Joubert V et al. · 2006
French researchers exposed human brain cells to cell phone radiation at 900 MHz for 24 hours to see if it would trigger cell death (apoptosis). They tested two exposure levels - one mimicking typical phone use and another eight times higher. The study found no increase in brain cell death at either exposure level, suggesting that 24-hour exposure to cell phone radiation does not kill these particular brain cells.
Finnie JW, Blumbergs PC, Cai Z, Manavis J, Kuchel TR. · 2006
Researchers exposed pregnant mice to cell phone-like radiation (900 MHz) for one hour daily throughout pregnancy to see if it would damage the blood-brain barrier in developing fetal brains. The blood-brain barrier is a protective filter that prevents harmful substances from entering brain tissue. They found no damage to this protective barrier in any brain region examined, suggesting the radiation exposure did not compromise brain protection during development.
Nasta F et al. · 2006
Researchers exposed mice to cell phone radiation (900 MHz GSM signals) for 2 hours daily over 4 weeks to test whether it affects immune system function, specifically B-cells that produce antibodies to fight infections. They found no changes in B-cell development, antibody production, or immune responses compared to unexposed mice. This suggests that this level of cell phone radiation exposure doesn't impair the immune system's ability to protect against disease.
Calcagnini G et al. · 2006
Italian researchers tested whether GSM mobile phones could interfere with medical infusion pumps that deliver medications to patients. They found that 6 out of 8 volumetric pumps and 1 out of 4 syringe pumps malfunctioned when exposed to phones at maximum power within 30 centimeters. This matters because pump malfunctions in hospitals could deliver incorrect medication doses to critically ill patients.
Zhang DY, Xu ZP, Chiang H, Lu DQ, Zeng QL. · 2006
Researchers exposed Chinese hamster lung cells to cell phone radiation (1800 MHz GSM) at levels similar to what your phone produces during heavy use. After 24 hours of intermittent exposure, they found a 35% increase in DNA damage markers compared to unexposed cells. This suggests that prolonged cell phone radiation exposure may cause genetic damage at the cellular level.
Zhang DY, Xu ZP, Chiang H, Lu DQ, Zeng QL. · 2006
Chinese researchers exposed hamster lung cells to cell phone radiation at 1800 MHz (the frequency used by GSM networks) for either 1 or 24 hours to see if it would damage DNA. They found that 24-hour exposure at high intensity (3.0 W/kg) significantly increased DNA damage markers compared to unexposed cells, while 1-hour exposure showed no effect. This suggests that prolonged exposure to cell phone-type radiation may harm cellular DNA.
Zhang DY, Xu ZP, Chiang H, Lu DQ, Zeng QL. · 2006
Researchers exposed hamster lung cells to 1800 MHz radiation from GSM cell phones for 1 or 24 hours. Twenty-four hour exposure significantly increased DNA damage in 37.9% of cells versus 28.0% in unexposed cells, showing duration matters for cellular harm.
Paulraj R, Behari J · 2006
Researchers exposed developing rat brains to 2.45 GHz radiation (the same frequency as WiFi and microwaves) for 2 hours daily over 35 days. They found significant decreases in protein kinase C activity in the hippocampus, a brain region crucial for learning and memory, plus increased glial cells which can indicate brain inflammation. The study suggests that chronic microwave exposure during brain development may interfere with normal growth and cellular function.
Chauhan V et al. · 2006
Researchers exposed human immune cells to 1.9 GHz radiofrequency radiation at levels similar to cell phone use (1-10 W/kg SAR) to see if it triggered cellular stress responses. They measured key stress markers including heat shock proteins and proto-oncogenes that typically activate when cells are damaged. The study found no significant changes in these stress indicators, suggesting the RF exposure did not cause detectable cellular stress under these laboratory conditions.
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.
Chauhan V et al. · 2006
Researchers exposed human immune cells to 1.9 GHz radiofrequency radiation (similar to cell phone signals) at power levels of 1 and 10 watts per kilogram for 6 hours to see if it would trigger stress responses or activate genes linked to cancer development. They found no changes in stress proteins or cancer-related genes at either power level, while heat treatment (as a positive control) did trigger the expected cellular stress responses.
Heikkinen et al. · 2006
Finnish researchers exposed female rats to 900 MHz radiofrequency radiation (similar to cell phone frequencies) for 2 hours daily over 2 years while also giving them a known cancer-causing chemical in their drinking water. The study aimed to see if RF radiation would make tumors more likely to develop. The researchers found no evidence that RF radiation increased cancer risk, even when combined with a chemical known to cause tumors.
