Cheun BS, Yi SH, Baik KY, Lim JK, Yoo JS, Shin HW, Soh KS · 2007
Researchers exposed canine kidney cells to a 60 Hz magnetic field (the same frequency as household electricity) while measuring their light emission when stressed by hydrogen peroxide. The magnetic field altered how cells responded to oxidative stress, changing the pattern of light they emitted. This suggests that power frequency magnetic fields can influence cellular stress responses at the biochemical level.
Tkalec M, Malarić K, Pevalek-Kozlina B. · 2007
Researchers exposed duckweed plants to cell phone-like radiofrequency radiation at 400 and 900 MHz frequencies. The exposure caused oxidative stress, where harmful molecules damage plant cells by overwhelming natural defenses. Higher frequency radiation generally produced more severe cellular damage than lower frequencies.
Che Y, Sun H, Cui Y, Zhou D, Ma Y. · 2007
Researchers exposed young chicks to magnetic fields from power lines for 20 hours daily and tested their learning ability. Chicks with prolonged exposure showed significantly impaired learning and memory compared to unexposed chicks, suggesting extended magnetic field exposure may interfere with brain development.
Manikonda PK et al. · 2007
Researchers exposed young rats to magnetic fields from power lines for 90 days, then examined their brain tissue. The exposure disrupted calcium signaling and reduced NMDA receptor function in the hippocampus, suggesting power line magnetic fields could interfere with learning and memory development.
Baohong W et al. · 2007
Chinese researchers exposed human immune cells to 1.8 GHz microwave radiation and UV light. Microwaves alone caused no DNA damage, but when combined with UV, they disrupted normal DNA repair - initially reducing damage then increasing it hours later, suggesting unpredictable interference with cellular repair mechanisms.
Barcal J, Vozeh F · 2007
Researchers exposed mice to 900 MHz electromagnetic radiation (the same frequency used by cell phones) and directly measured brain activity in two key regions: the cortex and hippocampus. They found that this radiation altered normal brain wave patterns, shifting cortical activity to lower frequencies while increasing higher frequencies in the hippocampus. These changes occurred even though the mice received lower radiation doses than humans typically get when using cell phones.
Zhao TY, Zou SP, Knapp PE. · 2007
Researchers exposed brain cells (neurons and astrocytes) from cell cultures to radiation from a 1900 MHz cell phone for just 2 hours. They found that this exposure activated genes that trigger cell death, with brain neurons being more sensitive than support cells. The concerning part is that these cellular death pathways were triggered even when the phone was in standby mode, not just during active calls.
Hung CS, Anderson C, Horne JA, McEvoy P. · 2007
Researchers exposed 10 healthy young adults to a GSM mobile phone in 'talk mode' for 30 minutes during the day, then measured how long it took them to fall asleep afterward. They found that exposure to the phone's talk-mode signal significantly delayed the onset of sleep compared to when the phone was off or in other modes. The study suggests that the specific radio frequency patterns used during phone calls may interfere with the brain's natural transition to sleep.
Barcal J, Vozeh F. · 2007
Researchers measured brain activity in mice while exposing them to 900 MHz radiofrequency radiation (the same frequency used by cell phones). They found that this exposure caused measurable changes in brain wave patterns in both the cortex and hippocampus - key brain regions involved in thinking and memory. The changes were most pronounced in healthy mice, suggesting that cell phone-frequency radiation can directly alter normal brain function.
Terao Y et al. · 2007
Researchers tested whether 30 minutes of mobile phone exposure affects eye movement control (saccades) in 10 healthy adults. They measured various types of rapid eye movements before and after exposure to 800 MHz radiation at 0.054 W/kg SAR. The study found no significant changes in eye movement performance, suggesting short-term mobile phone use doesn't impair this aspect of brain function.
Speit G, Schütz P, Hoffmann H. · 2007
German researchers exposed mammalian cells to radiofrequency radiation at cell phone levels (1800 MHz, SAR 2 W/kg) to test whether RF exposure causes DNA damage. Using two different cell lines and multiple DNA damage tests, they found no genetic damage from the radiation exposure. This study contradicted earlier findings from the REFLEX project that had reported DNA damage from similar RF exposures.
Masuda H et al. · 2007
Researchers exposed rats' heads to cell phone-level radiation (1439 MHz) for one hour daily over four weeks to study effects on brain blood vessels. They found no changes in blood-brain barrier function, immune cell behavior, or blood flow in the brain. This suggests that this level of radiofrequency exposure may not disrupt the brain's delicate blood vessel system.
Erogul O et al. · 2006
Researchers exposed sperm samples from 27 men to radiation from an active 900 MHz cell phone and compared them to unexposed samples. The cell phone radiation significantly reduced sperm movement, with fewer sperm swimming rapidly or slowly, and more sperm becoming completely immobile. This suggests that the electromagnetic fields from cell phones can directly impair male fertility by damaging sperm function.
