Browse 8,700 peer-reviewed studies on electromagnetic field health effects from 4 research libraries.
Showing 1,859 studies (Rodent Studies)
S. M. Michaelson
This conference paper by researcher S.M. Michaelson examined how microwave radiation affects rodents under hyperbaric (high pressure) conditions. The study investigated whether increased atmospheric pressure changes how animals respond to microwave exposure, particularly regarding thermal regulation and other physiological processes.
Unknown authors
This mouse study investigated how microwave radiation exposure affects immune system cells in the spleen, specifically looking at lymphoid cells that carry complement receptors. The researchers found that microwave exposure increased the frequency of these immune cells, suggesting that microwave radiation can alter immune system function at the cellular level.
Unknown authors
Researchers exposed young rats to strong 60 Hz electric fields (20,000 volts per meter) from birth through 14 days of age, then examined nerve fiber insulation (myelination) in their optic chiasm brain region. The study investigated whether power-frequency electric fields might affect the protective coating around nerve fibers that speeds up signal transmission.
Wieslaw Wiktor-Jedrzejczak et al.
Researchers investigated how 2450 MHz microwave radiation affects immune system function in laboratory mice. This frequency matches standard microwave ovens and some industrial heating applications. The study examined whether microwave exposure alters immune responses, contributing to our understanding of how radiofrequency radiation might affect biological defense systems.
W.D. Travers, R.J. Vetter
Researchers exposed pregnant rats to low-level microwave radiation and found changes in their blood's iron-binding capacity, specifically affecting transferrin protein levels. This study confirmed earlier Soviet research showing that microwave exposure can alter protein composition in blood and organs at power densities that don't cause heating. The findings suggest microwave radiation may affect how the body transports essential nutrients during pregnancy.
З. В. Гордон, Е. А. Лобанова, М. С. Тольская
Soviet researchers Gordon, Lobanova, and Tolskaya conducted experimental studies on the biological effects of centimeter-wave microwave radiation using laboratory rats. This early research contributed to the growing body of evidence that microwave frequencies can produce measurable biological responses in living organisms. The study represents part of the foundational research documenting EMF bioeffects that emerged from Soviet laboratories decades ago.
Unknown authors
Researchers exposed rats and mice to powerful 60 Hz electric fields (100 kV/m) for up to 4 months, measuring growth rates, organ weights, metabolism, and hormone levels. Despite using carefully controlled conditions to eliminate interference factors, they found no significant differences between exposed and control animals in any measured parameter. This challenges previous conflicting studies that reported both enhanced and reduced growth from electric field exposure.
Unknown authors
Researchers exposed rats to 1.3 GHz pulse-modulated microwave radiation for 2-3 weeks, 3 hours daily, at power levels up to 2.6 mW/g to test effects on the blood-brain barrier. They used sodium barbital absorption rates as a marker but found no significant changes. This contradicts other studies showing microwave radiation can compromise the blood-brain barrier at non-thermal levels.
Unknown authors
Researchers exposed rats to microwave energy at two power levels (50 and 125 μW/cm²) and tested their behavioral responses using a tail pinch test that measures brain dopamine system function. Both exposed groups showed significantly different behavioral patterns compared to unexposed control rats, suggesting microwave radiation affects the brain's dopamine pathways that control movement and behavior.
Unknown authors
Researchers tested whether 2450 MHz microwave radiation could open the blood-brain barrier in rats using a special direct contact applicator for precise exposure control. Even at power levels up to 28 mW/g in brain tissue for 20 minutes, the microwaves did not cause barrier opening or brain staining. This finding suggests the blood-brain barrier remains intact under these specific microwave exposure conditions.
Unknown authors
Researchers exposed male rats to 1.29 GHz microwave radiation at 15 mW/cm² for 90 minutes and measured stress hormone levels in their blood. The exposed rats showed dramatically elevated corticosterone (stress hormone) levels that were 6-8 times higher than unexposed rats after 75 minutes. This study demonstrates that microwave radiation can trigger significant stress responses in the body at frequencies close to those used by cell phones.
Unknown authors
Researchers exposed rats to extremely high-intensity 918 MHz microwave radiation (60 mW/g) to see if the animals would learn to escape to a safe area. The rats failed to learn escape behavior from microwave exposure alone, but did learn when a light cue was paired with the radiation. This suggests that even near-lethal microwave radiation lacks the sensory qualities that animals can detect and respond to.
