Electric fields are produced by voltage (electrical pressure) and exist whenever a device is plugged in, even if turned off. They are measured in volts per meter (V/m). Electric fields can be blocked by walls and most materials, but often concentrate near ungrounded wiring and electronics.
Based on Building Biology Institute guidelines (V/m (volts per meter)):
Showing 197 studies with measured electric fields exposure
Türedi S et al. · 2014
Researchers exposed pregnant rats to cell phone radiation (900 MHz) daily during late pregnancy. Their male offspring showed significant heart damage at 21 days old, including cellular stress, abnormal heart muscle fibers, and damaged mitochondria. This suggests prenatal cell phone exposure may harm developing hearts.
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.
Fragopoulou AF et al. · 2012
Researchers exposed mice to mobile phone and cordless phone radiation for 8 months and examined brain tissue for protein changes. They found that both radiation sources significantly altered 143 different proteins in brain regions, including proteins involved in brain function, stress response, and cell structure. These protein changes may explain symptoms like headaches, memory problems, and sleep disturbances reported by people with long-term phone use.
Hekmat A, Saboury AA, Moosavi-Movahedi AA. · 2012
Researchers exposed DNA samples to mobile phone radiation (940 MHz) and found that the radiation caused permanent structural changes to the DNA molecules. The DNA became less stable, changed shape, and showed signs of damage that persisted even two hours after exposure ended. This suggests that radiofrequency radiation from mobile phones can directly alter DNA structure at the molecular level.
Eris AH et al. · 2015
Researchers exposed rats to cell phone-level radiofrequency radiation (900 MHz) for just 45 minutes and measured changes in brain chemicals. They found that this brief exposure significantly increased blood serotonin levels, a neurotransmitter that affects mood and cognitive function. The researchers note this serotonin increase could potentially impact learning and memory abilities.
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.
Nittby H et al. · 2012
Swedish researchers exposed land snails to cell phone radiation at 1900 MHz (the same frequency used by many mobile phones) for one hour, then tested their response to painful heat. The radiation-exposed snails showed significantly reduced sensitivity to pain compared to unexposed snails, suggesting the electromagnetic fields had an anesthetic-like effect on their nervous systems.
Dasdag S, Akdag MZ, Ulukaya E, Uzunlar AK, Ocak AR · 2009
Researchers exposed rats to 900 MHz cell phone radiation for 2 hours daily over 10 months to study brain cell death (apoptosis) and oxidative stress. Surprisingly, they found reduced cell death and increased antioxidant activity in exposed rats compared to controls. This unexpected finding suggests the brain may activate protective mechanisms in response to chronic low-level radiation exposure.
Dragicevic N et al. · 2011
Researchers exposed mice to 918 MHz electromagnetic fields daily for one month. The treatment dramatically boosted brain cell energy production by 50-150% in Alzheimer's mice and improved function in normal mice, suggesting EMFs might protect against cognitive decline.
Ntzouni MP, Stamatakis A, Stylianopoulou F, Margaritis LH. · 2011
Researchers exposed mice to cell phone radiation at human-level intensities and tested their memory recognition abilities. Mice showed significant memory problems, especially when exposed during the 17-day period when memories form. This suggests mobile phone radiation may interfere with the brain's memory formation processes.
Gurbuz N, Sirav B, Kuzay D, Ozer C, Seyhan N. · 2015
Researchers exposed diabetic rats to cell phone radiation (2100 MHz) to see if it caused genetic damage in bladder cells by looking for micronuclei - small fragments of broken DNA that indicate cellular damage. They found no increase in genetic damage in either healthy or diabetic rats exposed to the radiation compared to unexposed animals. The study suggests that this level of RF radiation may not cause DNA damage in bladder cells, even in animals with diabetes who might be more vulnerable.
Balcer-Kubiczek EK, Harrison GH. · 1991
Researchers exposed mouse cells to microwave radiation (same frequency as WiFi) plus a tumor-promoting chemical. While microwaves alone caused no harm, the combination significantly increased cancer-like cell transformation to levels matching X-ray exposure, suggesting microwaves may promote cancer under certain conditions.
Sokolovic D et al. · 2008
Researchers exposed rats to cell phone radiation for 60 days and found it damaged brain cells through oxidative stress (harmful free radicals). Melatonin, a natural hormone, partially protected against this brain damage, suggesting phone radiation may harm brain tissue but antioxidants could help.
