Lai J et al. · 2015
Researchers exposed adult male rats to 50 Hz magnetic fields at 100 microtesla for 24 weeks and tested their behavior, memory, and brain structure. The study found no effects on anxiety, depression, learning ability, or brain tissue compared to unexposed rats. This suggests that prolonged exposure to this level of extremely low frequency magnetic fields may not cause behavioral or cognitive problems.
Nazıroğlu M, Özkan FF, Hapil SR, Ghazizadeh V, Çiğ B. · 2015
Researchers exposed brain cells from epileptic rats to 900 MHz cell phone radiation for one hour to see if it would worsen brain damage. While epilepsy itself caused significant cellular damage including cell death and calcium influx, the cell phone radiation did not add any additional harmful effects. This suggests that 900 MHz EMF exposure may not exacerbate existing brain conditions like epilepsy.
Fasseas MK et al. · 2015
Greek researchers exposed microscopic worms (C. elegans) to radiation from cell phones, WiFi routers, and cordless phones at levels below international safety guidelines. They found no effects on the worms' lifespan, fertility, growth, memory, or cellular damage markers. The study suggests these worms are resilient to wireless device radiation under the tested conditions.
van der Mark M et al. · 2015
Researchers studied 444 Parkinson's disease patients and 876 healthy controls to see if exposure to extremely low-frequency magnetic fields (ELF-MF) from electrical occupations, household appliances, or electrical shocks increased Parkinson's risk. They found no association between any electrical exposures and Parkinson's disease development. In fact, most exposure categories showed slightly reduced risk estimates, though researchers concluded this likely doesn't represent true protection.
Trunk A et al. · 2015
Researchers exposed 25 people to UMTS mobile phone radiation (similar to 3G signals) for 15 minutes while they performed visual tasks, with some participants also given caffeine. While caffeine improved reaction times and brain arousal as expected, the mobile phone radiation had no detectable effects on brain activity or cognitive performance, either alone or when combined with caffeine.
Sauter C et al. · 2015
German researchers exposed 30 healthy young men to TETRA radio signals (used by emergency services) for 2.5 hours at two different power levels to test effects on thinking abilities and well-being. They found no negative impacts on cognitive performance, mood, or physical complaints, with some measures actually showing slight improvement during exposure. This suggests short-term exposure to TETRA signals at these levels doesn't impair mental function in healthy adults.
Salunke BP, Umathe SN, Chavan JG. · 2015
Researchers exposed mice to 2.45 GHz radiofrequency radiation (the same frequency used by WiFi and Bluetooth) for up to 120 days to see if it would cause anxiety, obsessive-compulsive behaviors, or depression-like symptoms. The study found no behavioral changes in the mice across multiple standard tests, even after four months of daily exposure. This suggests that chronic exposure to this common wireless frequency may not directly affect mood or anxiety-related behaviors.
Nazıroğlu M, Ozkan FF, Hapil SR, Ghazizadeh V, Ciğ B · 2015
Researchers exposed brain cells from epileptic rats to 900 MHz mobile phone radiation for one hour to see if it worsened seizure-related brain damage. The epilepsy itself caused significant cell death, oxidative stress, and calcium influx in the hippocampus (a brain region crucial for memory), but the mobile phone radiation didn't add any additional harmful effects. This suggests that in already-damaged brain tissue, 900 MHz EMF exposure may not worsen the cellular damage beyond what the disease itself causes.
Malek F, Rani KA, Rahim HA, Omar MH · 2015
Malaysian researchers exposed 200 people (half claiming electromagnetic sensitivity) to cell tower signals at 1 volt per meter for short periods and measured cognitive performance, body temperature, heart rate, and blood pressure. They found no statistically significant differences between real exposure and fake exposure in either sensitive or non-sensitive individuals. This suggests that brief exposure to typical cell tower radiation levels doesn't immediately affect these basic body functions or mental performance.
Gupta N, Goyal D, Sharma R, Arora KS · 2015
Researchers examined whether long-term mobile phone use affects the auditory brainstem - the part of the brain that processes sound signals from your ears. They compared brain wave responses in 67 people who had used GSM mobile phones for over a year against 33 non-users. The study found no significant differences in how sound signals traveled through the auditory nerve to the brainstem between phone users and non-users.
Zheng F et al. · 2015
Researchers surveyed 746 children in China about their mobile phone use and health symptoms. They found that children who used phones for more years or made longer daily calls were significantly more likely to report fatigue, with those making longer calls nearly three times more likely to experience fatigue. The connection between phone use and fatigue remained strong even after accounting for other factors that might explain the symptoms.
Sırav B, Seyhan N · 2015
Researchers exposed male and female rats to cell phone radiation at 900MHz and 1800MHz frequencies for 20 minutes, then measured whether their blood-brain barrier (the protective shield around the brain) became more permeable. They found that both frequencies increased brain permeability in males, with 1800MHz having a stronger effect, while only 900MHz affected females. This suggests that even brief cell phone exposure can compromise the brain's natural protective barrier.
Singh S, Mani KV, Kapoor N. · 2015
Researchers studied 155 military personnel exposed to radar frequencies of 8-12 GHz and 12.5-18 GHz to measure how electromagnetic fields affect melatonin (the sleep hormone) and serotonin (a mood chemical) in their blood. Workers exposed to the higher frequency range (12.5-18 GHz) showed significantly lower melatonin levels and higher serotonin levels, especially those with more than 10 years of exposure. This suggests that long-term exposure to certain radar frequencies can disrupt the body's natural hormone balance.
