial learning or memory, suggesting functional abilities remained intact.
Mahdavi SM, Sahraei H, Yaghmaei P, Tavakoli H. · 2014
Researchers exposed rats to extremely low frequency electromagnetic fields (1 and 5 Hz) for 21 days and measured changes in stress hormones and behavior. They found that these EMF exposures altered key stress hormones - increasing ACTH while decreasing noradrenaline - and changed glucose levels differently depending on frequency. The study demonstrates that even very low frequency electromagnetic fields can disrupt the body's stress response system.
Reale M et al. · 2014
Researchers exposed human brain cells to 50 Hz electromagnetic fields (the type from power lines) for up to 24 hours and found the cells produced more harmful molecules called free radicals and nitric oxide. While the cells initially tried to defend themselves by boosting antioxidant activity, this protection failed when the cells faced additional stress, leading to cellular damage that could contribute to brain diseases like Alzheimer's.
Salunke BP, Umathe SN, Chavan JG · 2014
Researchers exposed mice to 50 Hz magnetic fields (power line frequency) for 8 hours daily and found it caused obsessive-compulsive behaviors. The exposure increased nitric oxide in brain regions controlling behavior, suggesting this chemical pathway explains how magnetic fields can affect mental health.
Chen Y, Hong L, Zeng Y, Shen Y, Zeng Q. · 2014
Researchers exposed mouse embryonic cells to 50 Hz magnetic fields (the type from power lines) at 2 milliTesla for various time periods. They found that 6-hour exposures triggered autophagy, a cellular cleanup process, through increased reactive oxygen species (cellular stress molecules). This suggests that power frequency magnetic fields can alter fundamental cellular processes even at the cellular level.
Kantar Gok D et al. · 2014
Researchers exposed rats to 50 Hz electric fields (like those from power lines) for up to four weeks. High-intensity exposure significantly reduced brain responses that help detect sound changes, while increasing brain damage markers. This suggests electric field exposure may impair auditory processing abilities.
Luukkonen J, Liimatainen A, Juutilainen J, Naarala J · 2014
Finnish researchers exposed human brain cells to 50Hz magnetic fields from power lines for 24 hours. The exposure caused lasting genetic damage and cellular stress that persisted for up to 15 days, suggesting common household magnetic fields can trigger long-term harmful effects in cells.
Rauš Balind S, Selaković V, Radenović L, Prolić Z, Janać B · 2014
Researchers exposed gerbils to power line frequency magnetic fields after stroke-like brain damage. The magnetic field exposure helped reduce brain oxidative stress caused by the stroke, with stress levels returning nearly to normal by day 14, suggesting potential protective effects against brain injury.
Reale M et al. · 2014
Scientists exposed human brain cells to 50 Hz electromagnetic fields from power lines for 24 hours. The EMF exposure caused cellular damage and weakened the cells' natural defense systems, especially when cells were already stressed, suggesting potential links to brain degeneration.
Salunke BP, Umathe SN, Chavan JG · 2014
Researchers exposed mice to 50 Hz magnetic fields (power line frequency) for 8 hours daily up to 120 days. This caused obsessive-compulsive behaviors by increasing nitric oxide levels in brain regions. The study suggests household electrical frequencies may affect brain chemistry and behavior.
Duan Y, Wang Z, Zhang H, He Y, Fan R, Cheng Y, Sun G, Sun X. · 2014
Researchers exposed mice to 50 Hz magnetic fields (the same frequency as power lines) for 28 days and found significant brain changes in the hippocampus, a region critical for memory and learning. The exposure disrupted brain chemistry by increasing glutamate levels and damaging cellular signaling pathways that are essential for proper brain function. Importantly, the study also showed that these harmful effects could be reversed with a natural antioxidant treatment.
Gao X, Wang X, Chen F, Qi H, Wang X, Ming D, Zhou P. · 2014
Chinese researchers exposed 10 people to extremely low frequency magnetic fields (1 Hz pulses at 10 milliTesla) for 20 minutes and measured their brain activity using EEG. They found significant changes in brainwave patterns and slower cognitive processing compared to a sham exposure group. This demonstrates that even brief exposure to pulsed magnetic fields can measurably alter brain function.
Kantar Gok D et al. · 2014
Researchers exposed rats to electric fields from power lines for up to four weeks. The strongest exposure significantly impaired the brain's ability to detect sound changes, a function crucial for attention and learning, while also causing harmful cellular damage in brain tissue.
