Buckus R, Strukcinskiene B, Raistenskis J, Stukas R. · 2016
Researchers used computer modeling to map how electric fields from mobile phones affect the human head during phone calls. They found that older 2G phones operating at 900 MHz create stronger electric fields around the ear area than newer phones, with the field strength decreasing rapidly as you move away from the phone. The study showed that higher power phones with lower frequencies produce the most intense electric fields, affecting 1-12% of the head's surface area.
Nakatani-Enomoto S et al. · 2016
Researchers exposed human sperm samples to cell phone-like radio frequency radiation at 1950 MHz for one hour at levels of 2.0 or 6.0 watts per kilogram. They found no significant effects on sperm movement, speed, or DNA damage compared to unexposed samples. The study suggests that short-term exposure to this type of radiation under controlled temperature conditions does not harm sperm quality.
Nakatani-Enomoto S et al. · 2016
Researchers exposed human sperm samples to cell phone-like radiation (1950 MHz) for one hour at two different power levels to see if it affected sperm movement or caused DNA damage. They found no significant changes in sperm motility, movement patterns, or DNA damage markers compared to unexposed samples. This study suggests that short-term exposure to this type of radiation may not immediately harm sperm function under controlled laboratory conditions.
Paik MJ, Kim HS, Lee YS, Do Choi H, Pack JK, Kim N, Ahn YH · 2016
Researchers exposed rats to 915 MHz radiofrequency signals (like those from RFID tags) for 8 hours daily over 2 weeks and analyzed chemical changes in their urine. They found significant alterations in polyamines, which are molecules involved in cellular metabolism and growth. The RF-exposed rats showed a 54% increase in one specific polyamine compared to just 17% in control animals, suggesting the radiofrequency exposure disrupted normal cellular processes.
Feng B, Dai A, Chen L, Qiu L, Fu Y, Sun W. · 2016
Researchers exposed human cells to 50 Hz magnetic fields (the same frequency used in household electricity) and found that even brief exposures triggered increased production of reactive oxygen species - harmful molecules that can damage cells. The magnetic fields caused specific cellular receptors to cluster together abnormally, a process linked to various health problems including cancer development.
Oster S et al. · 2016
German researchers developed a sophisticated laboratory system to expose developing rat brain neurons to 900 MHz radiofrequency radiation (similar to cell phone frequencies) for weeks at a time. The study focused on creating reliable equipment to test whether wireless radiation affects developing brain tissue, using exposure levels of 362 milliwatts per kilogram. While the paper describes the experimental setup in detail, it doesn't report specific biological effects, serving instead as a foundation for future research on how RF radiation might impact the developing nervous system.
Mina D et al. · 2016
Researchers exposed wall lizards to cordless phone radiation 24 hours daily for 8 weeks. The lizards showed 45% weaker immune responses compared to unexposed animals, suggesting that constant wireless radiation exposure may suppress the immune system in living creatures.
Gok DK et al. · 2016
Researchers exposed pregnant rats and their offspring to 50 Hz electric fields (the same frequency as household electricity) and measured brain wave responses to visual and touch stimuli. The exposed animals showed delayed brain responses and increased oxidative damage in both brain and retinal tissue compared to unexposed controls. This suggests that electric field exposure during development can impair nervous system function through cellular damage mechanisms.
Gok DK et al. · 2016
Scientists exposed pregnant rats to 50 Hz electric fields from power lines and tested their offspring's brain responses as adults. The exposed rats showed delayed neural processing for vision and touch, plus increased brain damage markers, suggesting developmental electric field exposure causes lasting nervous system changes.
Akpınar D et al. · 2016
Researchers exposed pregnant rats and their offspring to power line-frequency electric fields, then tested brain function. EMF exposure significantly impaired the brain's ability to detect sound changes, a skill essential for learning and attention, with damage linked to cellular oxidative stress.
Uskalova DV, Igolkina YV, Sarapultseva EI. · 2016
Russian researchers exposed single-celled organisms (protozoa) to cell phone frequency radiation (1 GHz) at very low power levels for 30 minutes to 6 hours. They found significant changes in cell shape and structure that correlated with reduced movement ability. The researchers suggest this method could help detect early cellular damage from mobile phone radiation, particularly effects on sperm cell mobility.
Bouji M, Lecomte A, Gamez C, Blazy K, Villégier AS. · 2016
Researchers exposed both young and elderly rats to cell phone radiation (900 MHz) for 45 minutes daily over one month to see if aging brains were more vulnerable to EMF effects. The study found that while elderly rats showed expected age-related brain problems, the radiation exposure didn't make these problems worse. Interestingly, both young and old rats exposed to radiation showed reduced anxiety-like behaviors.