Unknown authors
Researchers exposed pregnant rats and their offspring to 100-MHz radiofrequency radiation for months, finding no effects on growth, immune function, or blood counts. However, the study revealed significant changes in brain acetylcholinesterase activity, an enzyme critical for nerve signal transmission.
Unknown authors
Scientists exposed 236 pregnant mice to 148 MHz radiofrequency radiation for one hour daily throughout pregnancy at power levels similar to wireless devices. The exposed mice produced significantly lighter offspring compared to unexposed controls, though no visible birth defects were observed. This suggests RF radiation during pregnancy may affect fetal development even at relatively low exposure levels.
Unknown authors
This technical report examined how 60 Hz electric fields from power lines affect the central nervous system of laboratory rats. The study investigated whether the electrical fields surrounding power transmission equipment could influence brain and nervous system function in animal models. The research contributes to understanding potential neurological effects from power frequency electromagnetic field exposure.
Unknown authors
Researchers developed a specialized test using cancer cells and immunocompromised mice to detect subtle biological effects from 30 MHz radio frequency radiation. The study found that RF exposure changed how cancer cells behaved when reimplanted in mice, affecting tumor growth patterns and survival rates. This suggests RF fields can cause biological changes too subtle to detect with standard testing methods.
Unknown authors
Researchers developed a new experimental system to test how sensitive rats are to detecting 60 Hz electric fields, the same frequency used in power lines and household electrical systems. The study focused on creating precise testing methods rather than reporting specific findings. This research helps establish how animals might naturally sense the electric fields we're all exposed to daily.
Unknown authors
This rodent study investigated whether radiofrequency radiation can alter the blood-brain barrier, the protective membrane that controls what substances can enter the brain. Researchers used fluorescein and amino acids as tracer molecules to measure barrier permeability changes in mice and rats exposed to RF radiation. The findings were mixed, showing some evidence of barrier disruption under certain conditions.
Unknown authors
Researchers exposed rats to 987 MHz microwave radiation to study conditioned taste aversion (CTA), a behavioral response where animals learn to avoid foods associated with illness or discomfort. This study examined whether microwave exposure at this specific frequency could trigger learned avoidance behaviors in laboratory animals, suggesting potential biological effects from this type of electromagnetic radiation.
Unknown authors
Researchers tested whether implanted microwave coils operating at 9.3 GHz could heat and destroy tumors in mice. The treatment heated tumors to 44°C for 30 minutes, achieving complete long-term cures in 44% of mice with leg tumors. This demonstrates that focused microwave energy can be an effective cancer treatment when precisely targeted.
Unknown authors
Researchers exposed pregnant rats to 2450 MHz microwave radiation (500 μW/cm²) for 20 hours daily during pregnancy. The exposed offspring showed seven times higher death rates, delayed eye opening, temperature regulation problems, and lasting behavioral and growth changes into adulthood. The study demonstrates that prenatal microwave exposure can cause significant developmental problems even when no effects are visible at birth.
Unknown authors
Researchers exposed pregnant rats to 2450 MHz microwave radiation at 500 microwatts per square centimeter throughout pregnancy to study developmental effects on offspring. This study replicated earlier work using different frequency microwaves to investigate how prenatal EMF exposure might affect physiological and behavioral development in mammals.
Unknown authors
Researchers developed a sophisticated computer-controlled facility to study how long-term exposure to low-level microwave radiation affects rat behavior. The study used 1.3 GHz pulsed radar signals to simultaneously test 16 control and 16 exposed rats, measuring dose-response relationships between microwave exposure and behavioral changes.
Kenneth J. Oscar, T. Daryl Hawkins
Researchers exposed rats to 1.3 GHz microwave radiation for 20 minutes and found it temporarily opened the blood-brain barrier, allowing normally blocked substances to enter the brain. The effect occurred at very low power levels (less than 3 mW/cm²) and lasted up to 4 hours after exposure.
З. В. Гордон, Е. А. Лобанова, М. С. Тольская
Soviet researchers Gordon, Lobanova, and Tolskaya conducted experimental studies on the biological effects of centimeter-wave microwave radiation on laboratory rodents. This research examined how ultra-high frequency electromagnetic fields impact living organisms at the cellular and physiological level. The study represents early scientific investigation into microwave radiation's potential health effects.