Research on electromagnetic radiation from cellular base stations, including 5G millimeter wave and sub-6 GHz deployments.
Sarimov R et al. · 2004
Swedish researchers exposed human immune cells to cell phone radiation at power levels 37 times below safety limits. The radiation caused DNA structural changes similar to heat shock stress, with effects varying between individuals and frequencies, suggesting cellular stress responses occur at extremely low exposure levels.
Anderson LE et al. · 2004
Researchers exposed pregnant rats and their offspring to 1.6 GHz radiofrequency radiation (similar to cell phone signals) for two years to study cancer risk. They found no increased cancer rates or significant health differences between exposed and unexposed animals. This study suggests that long-term exposure to this type of RF radiation at the tested levels may not substantially increase cancer risk in rats.
Cassel JC, Cosquer B, Galani R, Kuster N. · 2004
Researchers exposed rats to 2.45 GHz microwave radiation (the same frequency used in WiFi and microwave ovens) for 45 minutes daily, then tested their ability to navigate a maze that requires spatial memory. The exposed rats performed just as well as unexposed rats, showing no impairment in this type of learning and memory task. This contradicts some earlier studies that suggested microwave exposure could harm cognitive function.
Sarimov et al. · 2004
Researchers exposed human white blood cells (lymphocytes) to cell phone radiation at levels similar to what phones emit during calls. They found that 30-60 minutes of exposure caused changes in the DNA packaging inside cells that were similar to heat stress damage. These cellular changes occurred in most test subjects and suggest that phone radiation may trigger stress responses in our immune cells even at low power levels.
Sarimov et al. · 2004
Researchers exposed human immune cells to cell phone radiation at typical frequencies for 30 minutes to 1 hour. The extremely weak signals - 200 times below safety limits - triggered DNA packaging changes resembling heat stress in most subjects, suggesting cellular effects from everyday phone use.
Ilhan A et al. · 2004
Researchers exposed rats to cell phone radiation (900 MHz) for one hour daily over seven days, finding it caused brain cell damage through oxidative stress. Ginkgo biloba extract prevented this damage by protecting the brain's natural antioxidant systems, suggesting potential protection against phone radiation effects.
Demsia G, Vlastos D, Matthopoulos DP. · 2004
Researchers exposed rats to 910-MHz radiofrequency radiation (similar to cell phone frequencies) for 2 hours daily over 30 days and examined their bone marrow for genetic damage. They found a nearly threefold increase in micronuclei, which are markers of DNA damage and chromosome breaks, in the exposed animals compared to controls. This suggests that prolonged RF exposure at cell phone frequencies may cause genetic damage in blood-forming cells.
Hook et al. · 2004
Researchers exposed mouse immune cells to cell phone radiation for 20-22 hours to see if it caused oxidative stress (cellular damage from unstable molecules). The study tested two types of signals used in mobile phones at levels similar to what phones emit. No signs of oxidative stress were detected, and the cells remained healthy throughout the exposure period.
Hook GJ et al. · 2004
Researchers exposed immune system cells (Molt-4 T lymphoblastoid cells) to cell phone radiation at various frequencies for up to 24 hours to test whether it causes DNA damage or triggers cell death. They found no statistically significant DNA damage or cell death compared to unexposed cells across all tested frequencies and modulation types. This suggests that cell phone radiation at these exposure levels may not directly harm cellular DNA or kill immune cells in laboratory conditions.
Lagroye I et al. · 2004
Researchers exposed mouse cells to 2450 MHz microwave radiation (the same frequency used in microwave ovens and older WiFi) for 2 hours at 1.9 W/kg to test whether it damages DNA or creates harmful protein-DNA bonds. The study found no detectable DNA damage or crosslinks from the microwave exposure, even when combined with gamma radiation that was known to cause DNA damage.
Ono T et al. · 2004
Researchers exposed pregnant mice to 2.45 GHz radiofrequency radiation (the same frequency used in microwave ovens and WiFi) for 16 hours daily throughout pregnancy, then examined their offspring for DNA mutations in brain, liver, spleen, and reproductive organs. They found no increase in genetic damage compared to unexposed mice, even at radiation levels significantly higher than typical human exposure. This suggests that prenatal RF exposure at these levels does not cause detectable DNA mutations in developing mammals.
Mashevich M et al. · 2003
Researchers exposed human immune cells (lymphocytes) to 830 MHz cell phone radiation for 72 hours and found that higher radiation levels caused more chromosomal damage. The damage increased in direct proportion to the radiation dose, and it wasn't caused by heating effects. This type of genetic damage (called aneuploidy) is known to increase cancer risk.