Yu D, Shen Y, Kuster N, Fu Y, Chiang H. · 2006
Researchers exposed 500 female rats to 900 MHz cell phone radiation (the same frequency used by GSM phones) for 4 hours daily over 26 weeks after giving them a cancer-causing chemical. While the study found no statistically significant increase in mammary tumors from RF exposure, there was a concerning trend toward higher cancer rates in rats exposed to the highest radiation levels, particularly during weeks 15-26.
Finnie JW, Cai Z, Blumbergs PC, Manavis J, Kuchel TR. · 2006
Researchers exposed pregnant mice to 900 MHz cell phone radiation for one hour daily throughout pregnancy to see if it would stress developing fetal brains. They measured c-fos, a protein that appears when brain cells are under stress. The study found no difference in stress markers between exposed and unexposed fetal brains, suggesting this level of radiation didn't cause detectable neural stress during development.
Vijayalaxmi · 2006
Researchers exposed human blood cells to radiofrequency radiation at 2.45 GHz and 8.2 GHz (frequencies used in WiFi and microwave ovens) for 2 hours to see if it caused genetic damage. They found no significant increase in chromosomal damage or DNA breaks compared to unexposed cells. This suggests that short-term RF exposure at these power levels may not directly damage genetic material in blood cells.
Sukhotina I, Streckert JR, Bitz AK, Hansen VW, Lerchl A · 2006
Researchers exposed isolated hamster pineal glands (which produce melatonin, the sleep hormone) to cell phone radiation at 1800 MHz for 7 hours at various power levels. Surprisingly, they found that moderate exposure levels actually increased melatonin production, while only the highest level (which caused tissue heating) suppressed it. This challenges the widely-discussed theory that cell phone radiation disrupts sleep by reducing melatonin.
Faraone et al. · 2006
Scientists tested how much cell phone radiation mice absorbed in a specialized exposure system. The 900 MHz radiation (older cell phone frequency) was precisely delivered at doses up to 3.4 watts per kilogram, concentrating mainly in the head, neck, and abdomen areas.
Hoyto A, Sihvonen AP, Alhonen L, Juutilainen J, Naarala J · 2006
Researchers exposed mouse cells to cell phone-level radiofrequency radiation for 24 hours. The RF radiation itself caused no biological effects, but tiny temperature increases (less than 1°C) significantly affected cellular enzyme activity, showing temperature control is crucial in EMF studies.
Masuda H et al. · 2006
French researchers exposed hairless rats to cell phone radiation (GSM-900 and GSM-1800 signals) for 2 hours at high intensity levels (5 W/kg SAR) and examined their skin tissue for damage. They found no changes in skin thickness, cell death, cell growth patterns, or key skin proteins compared to unexposed animals. This suggests that acute exposure to these cell phone frequencies at high levels does not cause immediate visible damage to skin tissue.
Mora R, Crippa B, Mora F, Dellepiane M · 2006
Italian researchers tested whether cell phone radiation affects hearing by exposing 20 healthy men to phone signals (900-1,800 MHz) for 15-30 minutes while measuring their auditory responses. They found no changes in hearing function during or after exposure. This suggests short-term cell phone use doesn't immediately damage the auditory system.
Sanchez S et al. · 2006
French researchers exposed hairless rats to cell phone radiation (GSM-900 and GSM-1800 signals) for 2 hours daily over 12 weeks to study effects on skin health. They found no significant changes in skin thickness, cell growth patterns, or key structural proteins compared to unexposed rats. This suggests that chronic exposure to these specific cell phone frequencies at the tested levels did not cause detectable skin damage in this animal model.
Espinosa JM, Liberti M, Lagroye I, Veyret B. · 2006
Scientists exposed rat brain tissue to magnetic fields from power lines and found significant changes in serotonin receptors that control mood and sleep. One hour of exposure at levels found near electrical equipment altered brain chemistry, demonstrating that common magnetic field exposure can directly affect how brain cells function.
Capri M et al. · 2006
Italian researchers exposed immune cells from young and elderly people to cell phone radiation levels. They found radiation reduced CD95 (a key immune protein) only in older adults' cells, not younger ones, suggesting aging may increase vulnerability to radiofrequency effects on immune function.
Trosic I, Busljeta I. · 2006
Researchers exposed rats to WiFi-frequency radiation (2.45 GHz) for 2 hours daily over weeks. The exposure initially damaged blood cells and disrupted bone marrow production, but effects normalized by study's end, suggesting rats may adapt to chronic microwave exposure.
Sun LX, Yao K, He JL, Lu DQ, Wang KJ, Li HW. · 2006
Researchers exposed human eye lens cells to mobile phone radiation at different power levels for 2 hours. Lower exposures caused repairable DNA damage, but higher levels (4 W/kg) created permanent breaks cells couldn't fix, suggesting phone radiation may overwhelm the eye's natural repair systems.
