Browse 8,700 peer-reviewed studies on electromagnetic field health effects from 4 research libraries.
Showing 1,859 studies (Rodent Studies)
Unknown authors
Researchers used specialized waveguide equipment to measure how microwave radiation at frequencies of 2.5-4.2 GHz is absorbed by anesthetized mice of different sizes. They found that each mouse has a specific resonant frequency where radiation absorption peaks, determined by the animal's size and weight. The study established mathematical relationships to predict these resonance points based on physical dimensions.
Unknown authors
Researchers exposed rats to extremely high-strength 60-Hz electric fields (80-100 kV/m) for up to 4 months and found no effects on heart rate, blood pressure, or ECG patterns. The study was specifically designed to eliminate secondary effects like electrical shocks that may have influenced earlier conflicting research.
Luis MIRO, Robert LOUBIERE, André PFISTER
French researchers examined internal organ damage in mice and rats exposed to ultra-short radio frequency waves. The study investigated how high-frequency electromagnetic radiation affects vital organs and reproductive systems in laboratory animals. This research contributes to understanding potential biological effects of RF exposure on mammalian tissue.
Unknown authors
Researchers exposed four generations of rats to high-intensity 60 Hz electric fields (20 kV/m) for a full year, tracking body weight, water consumption, and organ changes. The study examined whether chronic exposure to power line frequency fields affects development and health across multiple generations. This research addresses concerns about long-term effects from electrical infrastructure.
Unknown authors
Researchers exposed mice to 9 GHz pulsed microwaves at 10 mW/cm² for 2 hours daily over 5 days and found significantly increased antibody production. However, despite higher antibody levels, the microwave-exposed mice died at the same rate as unexposed mice when challenged with a deadly bacterial infection.
Unknown authors
Researchers tested whether 60 Hz electrical fields (the frequency used in North American power systems) affect motor coordination and balance in rats using specialized equipment called a rotorod. The study found measurable differences between rats exposed to these electrical fields and control rats, suggesting that power frequency EMF exposure may impact basic motor functions.
Unknown authors
Researchers exposed rats to powerful 60-Hz electric fields (100 kV/m) for 30 days, then tested whether this changed their behavior around electric fields. Pre-exposed rats actually preferred staying in areas with electric fields, while unexposed rats avoided them, suggesting chronic exposure creates adaptation or tolerance.
Unknown authors
Researchers exposed female mice to both pulsed and continuous microwave radiation at 432 MHz and 2450 MHz frequencies using different pulse patterns and power levels. The study compared how different types of electromagnetic field modulation affect biological systems. No specific health effects were reported in the available study details.
Scott N. Ackerman et al.
Researchers exposed rat adrenal gland tissue to 60 Hz electric fields at 45 kV/m and higher intensities, measuring how the tissue's hormone production (corticosterone) responded. The study examined both isolated tissue samples and whole animals to understand how power line frequency fields affect stress hormone systems.
Unknown authors
Researchers trained rats to perform precise timing tasks, then exposed them to 2.8 GHz pulsed microwaves at power levels similar to early cell phones. The microwave radiation disrupted the animals' ability to maintain accurate timing behavior, with stronger effects at higher power levels. Importantly, the same radiation had no effect when the timing task was made easier, suggesting the microwaves specifically interfere with complex behavioral control.
Unknown authors
Researchers trained rats to perform timing tasks requiring precise 18-24 second intervals between lever presses for food rewards. When exposed to low-level microwave radiation (2.45 GHz pulsed at 1-5 mW/cm²), the sedative drug pentobarbital became significantly more potent, requiring 40% lower doses to produce the same behavioral effects. This demonstrates that microwave exposure can amplify drug effects in the brain.
Unknown authors
Researchers exposed 24 pregnant rats to 2450 MHz microwave radiation (the same frequency as microwave ovens) for 8 hours daily throughout pregnancy at power levels that didn't raise body temperature. They found no significant effects on fetal development, birth outcomes, or behavioral development in offspring through two generations.
