Schuz J et al. · 2006
German researchers studied 747 brain tumor patients and 1,494 healthy controls to examine whether cell phone and cordless phone use increases the risk of glioma and meningioma (two types of brain tumors). While they found no overall increased risk from phone use, people who used cell phones for 10 or more years showed a 2.2-fold higher risk of glioma, though this finding wasn't statistically definitive. The results suggest potential long-term risks that require further investigation.
Russo R et al. · 2006
Researchers tested 168 people on attention and cognitive tasks while exposed to mobile phone signals (both GSM and continuous wave) versus fake signals. They found no significant differences in performance on reaction time, vigilance, or mental math tasks regardless of which type of signal participants were exposed to or which side of the head the phone was positioned on.
Muscat JE, Hinsvark M, Malkin M · 2006
Researchers analyzed brain cancer rates in the United States from 1973 to 2002, comparing them to the dramatic rise in mobile phone use that began in 1984. Despite mobile phone subscriptions increasing exponentially during this period, rates of neuronal brain cancers remained unchanged. This suggests that mobile phone use does not increase the risk of these specific types of brain tumors.
Merola P et al. · 2006
Italian researchers exposed neuroblastoma cells (a type of nerve cell) to 900 MHz radiofrequency radiation at levels higher than occupational safety limits for up to 72 hours. They found no significant changes in cell growth, death, or differentiation processes. This suggests that even at elevated exposure levels, this type of cell phone radiation may not directly damage these particular nerve cells in laboratory conditions.
Lahkola A, Tokola K, Auvinen A. · 2006
Researchers analyzed 12 studies involving 2,780 people with brain tumors to determine if mobile phone use increases cancer risk. They found no significant increase in brain tumor risk for people who used mobile phones for more than 5 years, with odds ratios (risk measures) hovering around 1.0 for all tumor types studied. This suggests that at least for the first 5-10 years of mobile phone use, the risk of developing brain tumors does not appear to increase substantially.
Hepworth SJ et al. · 2006
Researchers studied 966 glioma patients and 1,716 healthy controls to see if mobile phone use increases brain tumor risk. They found no overall increased risk of glioma from phone use, with an odds ratio of 0.94 (meaning slightly lower risk, though not statistically significant). However, they noted some curious findings about tumor location that they attributed to recall bias rather than real biological effects.
Hamblin DL, Croft RJ, Wood AW, Stough C, Spong J. · 2006
Researchers exposed 120 people to mobile phone radiation for 30 minutes while measuring their brain activity and reaction times during cognitive tasks. They found no significant changes in brain function, reaction speed, or electrical brain patterns compared to fake exposure sessions. This contradicts some earlier studies that suggested cell phones might affect how quickly the brain processes information.
Verschaeve L et al. · 2006
Researchers exposed female rats to cell phone radiation (900 MHz) for 2 years while also giving them a known cancer-causing chemical in their drinking water to see if the radiation would make DNA damage worse. They found that the radiation alone didn't cause genetic damage, and it didn't increase the DNA damage caused by the chemical. This suggests that long-term exposure to cell phone-level radiation may not enhance the harmful effects of other toxins on our genetic material.
Wood A, Loughran S, Stough C · 2006
Researchers exposed 55 adults to mobile phone radiation for 30 minutes before bedtime to see if it affected melatonin production, the hormone that regulates sleep. While total nighttime melatonin levels remained unchanged, the study found that phone exposure significantly reduced melatonin production in the pre-bedtime period. This suggests that evening phone use may delay the natural onset of melatonin, potentially disrupting your body's preparation for sleep.
Vrijheid M, Deltour I, Krewski D, Sanchez M, Cardis E. · 2006
Researchers used computer simulations to examine how memory errors and study design flaws might affect cancer research on cell phone use. They found that when people can't accurately remember their past phone usage, studies may significantly underestimate the true cancer risk from mobile phones. This suggests that existing studies showing little or no cancer risk may be missing real health effects due to these research limitations.
Vrijheid M et al. · 2006
Researchers tracked actual mobile phone use in 672 volunteers across 11 countries using operator records and software-modified phones, then compared this to what people remembered six months later. The study found that people's memories were moderately accurate but contained significant errors - light users underestimated their phone use while heavy users overestimated it. This memory bias weakens the ability of cancer studies to detect real health risks from mobile phone radiation.
Salahaldin AH, Bener A. · 2006
Researchers in Qatar examined all 13 cases of acoustic neuroma (a type of brain tumor) diagnosed over two years and found that most patients were heavy cell phone users, making calls 14 times daily for over 5 years. The country's acoustic neuroma rate of 17.2 cases per million people was higher than rates reported in other countries. This suggests a potential link between intensive cell phone use and this specific type of brain tumor.
Papageorgiou CC et al. · 2006
Researchers exposed 19 healthy adults to 900 MHz mobile phone radiation while measuring their brain activity during a working memory test. The radiation significantly altered brain wave patterns called P50 components, which reflect how the brain processes information before conscious awareness. These changes suggest that mobile phone emissions can affect fundamental brain processing, even during brief exposures.
