Immunobiological effect of bitemporal exposure of rabbits to microwaves

The immunobiological effect of electromagnetic microwaves applied to parietotemporal area was studied. It was shown that the exposure of parietotemporal area to microwaves produced an immunodepressive effect manifested in the decreased number of natural (background) antibody-forming cells. The exposure of parietotemporal area to microwaves was accompanied by glucocorticoid function stimulation in the adrenal cortex and thyroid function depression.     

The effect of microwave irradiation on the status of the thyroid gland

Multiple irradiation of rats with microwaves of continuous generation (2450 MHz, 1 mW/cm2) increased and of pulsed generation (3000 MHz, 0.1 to 2.5 mW/cm2) decreased the functional activity of the thyroid gland with no changes in the triiodothyronine and thyroxin in blood serum. The role of the thyroid gland in inducing behaviour effects of microwaves was demonstrated by the method of extirpation.     

Effects of electromagnetic field of thermal intensity on the hypophysis-thyroid unit of the neuroendocrine system

Acute 12-minute exposure of laboratory rats to microwaves with specific dose rate (SAR) of 30 W/kg that exceeded a basal metabolism caused a transient response of hyppophysis-thyroid system of compensatory-adaptive character. Prolonged exposure to microwaves of less intensity (SAR = 6 W/kg, which approximately corresponds to basic metabolic rate for these animals) caused insufficiency of the function of thyroid control in a form of primary hypothyroidis.     

The role of the thyroid hormones in regulating chromosomal resistance to microwave exposure]

The mutagenic effect of microwaves (2450 MHz, 500 mu W/cm2, 30 days, 7 h/day) on rats was shown to decrease under the influence of thyroxine (2.5 mu g/100 g) administered over a two-week period. The major role of thyroid hormones in the formation of the antimutagenic effect of nonionizing radiation (2450 MHz, 10 mu W/cm2, 30 days, 7 h/day) was confirmed by the experiments with the parathyroid gland being removed.     

A comparative analytical assessment of iodides in healthy and pathological human thyroids based on IC-PAD method preceded by microwave digestion

The aim of the study was to examine correlations between the content of iodides in 66 nodular goiters and 100 healthy human thyroid tissues (50- frozen and 50 formalin-fixed). A fast, accurate and precise ion chromatography method on IonPac AS11 chromatographic column (Dionex, USA) with a pulsed amperometric detection (IC-PAD) followed by alkaline digestion with tetramethylammonium hydroxide (TMAH) in a closed system and with the assistance of microwaves was developed and used for the comparative analysis of two types of human thyroid samples. Statistical analysis revealed over eightfold reduction of iodine concentration in the pathological tissues (the mean value was 77.13±14.02 ppm) in comparison with the control group (622.62±187.11 ppm for frozen samples and 601.49±192.11 ppm for formalin-fixed ones). A good correspondence (for 10 additional determinations) between the certified (3.38±0.02 ppm with variation coefficient (V.C.) of 0.59% for Standard Reference Material (SRM) NIST 1549-non-fat milk powder) and the measured iodine concentrations (3.52±0.29 ppm; V.C.=10%) was achieved. It was pointed out that the way of tissue preservation (either in formalin or by freezing) had no significant effect on the iodine determination result (α=0.1). Significantly lower iodide content was found in nodular goiter thyroid samples. The applied conditions of digestion, reinforced by the action of microwaves, brought about a decidedly shorter (less than 20 min) sample preparation time. Suitability of the developed IC method was supported by validation results.     

