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7 postsParametric analysis of electromagnetic wave interactions with layered biological tissues for varying frequency, polarization, and fat thickness
This PubMed-listed study models how RF electromagnetic waves interact with a simplified three-layer tissue structure (skin–fat–muscle) across common ISM bands (433, 915, 2450, 5800 MHz), varying polarization (TE/TM), incidence angle, and fat thickness. Using a custom MATLAB pipeline combining multilayer transmission-line methods, Cole–Cole dielectric parameters, and a steady-state Pennes bioheat solution, the authors estimate reflection, absorption, and resulting temperature rise. The simulations report small temperature increases at lower frequencies (433–915 MHz) and larger superficial heating at 5.8 GHz under the modeled conditions, highlighting how fat thickness and wave parameters modulate dosimetry and thermal outcomes.
Human cells response to electromagnetic waves of radio and microwave frequencies
This review discusses how human cells may sense and respond to electromagnetic waves, focusing on radiofrequency and microwave ranges. It reports that the literature shows variable health impacts, with studies citing both potential harms and potential benefits in diagnostics and treatment (including cancer-related applications). The review highlights emerging molecular mechanisms and calls for safe, practical applications and balanced consideration in regulation.
Investigation of fetal exposure to electromagnetic waves between 2.45 and 5 GHz during pregnancy
This dosimetry study simulated fetal RF-EMF exposure between 2.45 and 5 GHz during the second trimester, estimating SAR10g in fetal brain and lungs. The presence of a belly-button piercing increased SAR, with maxima reported at 2.45 GHz (16 mW/kg in lungs; 14 mW/kg in brain). Despite these increases, all SAR values were reported to remain below IEEE and ICNIRP limits, while the authors note a precautionary implication regarding metal objects during pregnancy.
A Systematic Review of the Impact of Electromagnetic Waves on Living Beings
This PRISMA-adherent systematic review searched PubMed, Scopus, and the Cochrane Library for studies (2017–2024) on physiological or behavioral responses to EMF exposure, emphasizing studies reporting harmful or concerning effects. Across 24 included studies (human non-randomized, in vitro, and animal), the review reports negative biological effects including oxidative stress, inflammation, genotoxicity, cardiovascular and fertility-related outcomes, neuronal activity changes, and plant photosynthesis impacts. The authors report that most studies had moderate to high risk of bias and therefore the overall certainty of evidence was lower, and they highlight major gaps in long-term human evidence and exposure standardization.
The association of widely used electromagnetic waves exposure and pregnancy and birth outcomes in Yazd women: a cohort study
This cohort study of 1,666 women in Yazd City examined electromagnetic-wave exposure from commonly used devices during pregnancy and birth outcomes. Longer cell phone call duration during pregnancy was reported to be associated with higher risk of miscarriage, abnormal birth weight, and abnormal newborn height. Increased cordless phone use was also reported to be linked to abnormal birth weight, while other outcomes were assessed but not described as significantly associated in the abstract.
The Impact of Mobile Phone Electromagnetic Waves on the Neurons and Blood Brain Barrier Integrity in the Chick Embryo
This animal study exposed chick embryos to electromagnetic waves from a mobile phone and compared them with unexposed controls. Electron microscopy on days 10 and 15 reported neuronal and cerebellar cellular alterations in the exposed group, including features described as apoptosis and mitochondrial swelling. The authors also report compromised blood-brain barrier integrity and conclude the exposure adversely affects brain development.
Role of radio-frequency electromagnetic waves in causing oxidative stress
This animal study exposed fertilized chick eggs to a nearby 1800 MHz mobile phone that was called repeatedly (50 minutes/day) and assessed embryos at days 10 and 15. The exposed group reportedly showed mitochondrial abnormalities in liver, brain, and heart tissues on electron microscopy, along with increased HSP70 in cardiomyocytes and hepatocytes. The authors conclude that radio-frequency electromagnetic waves can induce oxidative stress and mitochondrial damage in developing embryos.