Faucon G, Le Bouquin Jeannes R, Maby E. · 2006
Researchers measured brain wave activity in 9 healthy people and 6 epileptic patients while they were exposed to GSM cell phone signals. The study found that cell phone radiation altered the brain's electrical patterns in both groups, decreasing energy in certain brain wave frequencies for healthy subjects and increasing it for epileptic patients. This demonstrates that even short-term exposure to cell phone radiation can measurably change how the brain functions electrically.
Esen F, Esen H · 2006
Turkish researchers examined how cell phone radiation affects the nervous system by measuring skin conductance responses, which reflect sympathetic nervous system activity. They found that exposure to cell phone electromagnetic fields delayed these neurological responses by about 200 milliseconds and disrupted normal brain hemisphere coordination. This suggests cell phone radiation can interfere with brain timing functions that are crucial for motor responses and reaction times.
Eliyahu I et al. · 2006
Israeli researchers exposed 36 healthy men to cell phone radiation at 890 MHz for two hours while they performed cognitive tasks designed to test different brain regions. They found that radiation exposure to the left side of the brain significantly slowed reaction times for left-hand responses, particularly during the second hour of exposure. This suggests that cell phone radiation can impair cognitive performance in the specific brain areas closest to the phone.
de Salles AA, Bulla G, Rodriguez CE. · 2006
Researchers used computer simulations to compare how much radiofrequency radiation children's heads absorb from mobile phones compared to adults. They found that 10-year-old children absorb over 60% more radiation in their heads than adults when using the same phone. This happens because children have smaller heads, thinner skulls, and different tissue properties that allow deeper radiation penetration.
Beede KE, Kass SJ. · 2006
Researchers tested 36 college students in driving simulators to see how hands-free cell phone conversations affected their driving ability. They found that talking on the phone significantly impaired performance in all four areas measured: traffic violations (like speeding), lane maintenance, attention lapses (like stopping at green lights), and reaction times. The study demonstrates that even hands-free phone calls create dangerous cognitive distractions while driving.
Aalto S et al. · 2006
Finnish researchers used brain imaging to study how cell phones affect blood flow in the brain while 12 men performed memory tasks. They found that an active mobile phone decreased blood flow directly beneath the antenna in the temporal lobe while increasing it in the frontal brain region. This provides the first direct evidence that cell phone radiation can measurably alter brain physiology in humans.
Wilen J, Johansson A, Kalezic N, Lyskov E, Sandstrom M. · 2006
Swedish researchers exposed 20 people who experience symptoms from mobile phones and 20 people without symptoms to 900 MHz cell phone radiation for 30 minutes at levels typical of phone use. While the radiation didn't cause immediate measurable changes in either group, the symptomatic individuals showed different nervous system patterns during cognitive tests, suggesting their autonomic nervous systems may function differently regardless of radiation exposure.
Hutter HP, Moshammer H, Wallner P, Kundi M. · 2006
Researchers measured EMF exposure from cell phone towers in the bedrooms of 365 people living nearby and tested their health and thinking abilities. Even though the radiation levels were extremely low (far below safety guidelines), people closer to the towers reported more headaches and showed changes in mental performance. This suggests that even very weak EMF exposure from cell towers might affect how people feel and think.
Wilen J, Johansson A, Kalezic N, Lyskov E, Sandstrom M · 2006
Swedish researchers exposed 20 people who experience symptoms from mobile phones (like headaches or fatigue) and 20 people without such symptoms to 30 minutes of GSM cell phone radiation at 1 W/kg SAR. While the radiation exposure itself didn't cause measurable changes in either group, the symptomatic individuals showed different nervous system patterns during cognitive tests, suggesting their autonomic nervous systems may respond differently to stress regardless of EMF exposure.
Tornros JE, Bolling AK. · 2005
Researchers tested 48 drivers using mobile phones while navigating simulated driving courses to measure how phone use affects driving performance and mental workload. They found that both handheld and hands-free phone use significantly impaired drivers' ability to detect peripheral events and maintain proper vehicle control, indicating increased mental strain regardless of phone type. The study reveals that hands-free devices don't eliminate the cognitive distraction that makes phone use dangerous while driving.
Sievert U, Eggert S, Pau HW · 2005
German researchers tested whether mobile phone emissions affect hearing by measuring auditory brain stem responses in 12 healthy volunteers before, during, and after exposure to both pulsed and continuous electromagnetic fields from standardized mobile phones. They found no changes in hearing function or brain stem responses during the short-term exposure period, though they acknowledged their study couldn't rule out potential long-term effects.
Shirai T et al. · 2005
Japanese researchers exposed rats to cell phone radiation (1.439 GHz) for 2 years to see if it would promote brain tumors in animals already given a cancer-causing chemical. The EMF exposure did not increase tumor rates or accelerate brain cancer development at either exposure level tested (0.67 or 2.0 W/kg SAR). This suggests that chronic cell phone radiation exposure may not promote brain tumor growth, at least under these specific experimental conditions.