Microwaves in the Induction of Immune Response to VI-Antigen

In this work the possibility of using microwaves (MW) for immuno-modulation in the immunization of animals with thymus-independent antigen was studied. The projection zones of the thyroid and adrenal glands of the test animals were subjected to the action of decimeter MW, while the corresponding zones of control animals were subjected to imitation MW. The endocrine activity of rabbits was estimated by radioim-mune methods. Vi-antigen was shown to be a thymus-independent antigen for rabbits, according to the results of fluorescent probes to study the structural rearrangements in surfaces of thymocyte membranes and their nuclei, which reflect early changes during the physiological activation of cells. The irradiation by MW on the projection zone of the thyroid was accompanied by a decrease in the glucocorticoid activity of the adrenal cortex and a simultaneous pronounced immunostimulating effect. MW irradiation of the zone of the adrenal glands was accompanied by immunosuppression in combination with enhanced glucocorticoid activity of the adrenal cortex.     

Effects of postnatal microwave exposure on thyrotropin level in the adult male rat

Postnatal exposure of male rats to microwaves modulated the evolution of the thyrotropin level. Indeed, this treatment increased plasma TSH without affecting significantly plasma thyroxine. Moreover, the histological study of the thyroid demonstrated a high activity of this gland in irradiated animals. The modification observed in the thyrotropin level was correlated to an increase in hypothalamic noradrenaline described previously in rats submitted to the same irradiation.     

Effect of centimeter microwaves on the antibody production in mice

The effect of low-intensity microwaves (8.15-18 GHz, 0.3 or 1 microW/cm2, 1.5 h daily for 30 days) on antibody production in healthy male NMRI mice after immunization with affinity-purified carboanhydrase isolated from bovine erythrocytes with and without Freund's adjuvant was studied. It was found that exposure to microwaves leads to an increase in the concentration of antibodies in blood plasma, the stimulating effect being more pronounced in the primary immune response. It is assumed that the effect of enhancement of the immune response by the action of centimeter microwaves can be used in the adjuvant therapy.     

Thermal aspects of biological effects of microwaves in Saccharomyces cerevisiae

The formation of zygotes between two haploid strains of yeast (Saccharomyces cerevisiae) was determined under treatment with microwaves of 9.4 and 17 GHz at power levels up to 50 and 60 mW/cm2 and a specific absorption rate below 24 mW/g, or with conventional heating. Microwave treatments at 9.4 GHz or 17 GHz at a power density of 10 mW/cm2 produced an increase in zygote formation equivalent to that produced by conventional heating in an incubator, i.e. equivalent to a rise in temperature of 0.5 or 1 degrees C. At higher power densities zygote formation was slightly increased by microwaves at 17 GHz as compared to microwaves at 9.4 GHz probably due to the higher absorption of microwaves at 17 GHz by intracellular water molecules. Under these conditions, microwaves had no effect on cell survival or the induction of cytoplasmic 'petite' mutations.     

Nature of the changes in the morphofunctional and cytochemical indices of blood leukocytes as affected by low-intensity microwaves

A study was made of morphological composition of blood leukocytes, phagocytic activity, glycogen and alkaline phosphatase content of neutrophils of animals exposed to microwaves of low intensity (1-500 mu W/cm2) generated continuously (2375 MHz) and by impulses (9400 MHz). The direction of the change in these indices and rate of the postirradiation recovery was shown to depend upon intensity and duration (30-120 days) of exposure. The response of albino rats and guinea pigs to the effect of microwaves was different. The effect of microwaves of the intensities under study on the mammalian organism was assessed.     

Mechanism of the effect of nonionizing radiation on animals at the level of sensory systems

In three series of experiments on mice (CBA X C57BL)F1 and Wistar rats a study was made of the effect of microwaves (0.9 GGz, 0.4 mW/cm2, 10 min) on the EEG reaction of adopting the photostimulation rhythm by rats; the effect of microwaves (0.6 GGZ, 0.04 mW/cm2, 5 min) and gamma-quanta (60Co, 0.5 Gy) on the reaction of avoiding by mice of cooled surfaces, and the effect of microwaves (9.8 GGz, 0.04 mW/cm2, 5 min) on the reaction of avoiding the water pool. The results obtained are discussed with regard to the hypothesis that the biological effects of weak microwave radiation may be realized at the nervous system level via cutaneous ceptors.     