Oktay MF, Dasdag S · 2006
Researchers compared hearing function in three groups of men: heavy cell phone users (2 hours daily for 4 years), moderate users (10-20 minutes daily), and non-users. Heavy users showed measurably worse hearing thresholds at specific frequencies, particularly at 4000 Hz, while moderate users showed no difference from non-users. This suggests that intensive cell phone use may contribute to hearing loss over time.
Maby E, Le Bouquin Jeannes R, Faucon G. · 2006
Researchers exposed 15 people (9 healthy subjects and 6 epilepsy patients) to GSM cell phone signals while measuring their brain activity with EEG electrodes. They found that cell phone radiation altered the brain's electrical patterns in both groups - healthy people showed decreased brain wave activity, while epilepsy patients showed increased activity. The changes occurred specifically in areas of the brain associated with visual processing and consciousness.
Lopez-Martin E et al. · 2006
Spanish researchers studied whether cell phone radiation could trigger seizures in rats that were already vulnerable to seizures (treated with a brain chemical called picrotoxin). When exposed to 900 MHz GSM radiation similar to mobile phones for 2 hours, these seizure-prone rats developed actual seizures and showed increased brain activity markers, while control rats without radiation exposure did not seize. This suggests cell phone radiation might worsen seizure risk in individuals who are already neurologically vulnerable.
Krause CM et al. · 2006
Finnish researchers studied how mobile phone radiation affects brain activity in 15 children (ages 10-14) while they performed memory tasks. When exposed to 902 MHz radiation from an active phone, the children showed measurable changes in their brain wave patterns during both memory encoding and recognition phases. This demonstrates that cell phone radiation can directly alter brain function in developing minds, even during short-term exposure.
Kim SC, Nam KC, Kim DW. · 2006
Researchers developed a computer model to estimate how much radiofrequency radiation different cell phone users receive based on their usage patterns. The model considers factors like daily usage time, hands-free use, phone type, and the phone's specific absorption rate (SAR) to rank exposure risk on a 0-10 scale. This tool could help scientists better categorize study participants in future research investigating links between cell phone radiation and brain cancer.
Keshvari J, Keshvari R, Lang S. · 2006
Researchers used computer modeling to examine how radiofrequency energy from cell phones is absorbed by children's heads compared to adults, accounting for the fact that children's tissues have higher water content. They tested common cell phone frequencies (900, 1800, and 2450 MHz) and found that even when tissue water content was increased by 5-20% to simulate children's physiology, energy absorption (SAR) varied by only about 5% on average. The study suggests that tissue composition differences between children and adults may have less impact on RF absorption than previously thought.
Keetley V, Wood AW, Spong J, Stough C. · 2006
Researchers tested 120 people on cognitive tasks while exposed to cell phone radiation at maximum legal power levels. They found that phone radiation slowed down simple reaction times (how quickly people could respond to basic signals) but improved performance on complex memory tasks. This suggests cell phone radiation can alter brain function in measurable ways, though the effects varied depending on the type of mental task.
Hardell L, Carlberg M, Hansson Mild K. · 2006
Researchers analyzed phone use data from 905 brain cancer patients and 2,162 healthy controls to examine whether cellular and cordless phones increase brain tumor risk. They found that heavy phone users (more than 2,000 hours of lifetime use) had significantly higher rates of malignant brain tumors, with analog phones showing the highest risk at nearly 6 times normal rates. The risk was greatest when tumors developed on the same side of the head where people typically held their phone.
Hardell L, Carlberg M, Hansson Mild K. · 2006
Swedish researchers analyzed data from over 3,400 people to examine whether cell phone and cordless phone use increases the risk of benign brain tumors. They found that analog cell phone users had nearly triple the risk of developing acoustic neuroma (a tumor affecting hearing), while digital phones and cordless phones showed more modest increases in risk. The risk was highest among people who had used analog phones for more than 15 years.
Hardell, L., Carlberg, M., Mild, K., 2005. · 2006
Swedish researchers studied 317 people with malignant brain tumors and compared their phone usage to 692 healthy controls. They found that people who used analog cell phones, digital cell phones, or cordless phones had roughly 2-3 times higher odds of developing brain tumors, with the risk increasing to 3-4 times higher for those who used phones for more than 10 years. The risk was strongest for high-grade astrocytoma, an aggressive type of brain cancer.
Ferreri F et al. · 2006
Researchers used brain stimulation techniques to measure how cell phone radiation affects brain activity in 15 men during 45-minute exposures. They found that GSM phone signals significantly altered brain excitability patterns, reducing the brain's natural inhibitory responses and enhancing facilitation in the exposed hemisphere compared to the unexposed side. This demonstrates that mobile phone emissions can measurably change how brain circuits function, even without causing any temperature increase.
Fayos-Fernandez J et al. · 2006
Spanish researchers studied how metallic ear piercings affect radiation absorption when using cell phones at 900 MHz. They found that wearing metal objects near your ear increases peak SAR (specific absorption rate) values, meaning more electromagnetic energy gets absorbed by your head tissues. This suggests that common accessories like earrings could amplify your exposure to cell phone radiation.