Deshmukh PS et al. · 2016
Researchers exposed rats to cell phone radiation (900-2450 MHz) for 2 hours daily over 90 days at levels 1000 times below safety limits. The low-level radiation still impaired learning and memory while damaging brain DNA, suggesting current safety standards may be inadequate.
Hidisoglu E et al. · 2016
Researchers exposed rats to 2100-MHz radiofrequency radiation (similar to 3G cell phone signals) for 2 hours daily, comparing short-term (1 week) versus long-term (10 weeks) exposure. They found that short-term exposure actually improved brain function and antioxidant defenses, while long-term exposure caused brain dysfunction and oxidative damage. This suggests that duration of EMF exposure matters significantly for health effects.
Sırav B, Seyhan N · 2016
Turkish researchers exposed rats to cell phone radiation at 900 MHz and 1800 MHz for 20 minutes. Both frequencies increased blood-brain barrier permeability in male rats, while only 900 MHz affected females. This protective brain barrier normally prevents harmful substances from entering the brain.
Ansari AM et al. · 2016
Researchers exposed mice to extremely low frequency magnetic fields (the type produced by power lines and electrical devices) for either 2 hours once or 2 hours daily for 2 weeks. They found that long-term exposure actually reduced depression-like behavior in the mice, while short-term exposure had no effect. The study suggests these magnetic fields may alter brain chemistry by affecting nitric oxide levels, which plays a role in mood regulation.
Feng B, Ye C, Qiu L, Chen L, Fu Y, Sun W · 2016
Researchers exposed human cells to a 50-Hz magnetic field (the same frequency as power lines) and found it protected cells from dying when they were later exposed to a toxic chemical. The magnetic field triggered the release of reactive oxygen species from mitochondria (the cell's power plants), which activated protective cellular pathways. This suggests extremely low frequency magnetic fields can influence fundamental cellular survival mechanisms.
Hu Y et al. · 2016
Researchers exposed mice with Alzheimer's disease to a 50 Hz magnetic field (the type from power lines) for 20 hours daily over 3 months. The magnetic field exposure improved the mice's memory and learning abilities, while also reducing toxic protein buildup in their brains that's characteristic of Alzheimer's. This suggests that certain types of electromagnetic fields might actually have protective effects on brain health rather than harmful ones.
Mahmoudinasab H, Sanie-Jahromi F, Saadat M · 2016
Researchers exposed breast cancer cells to 50 Hz electromagnetic fields (household electricity frequency) for 30 minutes. Stronger fields significantly altered genes that protect cells from damage, especially during on-off exposure patterns. This shows brief EMF exposure can disrupt cellular defense systems.
Martínez MA, Úbeda A, Moreno J, Trillo MÁ · 2016
Researchers exposed human brain tumor cells (neuroblastoma) to 50 Hz magnetic fields at 100 microtesla - similar to levels near power lines - for various time periods. The magnetic field exposure triggered specific cellular pathways that increased cell proliferation, with the effects appearing to be mediated by reactive oxygen species (free radicals). This suggests that power frequency magnetic fields can stimulate abnormal cell growth through oxidative stress mechanisms.
Yin C, Luo X, Duan Y, Duan W, Zhang H, He Y, Sun G, Sun X · 2016
Researchers exposed rat brain cells to 50 Hz magnetic fields and found significant damage including cell death and DNA harm. However, natural compounds from lotus seed pods prevented most of this damage, suggesting magnetic fields can harm brain cells but certain antioxidants may offer protection.
Esmekaya MA et al. · 2016
Researchers exposed mice to cell phone radiation (900 MHz) before, during, and after chemically-induced seizures to study brain effects. They found that radiation exposure significantly increased oxidative damage and inflammatory markers in brain tissue compared to seizures alone. This suggests cell phone radiation may worsen brain vulnerability during neurological stress, potentially making seizure-related brain damage more severe.
Şahin D et al. · 2016
Researchers exposed female rats to 3G mobile phone radiation (2100 MHz) for either 10 or 40 days to study DNA damage in brain tissue. They found increased DNA damage after 10 days of exposure, but surprisingly, this damage decreased after 40 days, suggesting the brain may develop protective mechanisms over time. The study used radiation levels similar to what you'd experience during heavy mobile phone use.
Ansari AM et al. · 2016
Researchers exposed mice to extremely low frequency magnetic fields (the type emitted by power lines and electrical devices) for either 2 hours once or 2 hours daily for 2 weeks. They found that long-term exposure reduced depression-like behavior in the mice, while short-term exposure interfered with antidepressant medications. This suggests that chronic EMF exposure may alter brain chemistry and affect how psychiatric medications work.
Ma Q et al. · 2016
Researchers exposed embryonic brain stem cells to 50 Hz electromagnetic fields from power lines and electrical devices. The EMF exposure significantly enhanced the cells' development into neurons and promoted growth of neural connections. This suggests electromagnetic fields could influence brain formation during early development.