Haarala C et al. · 2003
Researchers exposed 64 people to electromagnetic fields from 902 MHz mobile phones while they performed cognitive tests measuring reaction time and accuracy. Unlike their previous study that found some effects, this improved replication study with better controls found no differences in brain function whether the phone signal was on or off. The results suggest that mobile phone EMF either has no immediate impact on cognitive performance or any effects are too small to detect consistently.
Weisbrot D, Lin H, Ye L, Blank M, Goodman R. · 2003
Researchers exposed developing fruit flies to cell phone radiation at levels similar to phone use near your head. The radiation increased offspring numbers and triggered cellular stress responses, demonstrating that mobile phone signals can affect biological development even at non-heating power levels.
Dubreuil D, Jay T, Edeline JM. · 2003
Researchers exposed rats to 900 MHz cell phone radiation (GSM signals) for 45 minutes to test whether it affected their memory and learning abilities. The rats performed just as well as unexposed rats on complex maze tests and object recognition tasks, with one group even showing slightly better performance. This suggests that brief exposure to cell phone-level radiation doesn't impair memory function in rats.
Zeni et al. · 2003
Italian researchers exposed blood cells from 20 healthy people to 900 MHz cell phone radiation (the same frequency used by many mobile phones) to see if it would cause DNA damage. They tested various exposure patterns and intensities, including levels similar to what your phone produces during calls. The study found no significant DNA damage or changes in cell division, even after multiple exposure cycles.
Marino AA, Nilsen E, Frilot C · 2003
Researchers exposed rabbits to cell phone radiation (800 MHz) positioned near their heads, similar to how humans use phones, and measured brain electrical activity using EEG recordings. They found that 9 out of 10 animals showed significant changes in brain wave patterns within 100 milliseconds of exposure, with increased randomness in brain activity that lasted about 300 milliseconds. This demonstrates that cell phone radiation can directly alter brain function when absorbed by brain tissue.
La Regina M et al. · 2003
Researchers exposed 480 rats to cell phone radiation for 4 hours daily over 2 years to see if it caused cancer. They tested two types of signals (FDMA and CDMA) at levels similar to what your brain absorbs during phone calls. The study found no increase in tumors of any type compared to unexposed rats.
Anderson V. · 2003
Researchers modeled how cell phone radiation at 900 MHz affects children's brains differently than adults' brains. They found that 4-year-olds absorb 31% more radiation in their brain tissue than adults, with the difference decreasing as children age. Despite finding higher absorption rates in children, the researchers concluded this doesn't warrant special safety measures because current safety standards already account for these differences.
Gatta L et al. · 2003
Researchers exposed mice to cell phone radiation (900 MHz GSM) for 2 hours daily over 1-4 weeks to see if it would affect their immune system cells in the spleen. They found no significant changes in the numbers or types of immune cells, and the cells responded normally when stimulated. The study concluded that cell phone radiation at these levels is unlikely to cause clinically relevant immune system problems.
Irmak MK, Oztas E, Yagmurca M, Fadillioglu E, Bakir B. · 2003
Researchers exposed rats to 900 MHz radiation from a cellular phone for 30 minutes and examined specialized skin cells called Merkel cells, which help detect touch and pressure. They found significantly increased cellular activity in these sensory cells compared to unexposed rats. This suggests that cell phone radiation may affect the skin's sensory system in ways that could contribute to electromagnetic sensitivity symptoms.
Mashevich M et al. · 2003
Israeli researchers exposed human blood cells to cell phone radiation (830 MHz) for 72 hours and found that higher radiation levels caused increasing chromosomal damage, specifically abnormal chromosome numbers (aneuploidy). This type of genetic damage is known to increase cancer risk. The researchers confirmed this wasn't due to heating effects, proving the radiation itself damages DNA through non-thermal mechanisms.
Dabrowski MP et al. · 2003
Researchers exposed immune cells from healthy volunteers to pulse-modulated 1300 MHz microwave radiation at levels similar to cell phone emissions. The radiation significantly altered immune cell function, increasing production of inflammatory molecules and changing how immune cells communicate with each other. This suggests that even low-level microwave exposure can disrupt normal immune system operations.
Dabrowski MP et al. · 2003
Researchers exposed immune cells from 16 healthy people to low-level cell phone radiation (1300 MHz) and found significant changes in immune system function. The radiation increased production of inflammatory molecules (IL-1β and IL-10) while decreasing protective factors, essentially pushing the immune system toward a more inflammatory state. These changes occurred at radiation levels similar to what you might experience from cell phone use.
Yamaguchi H et al. · 2003
Researchers exposed rats to cell phone-type radiation (1439 MHz) while testing their ability to learn and remember food locations in a maze. They found that only the highest exposure levels - which caused body temperature to rise - impaired the rats' learning performance. At exposure levels about four times stronger than typical cell phones (but without heating effects), no learning problems occurred.