ABSTRACT
The work presents results of the experimental study on thymus changes developing after whole-body exposure of mice to ultralow power pulse-modulated electromagnetic field (carrying frequency 2.39 GHz, modulating pulses with frequency 4 Hz, duration of impulses 0.025 sec, average power density 60 mW/cm2, absorbed dose 0.086 J/g or 0.172 J/g). It was shown that a percent of the microwave induced increase or decrease of thymus mass and the number of cells in the organ (y) are determined by the initial mass or number of cells in thymus accordingly to equation of linear regression: (yx = 215-2.25x, where x is the thymus mass of control animals (in a range 31-63 mg) and (yx = 178.6-41x, where x is the initial number of cells in thymus (in a range 0.6 x 10(8)-2.6 x 10(8)) reduced by a factor of 10(8).
Subject(s)
Electromagnetic Fields , Microwaves , Thymus Gland/radiation effects , Animals , Data Interpretation, Statistical , Female , Linear Models , Lymphocyte Count , Lymphocytes/radiation effects , Mice , Mice, Inbred C57BL , Radiation Dosage , Thymus Gland/cytology , Time Factors , Whole-Body IrradiationABSTRACT
The effect of ultralow power pulse-modulated electromagnetic radiation (average power density 60 microW/cm2, carrying frequency 1.05; 2.12; or 2.39 GHz; modulating pulses with frequency 4 Hz) on the secondary structure of DNA was investigated. It was established that the exposure of beta-alanine and formaldehyde containing aqueous DNA solution to electromagnetic radiation had activated the process of DNA despiralization under the action of beta-alanine--formaldehyde reaction product. The effect of electromagnetic radiation on the secondary structure of DNA can be removed by lowering of molecular weight of DNA to 0.46 x 10(6) (at carrying frequency 1.05 GHz), or to 0.25 x 10(3) (at carrying frequency 2.39 GHz).