Schoemaker MJ et al. · 2005
Researchers studied 678 people with acoustic neuroma (a type of brain tumor near the ear) and compared their mobile phone use to 3,553 healthy controls across five Northern European countries. Overall, regular mobile phone use did not increase the risk of developing these tumors. However, people who used phones for 10 years or longer on the same side of their head where the tumor developed showed an 80% increased risk, suggesting long-term use may pose concerns.
Preece AW et al. · 2005
Researchers tested whether cell phone radiation at 902 MHz affects thinking and reaction time in 18 children ages 10-12. While children showed slightly faster reaction times during phone exposure compared to no exposure, the differences were not statistically significant. The study failed to replicate earlier findings in adults, possibly because it used a weaker GSM phone rather than the more powerful analog phone used in previous research.
Pau HW, Sievert U, Eggert S, Wild W · 2005
German researchers tested whether mobile phone radiation could affect balance by heating the inner ear enough to trigger dizziness (similar to how hot water in the ear causes vertigo during medical tests). They exposed 13 volunteers to GSM phone signals at 889.6 MHz while monitoring their eyes for involuntary movements that would indicate balance disruption. The study found no balance effects and confirmed that phone radiation barely heats tissue beyond the surface layer, with temperature increases less than 0.1°C in the inner ear structures responsible for balance.
Lonn S, Ahlbom A, Hall P, Feychting M. · 2005
Swedish researchers studied whether long-term mobile phone use increases brain tumor risk by comparing 644 brain tumor patients with 674 healthy controls over a period when many people had used phones for more than 10 years. They found no increased risk of glioma or meningioma brain tumors, even among the heaviest users. The study actually showed slightly lower tumor rates among phone users, though this protective effect was likely due to study limitations rather than phones preventing cancer.
Kuribayashi M et al. · 2005
Researchers exposed young and developing rats to cell phone-frequency radiation (1439 MHz) for 90 minutes daily to see if it damaged the blood-brain barrier, which protects the brain from harmful substances. Even at high exposure levels (up to 6 W/kg), they found no changes in barrier function or protective proteins after 1-2 weeks of exposure. This suggests that this type of radiofrequency radiation may not compromise the brain's natural protective barrier in young animals.
Koyu A et al. · 2005
Researchers exposed rats to cell phone frequencies (900 MHz and 1800 MHz) for 30 minutes daily over four weeks and measured their nighttime melatonin levels. They found no significant differences in melatonin production between exposed and unexposed rats. This suggests that typical cell phone radiation may not disrupt the body's natural sleep hormone production, at least under these specific exposure conditions.
Iudice A et al. · 2005
Researchers tested how hands-free cell phone use affects driving ability when combined with alcohol and sleep deprivation. They found that using a hands-free phone while driving actually helped counteract some of alcohol's impairment effects when drivers were well-rested. However, when drivers were severely sleep-deprived (24 hours awake), the combination of alcohol and phone use created the most dangerous driving conditions.
Haarala C et al. · 2005
Researchers tested whether 902 MHz cell phone radiation affects children's thinking abilities by having 32 kids aged 10-14 take cognitive tests while exposed to both active and inactive phones. They found no differences in reaction time or accuracy between the two conditions. This challenges earlier studies suggesting cell phone radiation might actually improve cognitive performance.
Galloni P et al. · 2005
Researchers exposed rats to cell phone radiation at 900 and 1800 MHz frequencies for 2 hours daily over 4 weeks to test if it damaged their inner ear function. Using sensitive hearing tests that measure the health of cochlear hair cells (the tiny structures that convert sound waves into nerve signals), they found no differences between exposed and unexposed animals. This suggests that typical cell phone radiation levels may not directly harm the delicate hearing mechanisms in the inner ear.
Galloni P et al. · 2005
Researchers exposed rats to 900 MHz electromagnetic fields (the same frequency used by many cell phones) and measured their hearing function using specialized tests that detect the health of inner ear cells. The study found no significant changes in hearing function during or after EMF exposure. This suggests that cell phone radiation at 900 MHz may not directly damage the delicate hair cells in the cochlea that are essential for hearing.
Christ A, Kuster N. · 2005
Researchers reviewed how radiofrequency energy from cell phones is absorbed differently in children's heads versus adults' heads. Contrary to earlier assumptions, they found that children don't necessarily absorb more RF energy than adults despite having smaller heads. The study identified that factors like tissue properties and ear structure still need more research to fully understand exposure differences.
Besset A, Espa F, Dauvilliers Y, Billiard M, de Seze R. · 2005
French researchers tested whether daily mobile phone use affects cognitive function by having 55 people use phones for 2 hours a day, 5 days a week for nearly a month. They found no measurable effects on memory, attention, information processing, or executive function compared to a control group using inactive phones. This suggests that typical daily phone use doesn't immediately impair cognitive performance, at least when tested after a 13-hour rest period.
Szyjkowska A et al. · 2005
Polish researchers surveyed 117 university students about their health symptoms and mobile phone use habits. They found that 70% reported headaches and 56% had concentration problems, though most students didn't connect these symptoms to their phone use. The most commonly recognized phone-related symptom was a warming sensation in and around the ear, reported by 28% of participants.