Low-Level Microwave Irradiations Affect Central Cholinergic Activity in the Rat

Sodium-dependent high-affinity choline uptake was measured in various regions of the brains of rats irradiated for 45 min with either pulsed or continuous-wave low-level microwaves (2,450 MHz; power density, 1 mW/cm2; average whole-body specific absorption rate, 0.6 W/kg). Pulsed microwave irradiation (2-microseconds pulses, 500 pulses/s) decreased choline uptake in the hippocampus and frontal cortex but had no significant effect on the hypothalamus, striatum, and inferior colliculus. Pretreatment with a narcotic antagonist (naloxone or naltrexone; 1 mg/kg i.p.) blocked the effect of pulsed microwaves on hippocampal choline uptake but did not significantly alter the effect on the frontal cortex. Irradiation with continuous-wave microwaves did not significantly affect choline uptake in the hippocampus, striatum, and hypothalamus but decreased the uptake in the frontal cortex. The effect on the frontal cortex was not altered by pretreatment with narcotic antagonist. These data suggest that exposure to low-level pulsed or continuous-wave microwaves leads to changes in cholinergic functions in the brain.     

Immunocorrective effect of low intensity radiation of ultrahigh frequency on carcinogenesis in mice

The effect of low-intensity centimeter electromagnetic waves (8.15-18 GHz, 1 microW/cm2, 1.5 h daily, 20 days) on the production of tumor necrosis factor, intreleukin-2, and interleukin-3 and the expression of the heat shock protein 72 in healthy and tumor-bearing mice was measured. A significant increase in tumor necrosis factor production and a slight reduction of interleukin-2 concentration were observed after exposure to microwaves; we consider these effects as adaptive response. The interleukin-3 production in healthy mice was not affected by microwaves. Low-intensity centimeter waves induced antitumoral resistance in tumor-bearing mice. Thus, exposure of tumor-bearing mice led to a significant rise in the tumor necrosis factor production and the normalization of both interleukin-2 and interleukin-3 concentration. We assume that the significant immunomodulating effect of low-density centimeter microwaves can be used for immunocorrection and suppression of tumor growth.     

Millimeter-Wave Effects on Candida Albicans Cells

In preliminary measurements, Candida albicans cultures exposed to 1 kHz square-wave-modulated microwaves at 72 GHz exhibited a significantly reduced number of colony-forming units in comparison with nonirradiated controls. To study whether the same effect could also be caused by continuous-wave (CW) irradiation, sedimented cells were exposed to either 1 kHz square-wave-modulated or CW microwaves at 72 GHz, with the same peak power. CW-exposed cells showed a higher growth rate (about 25%), whereas a reduction of about 15% was seen in cells exposed to square-wave-modulated microwaves in comparison with sham-exposed controls.     

Induction of neoplastic transformation in C3H/10T1/2 cells by 2.45-GHz microwaves and phorbol ester

C3H/10T1/2 cells were exposed to 2.45-GHz microwaves for 24 h and/or 1.5 Gy of 238-kVp X rays at 3.75 Gy/min. Transformation frequency and cell survival were measured with or without postirradiation addition of the tumor promoter tetradecanoyl-phorbol-13-acetate (TPA) at 0.1 microgram/ml. We previously reported (Carcinogenesis 6,859-864, 1985) an enhancement of transformation frequency when 10T1/2 cells exposed to a special sequence of microwaves and X rays were subsequently cultured in TPA. The same sequence of microwaves and X rays without promotion resulted in a transformation response similar to that induced by X rays alone. We now report statistically significant (at P greater than 0.999) enhancement of transformation response by TPA in cells exposed to 2.45-GHz microwaves (SAR = 4.4 W/kg). Microwaves alone had no effect on transformation. Plating efficiency and cell survival were not affected by TPA or microwave treatments.     