Li Y, Yan X, Liu J, Li L, Hu X, Sun H, Tian J. · 2014
Researchers exposed newborn rat nerve cells to 50 Hz electromagnetic fields (power line frequency) for two hours. The exposure increased production of BDNF, a protein essential for nerve growth and brain health, by triggering calcium flow into cells and activating specific cellular pathways.
Reale M et al. · 2014
Researchers exposed human brain cells to 50 Hz magnetic fields from household electricity and found they triggered harmful oxidative stress. The cells' natural defenses initially compensated, but failed when combined with other stressors, suggesting everyday EMF exposure may increase brain vulnerability to damage.
Salunke BP, Umathe SN, Chavan JG. · 2014
Researchers exposed mice to 50 Hz magnetic fields from power lines for 8 hours daily up to 120 days. The mice developed obsessive-compulsive behaviors and showed increased nitric oxide levels in brain regions controlling behavior, suggesting power-frequency fields can alter brain chemistry.
Spasić S, Kesić S, Stojadinović G, Petković B, Todorović D. · 2014
Researchers exposed longhorn beetles to 50 Hz magnetic fields at 2 milliTesla (similar to levels near power lines) for 5 minutes and measured changes in brain activity patterns. They found that the magnetic field exposure caused lasting changes to the beetles' brain wave patterns that persisted even after the exposure ended. This demonstrates that even brief exposure to extremely low frequency magnetic fields can produce measurable, persistent effects on nervous system function.
Hwang Y, Ahn J, Mun J, Bae S, Jeong YU, Vinokurov NA, Kim P. · 2014
Researchers exposed mouse ear skin to terahertz (THz) radiation at 2.7 THz frequency for 30 minutes and monitored the immune response using advanced microscopy. They found that THz exposure triggered a massive inflammatory response, with immune cells called neutrophils flooding into the exposed skin area within 6 hours. Importantly, this inflammatory reaction occurred without any detectable heating of the skin, suggesting the radiation caused biological effects through non-thermal mechanisms.
Davanipour Z, Tseng C-C, Lee PJ, Markides KS, Sobel E. · 2014
Researchers studied 3,050 elderly Mexican Americans to examine whether jobs with high magnetic field exposure affected severe cognitive problems. Workers in high-exposure occupations like power plants were 3.4 times more likely to develop severe cognitive dysfunction, particularly among older adults and smokers.
Tök L, Nazıroğlu M, Doğan S, Kahya MC, Tök O. · 2014
Researchers exposed rats to Wi-Fi radiation (2.45 GHz) for one hour daily over 30 days to study effects on eye lens health. They found that Wi-Fi exposure caused oxidative stress in the lens tissue, indicated by increased harmful byproducts and decreased protective antioxidant activity. However, when rats were given melatonin supplements, these negative effects were significantly reduced, suggesting melatonin may help protect eye tissue from Wi-Fi-related damage.
Davanipour Z, Tseng C-C, Lee PJ, Markides KS, Sobel E. · 2014
Researchers studied over 3,000 elderly Mexican Americans to see if working in jobs with high magnetic field exposure (like electricians or welders) was linked to severe cognitive problems. They found that people who worked in high magnetic field occupations were 3.4 times more likely to develop severe cognitive dysfunction, with the risk being even higher for older adults and smokers. This is the first study to specifically examine the connection between workplace magnetic field exposure and severe cognitive decline in older adults.
Mahdavi SM, Sahraei H, Yaghmaei P, Tavakoli H. · 2014
Researchers exposed male rats to extremely low frequency electromagnetic fields at 1 Hz and 5 Hz to study effects on stress hormones and behavior. They found that these exposures altered stress hormone levels (increasing ACTH while decreasing noradrenaline) and changed glucose metabolism differently depending on the frequency used. The study demonstrates that even very low frequency EMF exposures can disrupt the body's stress response system in measurable ways.
Tök L, Nazıroğlu M, Doğan S, Kahya MC, Tök O. · 2014
Turkish researchers exposed rats to Wi-Fi radiation (2.45 GHz) for one hour daily over 30 days and found it caused oxidative stress in the eye lens, similar to cellular damage from aging or toxins. When rats were given melatonin supplements, the antioxidant significantly reduced this Wi-Fi-induced damage. This suggests that common Wi-Fi exposure may harm delicate eye tissues, but natural protective compounds could help defend against such effects.