Adibzadeh F et al. · 2014
Researchers used computer models to study how mobile phone radiation is absorbed in the brains of 20 different people with varying head shapes and sizes. They found that radiation absorption (called SAR) varied dramatically between individuals - up to 16 times higher in some people compared to others, depending on their unique head anatomy. This means current safety testing, which uses only standard dummy heads, may not accurately predict radiation exposure for real people with different head shapes.
Adachi-Mejia AM et al. · 2014
Researchers surveyed 454 adolescents aged 12-20 to understand how mobile phone use affects sleep patterns. They found that nearly two-thirds (62.9%) bring phones to bed, over one-third (36.7%) text after bedtime, and 7.9% are awakened by texts at least twice weekly. This suggests that mobile phones are significantly disrupting adolescent sleep through both direct use and unexpected interruptions.
van der Mark M et al. · 2014
Researchers studied whether exposure to extremely low-frequency magnetic fields (the type from power lines and electrical equipment) increases the risk of Parkinson's disease. They compared 444 Parkinson's patients with 876 healthy controls, examining both workplace and household electrical exposures. The study found no increased risk of Parkinson's disease from ELF magnetic field exposure or electrical shocks.
Monazzam MR et al. · 2014
Researchers studied 40 workers at an Iranian petrochemical plant to see if extremely low frequency magnetic fields from electrical substations affected their sleep and general health. They found that 61% of workers exposed to these fields had sleep disorders and 28% had poor health, compared to only 4.5% sleep problems in unexposed workers. Even though the magnetic field levels were below safety standards, the exposed workers showed significantly worse sleep quality and health outcomes.
Marchesi N et al. · 2014
Italian researchers exposed human brain cells to low-frequency electromagnetic fields and found that the EMF exposure activated autophagy, a cellular cleaning process that removes damaged proteins. The electromagnetic fields reduced levels of a specific microRNA (miR-30a) which then increased production of Beclin1, a protein essential for autophagy. This suggests that certain EMF exposures might actually help brain cells clear out toxic protein clumps associated with Alzheimer's disease.
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.
Liu DD, Ren Z, Yang G, Zhao QR, Mei YA. · 2014
Researchers exposed rat brain cells to extremely low-frequency electromagnetic fields (ELF-EMF) for 60 minutes and found it dramatically increased sodium ion currents by 62.5%, which can disrupt normal brain cell function. However, when they treated the cells with melatonin (a hormone naturally produced by your body), it protected against these harmful effects. This suggests melatonin may serve as a natural defense mechanism against EMF-induced brain cell damage.
Leone L et al. · 2014
Researchers exposed neural stem cells from mouse brains to extremely low-frequency electromagnetic fields (ELF-EMF) and found these fields enhanced the growth of new brain cells in the hippocampus, the brain region crucial for memory formation. The ELF-EMF exposure triggered specific genetic changes that promoted brain cell development and improved spatial learning and memory in the mice. This suggests that certain electromagnetic field exposures might actually stimulate beneficial brain processes rather than harm them.
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.
Alsaeed I et al. · 2014
Researchers exposed pregnant mice and their newborn pups to extremely low frequency electromagnetic fields (the type emitted by power lines and electrical wiring) during a critical developmental window. The exposed male mice grew up showing significant social deficits similar to those seen in autism spectrum disorders, including reduced interest in other mice and decreased exploratory behavior, while their physical abilities remained normal.
Saikhedkar N et al. · 2014
Researchers exposed young rats to 900 MHz mobile phone radiation for 4 hours daily over 15 days and found significant brain damage in memory centers like the hippocampus. The exposed rats showed increased anxiety, poor learning ability, and cellular damage from oxidative stress (harmful molecules that damage cells). This suggests that prolonged mobile phone use may harm brain function and memory formation.
Ragy MM. · 2014
Researchers exposed rats to cell phone radiation (900 MHz) for one hour daily over 60 days and measured damage in the brain, liver, and kidneys. They found significant increases in cellular damage markers and decreases in the body's natural antioxidant defenses across all three organs. The good news: when exposure stopped for 30 days, the damage reversed, suggesting the effects may be recoverable.
Ghazizadeh V, Nazıroğlu M. · 2014
Researchers exposed brain tissue from epileptic rats to Wi-Fi radiation for one hour. The exposure triggered harmful calcium buildup and cell death in brain regions controlling memory and pain. This suggests Wi-Fi may worsen neurological conditions by disrupting normal brain cell function.
