Abstract
An important environmental problem is the pollution of the environment with heavy metal salts, which are in various combinations depending on the region and cause adverse effects on public health. The endocrine system together with the immune and nervous system maintains homeostasis in the body. In order to study the morphofunctional rearrangements of the epiphyseal-parathyroid axis structural components in rats during 30 days of readaptation after 90 days of exposure to heavy metal salts (zinc (ZnSO4 · 7H2O) — 5 mg/l, copper (CuSO4 · 5H2O) — 1 mg/l, iron (FeSO4 ) — 10 mg/l, manganese (MnSO4 · 5H2O) — 0.1 mg/l, lead (Pb(NO3 ) 2 ) — 0.1 mg/l and chromium K2Cr2O7) — 0.1 mg/l) an experiment was performed on 24 white sexually mature male rats weighing 250–300 g, aged 7–8 months. The animals of the experimental group consumed ordinary drinking water for 30 days. Morphological, statistical, immunohistochemical and biochemical research methods were used. The 30-day period of readaptation after 90 days of heavy metal salts intake is insufficient to completely restore homeostasis in the epiphyseal-parathyroid system, which is at the stage of chronic stress «subcompensation». Significant morphological changes on the part of the vascular bed of the pineal gland and parathyroid glands (blood stasis, erythrocyte aggregation, sludge phenomenon) were determined, an active glial reaction was formed in the pineal gland, and the structure of the epithelial trabeculae of the glands was disturbed. The levels of parathyroid hormone and calcium in the blood of experimental animals were significantly lower than those of experimental animals. There is a greater vulnerability and faster dynamics of the regenerative processes in the parathyroid glands to the action of salts of heavy metals in comparison with the pineal gland. The development of hypofunction of the parathyroid glands, of course, has a negative effect on the overall calcium metabolism in the body, the development of compensatory and adaptive processes and the course of the general adaptation syndrome in response to the damaging agent.
Highlights
Institution, which financed the research: Ministry of Health of Ukraine
In scientific publications there are no works on a comprehensive study of the of the epiphyseal — parathyroid axis structural components in sexually mature male rats under the conditions of readaptation after long-term exposure to the complex of heavy metal salts
Under conditions of 90-day intake of a mixture of salts of heavy metals in the body of rats, more pronounced morphofunctional changes are observed in the thyroid gland in comparison with changes in the pineal gland
Summary
Institution, which financed the research: Ministry of Health of Ukraine. The authors assume responsibility for the published work. Експериментальні дослідження the pineal gland prevents irrationally rapid changes in biorhythms in response to random fluctuations in the light regime [3]. Only single studies have been devoted to the study of the epiphyseal-parathyroid axis of the endocrine system: changes of calcemia into melatonin secretion in hemodialysis patients have been studied. In scientific publications there are no works on a comprehensive study of the of the epiphyseal — parathyroid axis structural components in sexually mature male rats under the conditions of readaptation after long-term exposure to the complex of heavy metal salts. The purpose of the work was to perform a comprehensive study of morphological, bio chemical and immunohistochemical parameters of the epiphyseal — parathyroid axis structural components in sexually mature male rats under the conditions of readaptation after longterm exposure to a complex of heavy metal salts
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