Choi SB, Kwon MK, Chung JW, Park JS, Chung K, Kim DW. · 2014
Researchers exposed 26 adults and 26 teenagers to radiation from 3G mobile phones for 32 minutes, measuring heart rate, breathing, and other body functions. The study found no significant changes in heart function, nervous system activity, or symptoms in either age group during exposure. This suggests that short-term exposure to 3G phone radiation at typical levels doesn't immediately affect basic body functions.
Sepehrimanesh M, Kazemipour N, Saeb M, Nazifi S. · 2014
Researchers exposed male rats to cell phone radiation (900 MHz) for 1-4 hours daily over 30 days, then analyzed protein changes in testicular tissue. They found significant alterations in 13 proteins, including heat shock proteins and antioxidant enzymes that typically respond to cellular stress. These changes suggest that even moderate cell phone radiation exposure can trigger stress responses in reproductive tissue without heating effects.
Sepehrimanesh M, Kazemipour N, Saeb M, Nazifi S. · 2014
Researchers exposed male rats to cell phone radiation (900 MHz) for 1-4 hours daily over 30 days and analyzed changes in testicular proteins. They found 13 proteins that appeared or disappeared after exposure, including stress-response proteins like heat shock proteins and antioxidant enzymes. This suggests that even moderate cell phone-level radiation triggers cellular stress responses in reproductive tissue.
Manta AK, Stravopodis DJ, Papassideri IS, Margaritis LH. · 2014
Researchers exposed fruit flies to cordless phone base station radiation and found cellular damage markers doubled in fly bodies after 6 hours. Female reproductive organs showed even faster responses, with damage markers increasing 2.5 times after just 1 hour of exposure.
Gryz K, Karpowicz J, Leszko W, Zradziński P. · 2014
Polish researchers measured radiofrequency radiation in 45 office buildings from cell towers, WiFi, and broadcast transmitters. They found exposure levels were generally low, with highest readings near indoor cell antennas (1.8 V/m) and radio transmitters (3.8 V/m), but all remained below international safety limits.
Zong C, Ji Y, He Q, Zhu S, Qin F, Tong J, Cao Y. · 2014
Researchers exposed mice to cell phone frequency radiation (900 MHz) for 4 hours daily for a week, then injected them with a DNA-damaging drug called bleomycin. They found that mice pre-exposed to the radiation showed less DNA damage from the drug and better antioxidant defenses compared to mice that received only the drug. This suggests the radiation exposure triggered protective cellular responses that helped the mice resist subsequent damage.
Aydogan F et al. · 2014
Researchers exposed rats to 3G mobile phone radiation (2100 MHz) for 6 hours daily and found significant damage to their parotid glands (the saliva-producing glands near your ears). The damage included changes to cell structure, blood vessels, and cellular components, with more severe effects after longer exposure periods (40 days versus 10 days). This matters because the parotid glands are located exactly where you hold your phone during calls.
Furtado-Filho OV et al. · 2014
Brazilian researchers exposed young rats to cell phone-level radiation (950 MHz) for 30 minutes daily, starting before birth and continuing up to 30 days after birth. They found no evidence of oxidative stress or DNA damage in most age groups, though 30-day-old rats showed some genetic changes and newborns had altered fatty acid levels in their livers. The study suggests that developing animals may be more resilient to short-term RF radiation exposure than previously thought.
Júnior LC et al. · 2014
Brazilian researchers exposed lab rats to cell phone radiation at 1.8 GHz (the frequency used by GSM phones) for three days and tested their behavior and memory. While the rats showed no anxiety or memory problems, they did exhibit stress-related behaviors. The study suggests that cell phone radiation may not directly harm brain function but could trigger stress responses in the nervous system.
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.
Koyama S et al. · 2014
Japanese researchers exposed immune cells called neutrophils to 2.45-GHz radiofrequency radiation (the same frequency used in WiFi and microwave ovens) at levels up to 10 W/kg for up to 24 hours. They found no significant effects on the cells' ability to migrate toward threats or engulf harmful particles - two critical immune functions. This suggests that RF exposure at current safety limits may not impair these specific immune responses.
Ghanmi A, Varsier N, Hadjem A, Conil E, Picon O, Wiart J. · 2014
French researchers tested 80 different positions of mobile phones against the head to measure how much radiofrequency energy (called SAR) reaches brain tissue at standard cell phone frequencies. They found that simply changing how you hold your phone can increase brain exposure by up to 20% compared to the standard cheek position used in safety testing. This means current safety tests may underestimate real-world exposure for some common phone positions.
Ozgur E, Guler G, Kismali G, Seyhan N · 2014
Researchers exposed liver cancer cells to mobile phone radiation at levels typical of phone use (2 W/kg SAR) for up to 4 hours. The radiation decreased cell survival and caused DNA damage, with 1,800-MHz frequencies proving more harmful than 900-MHz. This suggests that the radiofrequency radiation from mobile phones can directly damage cells at exposure levels considered safe by current regulations.
