Unknown authors · 2010
This comprehensive meta-analysis examined 15 studies involving over 84,000 women to determine if extremely low-frequency electromagnetic fields (like those from power lines and appliances) increase breast cancer risk. The researchers found no significant association between ELF-EMF exposure and female breast cancer across all analyses. This large-scale review provides reassuring evidence that everyday EMF exposure from electrical sources does not appear to elevate breast cancer risk.
Unknown authors · 2010
Italian researchers studied 64 children with blood cancers near high-voltage power lines from 1986-2007, comparing them to matched healthy controls. Children living in areas with magnetic field exposure above 0.1 microTesla showed 3.2 times higher leukemia risk, though the small sample size made results statistically uncertain. The study adds to evidence suggesting power line EMF may increase childhood leukemia risk.
Unknown authors · 2010
Researchers measured multiple types of electromagnetic field exposure in 226 Austrian bedrooms, including power line frequencies and radiofrequency radiation from devices like DECT phones and cell towers. While all readings stayed below safety guidelines, 7.1% of homes had significant RF exposure above 1000 μW/m², with DECT phone base stations creating the highest levels. Simple changes like moving clock radios and turning off cordless phone bases reduced bedroom EMF exposure by meaningful amounts.
Unknown authors · 2010
Researchers exposed breast cancer cells to 50 Hz electromagnetic fields at 1.2 microT (similar to power line levels) for 48 hours and found the EMF disrupted melatonin's anti-cancer effects. Melatonin normally helps suppress breast cancer growth, but the electromagnetic field blocked this protective mechanism at the cellular level.
Unknown authors · 2010
Researchers analyzed 9 studies examining whether 50 Hz magnetic fields (the same frequency as power lines) affect thinking abilities and cognitive performance. The meta-analysis found only small, inconsistent effects on specific visual tasks and mental flexibility. Overall, the evidence shows little support for meaningful cognitive impacts from extremely low-frequency magnetic field exposure.
Unknown authors · 2010
Iranian researchers studied 300 children with acute lymphoblastic leukemia and found they lived significantly closer to high voltage power lines than healthy children. Living within 600 meters of power lines increased leukemia risk by 161%, with higher voltage lines showing greater risk. This adds to growing evidence linking power line proximity to childhood blood cancers.
Unknown authors · 2010
Researchers exposed 120 mice to power line frequency magnetic fields (50 Hz) at various intensities for 40 days to test for genetic damage. While some cellular changes occurred, the study found no evidence of DNA damage or harmful genetic effects from exposures up to 5 microT. The authors concluded these magnetic field levels do not cause genotoxic effects.
Unknown authors · 2010
This comprehensive review examined decades of research on power line electromagnetic fields and cancer risk. The science shows limited but concerning evidence linking childhood leukemia to residential magnetic field exposures above 0.4 microTesla, leading to EMF's classification as a possible carcinogen. Occupational exposures show stronger associations with leukemia and brain cancer in adults.
Unknown authors · 2010
Researchers exposed mice to 50 Hz magnetic fields (the same frequency as power lines) for two generations and found significantly reduced sperm motility and quality. While other fertility measures remained normal, the electromagnetic fields decreased the number of living sperm and impaired their movement patterns.
Unknown authors · 2010
UCLA researchers analyzed 30 years of data linking power line magnetic fields to childhood leukemia, testing different mathematical models to understand the relationship. They found the commonly assumed threshold effect (no risk below 0.3-0.4 μT, constant risk above) doesn't fit the data well, with more complex dose-response patterns showing better statistical fit. This challenges how we interpret EMF health risks and could improve public health calculations.
Unknown authors · 2010
Researchers examined birth records from over 700,000 babies in Montreal and Quebec to determine if living within 400 meters of power transmission lines affected pregnancy outcomes. They found no association between proximity to transmission lines and preterm birth, low birth weight, or infant sex, and actually found a slight reduction in small-for-gestational-age births at certain distances.
Unknown authors · 2010
Spanish researchers conducted a systematic review of 30 years of studies (1979-2008) examining whether electromagnetic field exposure increases childhood leukemia risk. The analysis found that existing research has neither convincingly confirmed nor ruled out a connection between EMF exposure and childhood blood cancer. The authors called for urgent reconsideration of exposure limits based on the accumulated evidence.