Bodera P et al. · 2015
Researchers exposed rats to 1800 MHz radiofrequency radiation (the same frequency used in cell phones) for 15 minutes, five times daily, and measured oxidative damage in their organs. They found increased lipid peroxidation (cellular damage from oxidation) in the brain, blood, and kidneys of exposed animals. This suggests that repeated cell phone-frequency radiation exposure may cause oxidative stress damage to vital organs.
Bodera P et al. · 2012
Polish researchers exposed rats to cell phone-frequency electromagnetic fields (1500 MHz and 1800 MHz) for 15 minutes and tested how well the painkiller tramadol worked afterward. While the EMF exposure alone didn't change pain sensitivity, it significantly reduced tramadol's pain-relieving effects when the two were combined. This suggests that EMF exposure from devices like cell phones might interfere with how certain medications work in the body.
Sharifian A, Gharavi M, Pasalar P, Aminian O · 2009
Researchers studied 46 spot welders exposed to magnetic fields at work versus unexposed workers. Exposed workers showed 22% and 12.3% decreases in key antioxidant enzymes in their blood cells, suggesting magnetic field exposure may weaken the body's natural defenses against cellular damage.
Szmigielski et al. · 1998
Researchers studied 61 workers exposed to radio frequency electromagnetic fields and found their natural daily blood pressure and heart rate patterns were disrupted - the normal peaks and valleys were flattened and shifted earlier, suggesting EMF exposure interferes with the body's cardiovascular rhythms.
Fragopoulou AF et al. · 2010
Greek researchers exposed mice to cell phone radiation (900 MHz) for 2 hours daily over 4 days. The exposed mice showed significant deficits in learning and remembering spatial information compared to unexposed mice, suggesting cell phone radiation may impair brain memory functions.
Buttiglione M et al. · 2007
Researchers exposed human brain cells to 900 MHz radiofrequency radiation (the same frequency used by GSM cell phones) at power levels similar to what your phone emits. They found that this radiation activated stress response genes, disrupted normal cell division, and triggered cell death pathways. The effects occurred at radiation levels considered 'safe' by current standards, suggesting that RF exposure may interfere with fundamental cellular processes in brain tissue.
Tkalec M, Malaric K, Pevalek-Kozlina B. · 2005
Scientists exposed duckweed plants to cell phone-like electromagnetic frequencies and found that 900 MHz signals significantly stunted plant growth within just 2 hours, while 400 MHz had no effect. This demonstrates that EMF biological effects depend on specific frequencies, not just signal strength.
Calabrò E et al. · 2012
Italian researchers exposed human brain cells to cell phone radiation at 1800 MHz for 2-4 hours and measured stress protein responses. They found that the radiation triggered cellular stress responses in the neurons, specifically decreasing one protective protein (Hsp20) and increasing another (Hsp70) after longer exposure. This suggests that cell phone radiation can activate stress pathways in brain cells even at levels considered safe by current standards.
Chen Q et al. · 2012
Researchers studied 225 female factory workers exposed to radiofrequency radiation from manufacturing equipment versus 100 unexposed workers. Exposed workers showed significantly higher rates of slow heart rhythms, though other factors like age and smoking complicated determining radiation as the direct cause.
Tattersall JE et al. · 2001
Researchers exposed rat brain tissue to cell phone-frequency radiation at 700 MHz and found it altered brain cell electrical activity by up to 120%, even at extremely low power levels that caused no heating, suggesting the brain responds to radiofrequency fields through non-thermal biological mechanisms.
Stankiewicz W et al. · 2006
Researchers exposed human immune cells to 900 MHz microwave radiation (similar to GSM cell phone signals) at very low power levels and found that the radiation significantly increased immune cell activity. The exposed cells showed stronger responses to immune stimulants compared to unexposed control cells. This suggests that even weak microwave radiation can alter how our immune system functions.
Stankiewicz W et al. · 2006
Polish researchers exposed human immune cells to 900 MHz GSM cell phone signals at very low power levels (SAR 0.024 W/kg) and found that the microwave exposure significantly increased immune cell activity. The exposed cells showed stronger responses to immune stimulants and higher activity levels compared to unexposed control cells. This suggests that even low-level cell phone radiation can alter how your immune system functions at the cellular level.