Schoeni A, Roser K, Röösli M. · 2015
Swiss researchers followed 439 adolescents for one year, testing their memory performance while tracking their cell phone use. They found that teens who used their phones more for voice calls showed declining figural memory (the ability to remember shapes and visual patterns) over the year. Importantly, activities that produce minimal radiation like texting and gaming showed no memory effects, suggesting the radiation itself - not just phone use habits - may be impacting developing brains.
Sangun O, Dundar B, Darici H, Comlekci S, Doguc DK, Celik S · 2015
Researchers exposed pregnant and newborn female rats to WiFi-frequency radiation (2450 MHz) for one hour daily and tracked their development through puberty. Rats exposed in the womb showed slower growth, delayed puberty, and increased oxidative stress in brain and ovary tissues compared to unexposed controls. This suggests that WiFi radiation during critical developmental periods may disrupt normal reproductive maturation.
Şahin A et al. · 2015
Researchers exposed young rats (equivalent to pre-adolescent humans) to 900-MHz cell phone radiation for one hour daily over 30 days, then examined their brain tissue. They found significant loss of pyramidal neurons in the hippocampus (a brain region crucial for memory and learning) and observed damaged cells with abnormal appearance. This suggests that cell phone radiation exposure during development may harm critical brain cells needed for cognitive function.
Ragy MM · 2015
Researchers exposed rats to 900-MHz electromagnetic radiation (similar to cell phone frequencies) for one hour daily over 60 days and found significant damage to the brain, liver, and kidneys. The exposure increased harmful oxidative stress markers and damaged tissue function, but these effects reversed when the EMF exposure was stopped for 30 days. This suggests that cell phone radiation may cause measurable biological damage that could potentially be reversed with reduced exposure.
Nazıroğlu M, Özkan FF, Hapil SR, Ghazizadeh V, Çiğ B · 2015
Turkish researchers exposed brain cells from epileptic rats to 900 MHz mobile phone radiation for one hour to see if it would worsen brain damage. They found that epilepsy itself caused significant cell death and oxidative stress in the hippocampus (the brain's memory center), but adding mobile phone radiation didn't make these effects any worse. This suggests that in already-damaged brain tissue, short-term mobile phone exposure may not add additional harm beyond what the underlying condition already causes.
Li C, Wu T. · 2015
Researchers measured how electromagnetic fields from store security systems (electronic article surveillance) affect infants, children, and adults differently. They found that infants absorb significantly more energy in their brain and nervous system tissues - 1.5 times more at one frequency and 112 times more at another frequency compared to adults. While current safety limits weren't exceeded, the dramatically higher absorption rates in infant brains warrant further investigation.
Landler L, Painter MS, Youmans PW, Hopkins WA, Phillips JB. · 2015
Researchers exposed young snapping turtles to low-level radio frequency fields to understand how they navigate using Earth's magnetic field. They found that RF exposure disrupted the turtles' magnetic compass, causing them to orient in different directions or become completely disoriented depending on when the RF was introduced. This suggests that common wireless signals could interfere with the natural navigation abilities that many animals rely on for survival.
Hossain MI, Faruque MRI, Islam MT. · 2015
Researchers used computer modeling to study how distance and angle between a cell phone and user's head affects SAR (specific absorption rate), which measures how much radiofrequency energy the head absorbs. They found that keeping the phone farther from your head significantly reduces SAR values, but changing the angle doesn't consistently help. This research provides practical guidance for reducing your exposure to cell phone radiation during calls.
Gramowski-Voß A et al. · 2015
German researchers exposed developing mouse brain tissue to electromagnetic fields combining low frequencies (10 and 16 Hz) with a higher carrier frequency (150 MHz) for 10 days. The exposure accelerated brain development, increased electrical activity, and promoted the growth of specific neurons called GABAergic neurons, which help regulate brain function. The researchers suggest this type of electromagnetic stimulation might have therapeutic potential for treating neurodegenerative diseases like Alzheimer's.
Ghosn R et al. · 2015
Researchers exposed 26 healthy young adults to radiofrequency signals from a mobile phone while measuring their brain activity using EEG (electroencephalogram). They found that RF exposure significantly reduced alpha brain waves (8-12 Hz), which are associated with relaxed, alert states, and this effect persisted even after the exposure ended. The study carefully controlled for other factors like stress hormones and caffeine that could influence brain activity.
Geronikolou SA et al. · 2015
Researchers studied how children's stress hormone systems respond to cell phone calls after experiencing mental stress. They found that children who regularly use cell phones had different cortisol (stress hormone) patterns compared to occasional users when making a 5-minute phone call after a stressful task. This suggests that frequent cell phone use may alter how young people's bodies handle stress.
Exelmans L, Van den Bulck J. · 2015
Researchers surveyed 844 adults in Belgium about their mobile phone use at bedtime and sleep quality. They found that people who sent texts or made calls after turning off the lights had worse sleep quality, took longer to fall asleep, and experienced more daytime fatigue. The effects were strongest in younger adults, while older adults showed different patterns including earlier wake times and shorter sleep duration.