The effect of pulsed microwaves on passive electrical properties and interspike intervals of snail neurons

The effects of pulsed microwaves (2.45 GHz, 10 μs, 100 pps, SAR: 81.5 kW/kg peak, 81.5 W/kg average) on membrane input resistance and action potential (AP) interval statistics were studied in spontaneously active ganglion neurons of land snails (Helix aspersa), at strictly constant temperature (20.8±.07°C worst case). Statistical comparison with sham-irradiated neurons revealed a significant increase in the mean input resistance of neurons exposed to pulsed microwaves (P ? .05 ). Pulsed microwaves had no visible effect on mean AP firing rate; this observation was confirmed by analysis of interspike intervals (ISIs). Using an integrator model for spontaneously active neurons, we found the net input current to be more variable in neurons exposed to pulsed microwaves. The mean input current was not affected. The standard deviation of ISIs and the autocorrelation of the input current were marginally affected, but these changes were not consistent across neurons. Although the observed effects were less obvious than those reported in other studies, they represent evidence of a direct interaction between neurons and pulsed microwaves, in the absence of macroscopic temperature changes. The data do not suggest a single, specific mechanism for such interaction. © 1993 Wiley-Liss, Inc.     

Role of the thyroid gland in developing the genetic effects of microwaves of nonthermal intensity

Thyroidectomy was shown to prevent the development of the antimutagenic effect in rats exposed to microwaves. At the same time, exposure to the electromagnetic field decreased the mutagenic effect of excess thyroxin administered during irradiation.     

Acute low-intensity microwave exposure increases DNA single-strand breaks in rat brain cells

Levels of DNA single-strand break were assayed in brain cells from rats acutely exposed to low-intensity 2450 MHz microwaves using an alkaline microgel electrophoresis method. Immediately after 2 h of exposure to pulsed (2 μs width, 500 pulses/s) microwaves, no significant effect was observed, whereas a dose rate-dependent [0.6 and 1.2 W/kg whole body specific absorption rate (SAR)] increase in DNA single-strand breaks was found in brain cells of rats at 4 h postexposure. Furthermore, in rats exposed for 2 h to continuous-wave 2450 MHz microwaves (SAR 1.2 W/kg), increases in brain cell DNA single-strand breaks were observed immediately as well as at 4 h postexposure. © 1995 Wiley-Liss, Inc.     

Microwave-induced changes in nerve cells: effects of modulation and temperature

Helix aspersa neurons were irradiated with continuous-wave (CW) and noise-amplitude-modulated microwaves (carrier frequency 2450 MHz, 20% AM, 2 Hz-20 kHz) in a specially designed waveguide exposure system. Continuous-wave microwave irradiations were conducted at 8 degrees, 21 degrees, and 28 degrees C, while noise-modulated irradiation was performed at 21 degrees C. The results showed that exposure of snail neurons to CW microwaves for 60 min at 12.9 W/kg inhibited spontaneous activity and reduced input resistance at 8 degrees and 21 degrees C but not at 28 degrees C. The relative decrease in resistance at 21 degrees C was half that at 8 degrees C. Exposure of neurons to noise-modulated microwaves at 6.8 and 14.4 W/kg predominately caused excitatory responses characterized by augmented membrane resistance and the appearance of greater activity. The effect differed qualitatively from the inhibition observed with continuous, unmodulated microwave irradiation.     

Effect of weak and ultraweak combined magnetic fields and low-intensity microwaves on regeneration in the planarian <Emphasis Type="Italic">Dugesia tigrina</Emphasis>

Regeneration (blastema growth) in Dugesia tigrina was accelerated if prior to transection the planarians were exposed to a weak constant magnetic field (42 μT) combined with an ultraweak alternating magnetic field (40 nT, 3.7 Hz); lesser stimulation was obtained with weak microwaves (100 μW/cm² at 36 GHz). Field exposure after transection produced only half of the effect (magnetic field) or none at all (microwaves).