The exposure to low-intensity extremely high frequency electromagnetic radiation during spermatogenesis was accompanied by pathological changes, which resulted in degeneration and polymorphism of spermatozoa. The number of newborn rats increased in the progeny of irradiated animals.
We studied the effect of nonthermal 37-GHz radiation on hemopoiesis in schungite-shielded Wistar rats. Radiation with right-handed or left-handed rotation of the polarization plane of electromagnetic wave was used. Shielding with schungite decreased the severity of damage produced by high-frequency electromagnetic radiation.
We studied the effect of 37-GHz electromagnetic field on proteolytic activity of pepsin in Wistar rats. The plane of polarization of the electromagnetic fields rotated in either right-handed or left-handed sense (D- and L-chirality). D-Polarization stimulated, while L-polarization suppressed pepsin production.
Inbred albino mice and C57Bl/6 mice were exposed to nonthermal radiation of 37 GHz frequency in order to detect delayed effects caused by repeated irradiation. The detected pathomorphological changes and the dynamics of their formation suggest that these factors are responsible for delayed formation of immunodeficiency provoking mutagenic and carcinogenic effects.
Extremely high frequency electromagnetic radiation modulated with a frequency equal to cerebral delta-rhythm oscillations induced electrosleep in rats.
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