Unknown authors · 2010
Researchers reviewed decades of studies on how extremely low frequency (ELF) electromagnetic fields affect living cells, focusing on work from Catholic University of America. They found that when biological effects occur from EMF exposure, applying random ELF magnetic 'noise' consistently eliminates these effects across different cell types and organisms.
Unknown authors · 2010
Researchers exposed young rats to power line frequency magnetic fields (50 Hz, 100-300 µT) and the pesticide atrazine, both separately and together, for 30 days to test effects on thyroid development. They found no major structural damage to the thyroid gland and no synergistic effects when both exposures were combined. Some minor tissue changes occurred in magnetic field-exposed animals, but overall thyroid function appeared preserved.
Unknown authors · 2010
This 2010 analysis reexamined data from a major UK study linking power line proximity to childhood leukemia. Using refined magnetic field calculations instead of simple distance measurements, researchers found children exposed to the highest power line magnetic fields (0.4 microTesla or above) had double the leukemia risk. The findings reinforce earlier evidence that living very close to high-voltage power lines increases childhood cancer risk.
Unknown authors · 2010
This large UK study examined whether magnetic fields from high-voltage power lines increase childhood cancer risk by analyzing nearly 29,000 children born between 1962-1995. Researchers found a 14% increased risk of leukemia for each 0.2 μT increase in magnetic field exposure, though this wasn't statistically significant. The findings align with other studies suggesting power line proximity may increase childhood leukemia risk.
Unknown authors · 2010
This 2010 pooled analysis examined seven studies involving over 23,000 children to investigate the link between residential magnetic field exposure and childhood leukemia. The research found that leukemia risk increased with higher magnetic field exposure levels, with children exposed to levels above 0.3 microTesla showing a 44% increased risk compared to those with minimal exposure. The findings reinforce previous research suggesting magnetic fields are possibly carcinogenic to children.
Unknown authors · 2010
This 2010 analysis examined how governments and institutions have managed EMF risks from power lines and wireless technologies. Researchers found significant gaps in risk communication, public involvement, and policy responses to scientific uncertainty. The study highlights lessons from decades of power line controversies that could improve wireless EMF governance.
Unknown authors · 2010
This 2010 review article examined the risk of brain tumors from wireless phone use by surveying early cell phone studies and more recent long-term studies including the Interphone and Swedish research. However, the article was later retracted by the journal in 2013, indicating serious flaws in the research or analysis that invalidated its conclusions.
Unknown authors · 2010
This 2010 analysis examined how health agencies assess electromagnetic field risks and found they're ignoring the precautionary principle required by EU law. Instead of protecting public health when evidence suggests possible harm, agencies like WHO only act when scientific proof is absolutely certain. The authors argue this approach misleads policymakers and fails to protect people from EMF exposure well below current safety limits.
Unknown authors · 2010
Swedish researchers studied 9,508 twins to examine whether workplace exposure to extremely low-frequency magnetic fields increases dementia risk. They found that medium and high EMF exposure doubled dementia risk, but only for people who developed dementia before age 75 and those in manual labor jobs. Overall dementia risk wasn't significantly elevated across all participants.
Unknown authors · 2010
Swedish researchers studied 9,508 twins to examine whether workplace exposure to extremely low-frequency magnetic fields increases dementia risk. They found that workers with medium and high EMF exposure had nearly double the dementia risk, but only for early-onset cases (before age 75) and manual laborers. Overall dementia rates showed no significant association with EMF exposure.
Unknown authors · 2010
This 2010 analysis examined whether power line magnetic fields pose enough childhood leukemia risk to justify precautionary public health measures beyond current safety guidelines. Researchers applied established risk assessment criteria and found that while the evidence isn't definitive, low-cost interventions to reduce children's exposure are warranted given the potential severity of the health outcome.
Unknown authors · 2010
French researchers studied 221 brain tumor patients and 442 healthy controls to examine whether electromagnetic field exposure from power lines and workplace sources increases brain tumor risk. They found that occupational EMF exposure increased meningioma risk by 202%, with the strongest association for extremely low frequency fields. Living within 100 meters of power lines also nearly tripled meningioma risk, though this finding wasn't statistically significant.
Unknown authors · 2010
Researchers exposed 60 male rats to 50 Hz electric fields (the same frequency as household power lines) for either 10 or 30 days, then measured cholesterol and triglyceride levels in their blood. Both exposure groups showed significantly lower cholesterol and triglyceride levels compared to unexposed controls, with longer exposure producing greater decreases. This suggests power line frequency electric fields may alter fat metabolism in mammals.