Unknown authors
Researchers exposed rats to intense 918 MHz microwave radiation for 30 minutes to see if it would help antibodies cross the blood-brain barrier to fight infections. The microwaves raised body temperature to dangerous levels but failed to allow antibodies into the cerebrospinal fluid. The study found no evidence that microwave exposure could breach the brain's protective barriers.
Unknown authors
Researchers exposed rats to strong 60 Hz electric fields (100 kV/m) for up to 30 days to test effects on reproduction and development. The study found no impacts on mating behavior, fertility, fetal development, or sperm quality. This suggests that extremely low frequency electric fields at these levels may not significantly harm reproductive health in mammals.
Unknown authors
Researchers exposed pregnant mice to microwave radiation at 2450 MHz (the same frequency as microwave ovens and WiFi) for 3 hours daily during critical brain development periods. They then tested the newborn pups for basic reflexes and neurological development from birth through 21 days old. The study aimed to understand whether low-level prenatal microwave exposure affects behavioral development in offspring.
Unknown authors
Researchers exposed mice to 2450 MHz microwave radiation (similar to microwave ovens) for up to 4 months, then treated them with cancer-causing chemicals to see if the radiation affected tumor development. The study examined whether long-term microwave exposure changes immune system function in ways that could influence cancer risk.
Unknown authors
Scientists measured brain temperatures in awake rats exposed to 2450 MHz microwave radiation at 65 mW/cm² for 30 or 90 minutes. They tracked temperatures in four specific brain regions (cortex, hypothalamus, cerebellum, and medulla) plus colon temperature to understand how microwaves affect brain heating. This research aimed to clarify whether microwave-induced blood-brain barrier changes are linked to temperature increases.
Unknown authors
Scientists exposed rats to pulsed microwave radiation at two different power levels for seven weeks to study effects on blood cells. At the higher power level (24.4 mW/cm²), white blood cell counts dropped significantly during the second half of exposure. At the lower power level (1 mW/cm²), no blood cell changes occurred.
Unknown authors
This study examined the effects of 2450 MHz microwave radiation on testicular cells and sperm development in laboratory mice. Researchers analyzed cellular changes in reproductive tissue following microwave exposure. The study appears to have found no significant effects on testicular function or sperm production.
Unknown authors
Researchers exposed rats to 2.45 GHz microwave radiation at 40 mW/cm² for 2 hours, with some rats also receiving thyroid hormone injections to increase their metabolic rate. The study found that microwave exposure significantly increased stress hormone (corticosterone) levels and disrupted thyroid function, with effects amplified when combined with elevated metabolism.
A. DEFICIS, J.C. DUMAS, S. LAURENS
This conference paper examined biological changes in Swiss mice exposed to microwave radiation, focusing on effects to nervous system function and immune responses. The research investigated how microwave irradiation altered normal biological processes, including nerve conduction and immune system activity. This type of foundational research helps establish the biological mechanisms through which microwave radiation affects living systems.
Unknown authors
Researchers exposed mice to 2450 MHz microwave radiation (the same frequency used in microwave ovens and WiFi) and found it significantly increased immune cells in their spleens. Even a brief 15-minute exposure triggered measurable immune system changes, with effects peaking after 45 minutes of exposure.
Unknown authors
Researchers exposed pregnant rats and their offspring to 100-MHz radiofrequency radiation for 4 hours daily throughout pregnancy and early development. While most health measures remained normal, the study found significant changes in brain acetylcholinesterase activity, an enzyme crucial for nerve function. This suggests that chronic RF exposure during critical development periods may affect brain chemistry even when other health indicators appear unaffected.
Unknown authors
Researchers measured how much radiofrequency radiation is absorbed by mice and rats when exposed to three different frequencies: 2450 MHz (microwave oven frequency), 425 MHz, and 100 MHz. They used precise calorimetry techniques to determine specific absorption rates (SAR) - essentially how much energy the animals' bodies absorbed from the radiation. The study compared actual measurements with theoretical predictions across different animal sizes and orientations.
Unknown authors
Researchers exposed female mice to 425 MHz radio frequency radiation for one hour daily over five days, testing both continuous and pulsed wave signals at various power levels. The study found no effects on the mice's primary immune response to sheep red blood cells, as measured by antibody-producing cell counts.