Cetin H et al. · 2014
Researchers exposed pregnant rats to cell phone radiation (900 and 1800 MHz) daily and found it reduced protective antioxidants in the brain and liver while increasing harmful iron levels. This suggests cell phone radiation may damage developing brains during pregnancy and early development.
Liu DD, Ren Z, Yang G, Zhao QR, Mei YA. · 2014
Researchers exposed rat brain cells to extremely low frequency electromagnetic fields (ELF-EMF) for one hour and found that this exposure increased sodium channel activity in the cells by 62.5%. However, when the hormone melatonin was present, it prevented this electromagnetic field-induced change in brain cell function. This suggests melatonin may offer some protection against certain neurological effects of EMF exposure.
Yi G, Wang J, Wei X, Deng B, Tsang KM, Chan WL, Han C. · 2014
Computer modeling revealed that extremely low-frequency magnetic fields from power lines and appliances disrupt brain cell firing patterns. The disruption increases with stronger fields and occurs through resonance when field frequencies match natural brain rhythms, explaining how weak magnetic fields influence brain function.
van Nierop LE, Slottje P, van Zandvoort M, Kromhout H. · 2014
Dutch researchers exposed 36 healthy volunteers to magnetic fields from a 7 Tesla MRI scanner to test effects on brain function. They found that when people were exposed to both static magnetic fields and time-varying magnetic fields (created by head movements), their verbal memory declined and visual acuity changed. The combination of both field types was necessary to produce these cognitive effects - static fields alone had no measurable impact.
Monazzam MR et al. · 2014
Researchers studied 40 petrochemical workers exposed to extremely low frequency magnetic fields from electrical equipment. They found 61% had sleep disorders and 28% had poor health, compared to just 4.5% with sleep problems in unexposed workers, suggesting workplace EMF exposure may harm health.
Marchesi N et al. · 2014
Researchers exposed human brain cells to low-frequency electromagnetic fields and found the EMF activated autophagy, the cell's natural cleanup system that removes damaged proteins. This enhanced cellular cleaning could potentially help protect against neurodegenerative diseases like Alzheimer's by clearing harmful protein buildup.
Liu DD, Ren Z, Yang G, Zhao QR, Mei YA. · 2014
Researchers exposed rat brain cells to extremely low-frequency electromagnetic fields (like those from power lines) and found the EMF exposure significantly increased electrical activity in neurons by 62.5%. However, when they treated the cells with melatonin, it protected against these EMF-induced changes. This suggests melatonin might help shield brain cells from electromagnetic field effects.
Leone L et al. · 2014
Italian researchers exposed mouse brain stem cells to extremely low-frequency electromagnetic fields and found these fields enhanced growth of new brain cells in the hippocampus by switching on genes that promote brain development, potentially opening new therapeutic approaches for memory enhancement.
Frilot C 2nd, Carrubba S, Marino AA. · 2014
Researchers studied how the brain detects weak electromagnetic fields by examining brain waves in awake versus anesthetized rats. They found that rats could detect EMF signals when awake, but this ability was blocked by ketamine (an anesthetic that interferes with brain communication pathways) but not by xylazine (a different type of anesthetic). This suggests the brain has a previously unrecognized ability to sense electromagnetic fields through specific neural pathways.
Choi YK, Lee DH, Seo YK, Jung H, Park JK, Cho H. · 2014
Researchers used 50 Hz electromagnetic fields (the same frequency as power lines) combined with magnetic nanoparticles to study stem cells from human bone marrow. They found that this EMF exposure enhanced the cells' ability to transform into nerve cells. This suggests that extremely low-frequency EMFs can influence how stem cells develop and differentiate.
Ben Yakir-Blumkin M, Loboda Y, Schächter L, Finberg JP · 2014
Researchers exposed brain cells from rats to weak static magnetic fields (50 Gauss) for seven days and found the fields dramatically protected neurons from programmed cell death. The magnetic field exposure reduced cell death by 57% and significantly decreased multiple markers of cellular damage. This suggests that certain magnetic field exposures might actually protect brain cells rather than harm them.
Zheng F et al. · 2014
Researchers studied over 7,000 Chinese middle school students to examine whether mobile phone use affects attention span. They found that students who used their phones for entertainment more than 60 minutes daily showed significantly higher rates of inattention symptoms similar to ADHD. The study suggests limiting phone use to under an hour per day may help adolescents maintain better focus.
