The hormonal and clinical-sexological examinations of 79 married males aged 29-55 years with the diagnosis of the vibration - induced disease from the exposure to local vibration has been performed. During the examinations, disorders of the hormonal status as one of the causes of the sexual disorder as well as the alterations in sexual constitution have been revealed. Dependence of the working period duration on the hormone levels, dependence of the degree of the vibration-induced disease expression on the testosterone level in blood as well as dependence of the level of thyreoid hormones on sexual constitution have been established.
Introduction. Vibration disease continues to occupy one of the leading places in the structure of professional pathology. In workers after the termination of contact with vibration generalization and progression of violations in an organism is noted. The pathogenetic mechanisms of the progredient course of disturbances in the nervous system in the post-contact period of vibration exposure remain insufficiently studied.The aim of the study was to test an experimental model of vibration exposure to assess the neurophysiological and morphological effects of vibration in rats in the dynamics of the post-contact period.Materials and methods. The work was performed on 168 white male outbred rats aged 3 months weighing 180–260 g. The vibration effect was carried out on a 40 Hz vibrating table for 60 days 5 times a week for 4 hours a day. Examination of animals was performed after the end of the physical factor, on the 30th, 60th and 120th day of the post-contact period. To assess the long-term neurophysiological and morphofunctional effects of vibration in rats, we used indicators of behavioral reactions, bioelectric activity of the somatosensory zone of the cerebral cortex, somatosensory and visual evoked potentials, parameters of muscle response, morphological parameters of nervous tissue.Results. In the dynamics of the post-contact period observed the preservation of violations of tentatively research, motor and emotional components of behavior. In the Central nervous system instability of activity of rhythms of an electroencephalogram, decrease in amplitude of visual evoked potentials, lengthening of latency of somatosensory evoked potentials, decrease in total number of normal neurons and astroglia is established. In the peripheral nervous system remained changes in indicators: increasing duration and latency, reducing the amplitude of the neuromuscular response.Conclusions: The experimental model allows us to study the long-term neurophysiological and morphological effects of vibration on the body. The formation and preservation of changes in behavioral activity, neurophysiological and morphological effects of vibration from the 30th to the 120th day of the post-contact period were confirmed.
The aim of the present investigation is to estimate the role of prenatal hypoxia in toluene neurotoxic effect in adult rats. Toluene-induced behavioral and electroencephalographic manifestations were investigated in animals with normal and abnormal embryonic development. To simulate prenatal hypoxia, we gave subcutaneous injections of sodium nitrite to pregnant female rats in a dose of 50mg/kg on the 18–19th day of gestation. At the age of 3months the males from the offspring were exposed to toluene inhalation (560mg/m3, 4w eeks, 4h/day, 5days/week). After toluene inhalation exposure we estimated rats’ individual behavior by plus maze test and visual and auditory evoked potentials (VEPs and AEPs). Toluene reduced P2N2 interpeak amplitude of VEPs compared with control rats without any latency change. We found out that toluene exposure of rats with acute prenatal hypoxia in late gestation had led to inhibition of motor activity and a statistically significant increase in latency of VEP’s N1, AEP’s P3 and N1P2 interpeak amplitude of AEP in comparison with all remained groups. Thus, these results show that prenatal hypoxic damage to the central nervous system is an aggravating factor in toluene intoxication in rats.
Introduction. Experimental studies in animals have shown ultrastructural changes in hepatic sinusoidal endothelial cells, tissue hypoxia of the kidneys, changes in the activity of oxidative processes and antioxidant enzymes, the formation of bioenergetic hypoxia, cell response in the form of infiltration of both lymphoid and macrophage cells to develop due to exposure to vibration. However, there is almost no data about the status of animals’ organs in the post-contact period. Material and methods. The study was carried out in white male rats weighing 220-240 g, were exposed to 40 Hz vibration for 60 days 5 times a week for 4 hours a day. Histological and morphometric analysis was used to assess the sensorimotor cortex tissue and hepatorenal system. Results. A decrease in the total number of brain neurons, astraglial cells in rats in 30, 60 and 120 days of the post-exposure period was found. There was hyperemia in the portal and Central veins, an increase in the number of Kupffer cells in the liver tissue at the 30th, 60th, 120th day after the exposure. Decrease in the area of the Shumlyansky-Bowman capsule was recorded in the experimental rats’ kidney tissue 30 days after the end of vibration exposure; though there were no differences in the number of renal bodies in the tissue of white rats of the experimental and control groups at 60th and 120th day after the end of exposure to vibration. Conclusion. Morphological changes in the tissues of white rats exposed to prolonged vibration presented in the form of a decrease in the total number of neurons and astroglia cells in the brain tissue, a pronounced macrophage response in the liver tissue have been preserved in the post-contact period following the exposure to vibration.
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