Belyaev IY et al. · 2006
Researchers exposed rats to cell phone radiation for 2 hours at typical usage levels. While no DNA damage occurred, the radiation altered 12 brain genes controlling neurotransmitters, blood-brain barrier function, and melatonin production, showing that brief phone exposure can trigger biological changes in brain cells.
Belyaev IY et al. · 2006
Scientists exposed rats to cell phone radiation at 915 MHz for 2 hours and found it changed gene activity in the brain without causing DNA breaks. The radiation altered the expression of 12 genes involved in brain functions like neurotransmitter regulation, the blood-brain barrier, and melatonin production. This suggests that even brief cell phone exposure can trigger biological changes in brain cells, even when DNA damage isn't detectable.
Ozguner F, Bardak Y, Comlekci S. · 2006
Researchers exposed rats to cell phone radiation (900 MHz) for 30 minutes daily over 60 days. The radiation caused significant oxidative damage to retinal tissue in the eyes. Two natural antioxidants, melatonin and CAPE, successfully protected against this damage, suggesting potential eye health risks from prolonged phone use.
Ozguner F, Bardak Y, Comlekci S · 2006
Researchers exposed rats to 900 MHz mobile phone radiation (the same frequency used by many cell phones) for 60 days and found it caused significant oxidative stress in eye tissue. The radiation increased harmful compounds and decreased protective antioxidant enzymes in the retina. However, rats given melatonin or caffeic acid supplements before exposure were largely protected from this damage, suggesting these antioxidants might help shield eye tissue from cell phone radiation effects.
Nylund R, Leszczynski D. · 2006
Researchers exposed human blood vessel cells to mobile phone radiation (900 MHz GSM) for one hour at 2.8 W/kg and found it altered both gene and protein activity. Importantly, two different variants of the same cell type responded differently to the same radiation exposure, suggesting that cellular response depends on specific genetic makeup. This finding helps explain why EMF studies sometimes produce conflicting results between different laboratories.
Nylund R, Leszczynski D · 2006
Finnish researchers exposed human blood vessel cells to mobile phone radiation for one hour and found that genes and proteins changed differently in each cell type. This suggests that cellular response to phone radiation depends on the specific genetic makeup of cells, potentially explaining conflicting research results.
Oral B et al. · 2006
Researchers exposed rats to 900 MHz cell phone radiation for 30 minutes daily over 30 days and found it caused cell death and oxidative damage in endometrial tissue (the lining of the uterus). However, when rats were given vitamins E and C before exposure, these protective antioxidants significantly reduced the cellular damage. This suggests that cell phone radiation may harm reproductive tissues through oxidative stress, but antioxidant vitamins may offer some protection.
Oral B et al. · 2006
Turkish researchers exposed female rats to 900-MHz radiation (similar to older cell phones) for 30 minutes daily over 30 days and found it caused cell death and oxidative damage in the endometrium, the tissue lining the uterus. However, when rats were given vitamins E and C before exposure, these protective antioxidants significantly reduced the harmful effects. This suggests that cell phone radiation may damage reproductive tissues through oxidative stress, but antioxidants might offer some protection.
Frahm J, Lantow M, Lupke M, Weiss DG, Simkó M · 2006
Scientists exposed mouse immune cells to 50 Hz magnetic fields from power lines and found the cells became hyperactive. The fields increased the cells' ability to consume particles by 60% and boosted inflammatory chemicals 12-fold, suggesting everyday electrical frequencies can overstimulate immune responses.
Christ A, Samaras T, Klingenböck A, Kuster N. · 2006
Researchers analyzed how electromagnetic radiation from wireless devices is absorbed differently in real human tissue compared to the simplified liquid models used in safety testing. They found that the layered structure of human tissue - particularly fat layers under the skin - can increase radiation absorption by up to 3 times more than current testing methods predict. This means that official safety assessments may significantly underestimate how much radiation your body actually absorbs from phones and other wireless devices.
Yurekli AI et al. · 2006
Turkish researchers exposed rats to cell tower radiation at 945 MHz for an unspecified duration and measured markers of oxidative stress (cellular damage from free radicals). They found that exposure at power levels well below current safety limits significantly increased harmful oxidative markers and decreased protective antioxidants in the rats. This suggests that even low-level electromagnetic radiation from cell towers may trigger cellular stress responses.
Forgacs Z et al. · 2006
Hungarian researchers exposed male mice to cell phone-like radiation (1800 MHz GSM) for 48 hours at very low power levels (0.018-0.023 W/kg). They found that exposed mice had significantly higher testosterone levels in their blood and increased red blood cell counts, though no visible damage to reproductive organs. The study suggests that even brief, low-level microwave exposure can trigger measurable hormonal changes in male reproductive systems.