Qin F et al. · 2014
Researchers exposed male rats to cell phone radiation (1800 MHz) for 2 hours daily over 32 days and found it disrupted their natural body clocks and harmed reproductive function. The radiation reduced testosterone levels, decreased sperm production and movement, and interfered with the normal daily rhythms that regulate these processes. This suggests that the timing of EMF exposure throughout the day may influence how severely it affects male fertility.
Abu Khadra KM, Khalil AM, Abu Samak M, Aljaberi A. · 2014
Researchers measured biochemical changes in saliva from 12 young men before and after using mobile phones for 15 and 30 minutes at typical exposure levels. They found that cell phone radiation significantly increased levels of superoxide dismutase (SOD), an enzyme that fights cellular damage, suggesting the body was responding to oxidative stress. This provides direct evidence that even brief phone calls can trigger measurable biological responses in human cells.
Abu Khadra KM, Khalil AM, Abu Samak M, Aljaberi A. · 2014
Researchers measured biochemical changes in saliva from 12 young men before and after using mobile phones at typical exposure levels (1.09 W/kg SAR). They found that just 15 minutes of phone use triggered a significant increase in superoxide dismutase (an enzyme that fights cellular damage), indicating the body was responding to oxidative stress from the radiation.
Pawlak K, Sechman A, Nieckarz Z. · 2014
Polish researchers exposed chicken embryos to cell phone radiation (1800 MHz) during their development and measured hormone levels in their blood. They found that the radiation disrupted the thyroid system, reducing important thyroid hormones while increasing stress hormones in the embryos and newly hatched chicks. This suggests that exposure to wireless radiation during critical developmental periods can interfere with the hormone systems that control growth and metabolism.
Shirai T et al. · 2014
Japanese researchers exposed three generations of rats to cell phone signals (2.14 GHz W-CDMA) for 20 hours daily, testing brain function and development across multiple generations. They found no adverse effects on brain function, behavior, or development in any of the three generations studied. This comprehensive multigenerational study suggests that chronic exposure to these specific cell phone frequencies at the tested levels did not cause detectable brain or developmental problems in rats.
Shirai T et al. · 2014
Japanese researchers exposed rats to cell phone radiation (2.14 GHz W-CDMA signals) for 20 hours daily across three generations to see if it affected brain development and behavior. They found no abnormalities in brain function, behavior, or general health in any generation of rats, even with continuous exposure from pregnancy through adulthood. The study suggests that this type of cell phone radiation at these exposure levels does not cause harmful effects that pass from parents to offspring.
Geronikolou S et al. · 2014
Researchers exposed fruit flies (Drosophila) to radiation from both mobile phones (900 MHz) and cordless phones (1880 MHz) to study reproductive effects. They found that mobile phone radiation significantly reduced egg laying in the second generation of flies, while cordless phone radiation showed only limited effects. The study suggests that lower frequency radiation may cause stronger biological impacts.
Murbach et al. · 2014
Researchers investigated why radiofrequency radiation from cell phones appears to affect brain activity patterns (EEG) during sleep studies. They tested three possible explanations using computer models and found that RF exposure doesn't significantly heat the brain or interfere with electrode measurements. While the study ruled out these technical artifacts, the actual mechanism behind RF's effects on brain activity remains unexplained.
Taberski K et al. · 2014
Researchers exposed hamsters to 900 MHz electromagnetic fields (similar to 2G cell phone signals) at different power levels for one week each to study metabolic changes. At the highest exposure level (4 W/kg), hamsters showed reduced daytime metabolism, lower food consumption, and slightly elevated skin temperature, even though their core body temperature remained stable. This suggests that high-level radiofrequency exposure can alter basic metabolic processes in mammals.
Yilmaz A et al. · 2014
Researchers exposed rats to mobile phone radiation at typical usage levels for four weeks, then examined brain tissue for signs of cell death (apoptosis). They found significantly increased levels of proteins that control cell death in the exposed rats compared to unexposed controls. This suggests that mobile phone radiation may trigger cellular stress responses in brain tissue at exposure levels similar to everyday phone use.
Azadi Oskouyi E et al. · 2014
Researchers exposed male rabbits to 950 MHz microwave radiation (similar to older mobile phone frequencies) for 2 hours daily over 2 weeks. They found that the radiation caused significant damage to the epididymis (part of the male reproductive system), including tissue shrinkage, reduced testosterone levels at higher power, and increased cell death. This suggests that microwave radiation from mobile devices could potentially harm male fertility.
Seckin E et al. · 2014
Researchers exposed pregnant rats and their offspring to cell phone radiation (900 and 1800 MHz frequencies) for one hour daily during pregnancy and for 21 days after birth. While hearing tests showed no differences between exposed and unexposed animals, microscopic examination revealed significant cellular damage in the inner ear structures responsible for hearing. This suggests that cell phone radiation can harm developing hearing organs even when functional hearing appears normal.
