STRUCTURAL AND FUNCTIONAL CHANGES IN TONGUE TISSUES UNDER PER OS ADMINISTRATION OF HIGH DOSES OF LEAD ACETATE

The main purpose of this study was to evaluate the structural transformation in rats’ tongue tissue after oral administration of lead salts. Under the conditions of acute experiment during 5 days Wistar rats were orally administered the lead acetate solution in the amount of 24 mg per day. Histological studies were carried out at OSMU upon the completion of the experiment. Effect of toxic doses of lead results in symptoms of both hyperkeratosis and destruction of tongue tissue. It is assumed that the oxidative stress and tissue irritation, induced by lead intoxication, causes pathological changes in the shape, height and number of filiform papillae of the tongue. This results in hyperkeratosis, hydropic degradation of the epithelium and in the presence of an inflammatory infiltrate in the connective tissue.

EFFECT OF LEAD ON STRUCTURAL CHANGES IN LIVER OF WISTAR RATS UNDER THE CONDITIONS OF ACUTE EXPERIM

The purpose of this study was to evaluate the structural transformations of Wistar rats liver after oral administration of lead salts. Under the conditions of acute experiment during 5 days the Wistar rats were orally administered the lead acetate solution in the amount of 3 mg/kg. Histological studies were carried out at OSMU upon the completion of the experiment. Effect of toxic doses of lead causes symptoms of both steatosis and hydropic degeneration of the liver. It is assumed that the appearance of hepatic steatosis reflects the reaction of hepatocytes to hemic hypoxia caused by the action of lead, while the signs of hydropic degeneration expressed in varying degrees reflect its direct toxic effect.

Influence of heavy metals on hematologic parameters, body weight gain and organ weight in rats

The aim of the study was to determine the effect of Cadmium and Lead salts on body weight gain and rat body weights and hematological parameters. The experiments were conducted in male rats of the Wistar line, weighing 200–220 g, of which four groups of animals were formed: 1) A control group – they injected drinking water through a metal probe in a volume equivalent to the volume of an aqueous solution of Cd2+ salts and Pb2+; 2) Experimental group 1 – animals were administered a 0.029% aqueous solution of cadmium chloride at a dose of 4.0 mg kg-1; 3) Experimental group 2 – animals were administered 16.6% aqueous lead acetate solution at a dose of 200 mg kg-1; 4) Experimental group 3 – animals were administered 16.6% aqueous lead acetate solution at a dose of 100 mg kg-1 and 0.029% aqueous cadmium chloride solution at a dose of 2.0 mg kg-1. Throughout the experiment, rats were kept in a balanced diet containing all the necessary components, and animals were given drinking water, without restriction, from 0.2 liter glass bowls. On the basis of the conducted researches it is established that at loading of an organism of rats by cadmium and Lead salts in rats the weight gain in comparison with intact animals decreased. Reduction of live weight gain in rats by heavy metal intoxication was accompanied by hypo- and hypertrophy of the internal organs. These changes are related to the cumulative and sorption capacity of these metal ions, which contribute to the development of endogenous intoxication of rats in the experimental groups. Chronic lead-cadmium toxicosis in rats was accompanied by erythrocytopenia and leukopenia, as well as a decrease in hemoglobin with a simultaneous increase in erythrocyte volume and average erythrocyte hemoglobin content.

The level of lipid peroxidation products in the rats blood under prolonged cadmium and lead loading

Lipid peroxidation is a form of tissues respiration. This process is characteristic of normal tissues and occurs, as a rule, after the construction of lipid membrane structures, their updates and during the biosynthesis of many hormones. However, free radical oxidation can be activated in an unfavorable environmental situation, since in our case it happened under the action of Cadmium and Lead. The purpose of the work was to investigate the Cadmium and Lead effects on the lipid peroxidation processes intensity in rats. The experiments were carried out on 200 – 220 g male “Wistar” rats, from which 4 groups of animals were formed: 1) control group – animals were administered drinking water through a metal probe in bulk, which is equivalent to the volume of aqueous salt solution Cd2+ і Pb2+; 2) experimental group 1 – animals were administered 0.029 % an aqueous solution of cadmium chloride in a dose 4.0 mg/kg; 3) experimental group 2 – animals were administered 16.6 % aqueous lead acetate solution at a dose 200 mg/kg; 4) experimental group 3 – animals were administered 16.6 % aqueous lead acetate solution at a dose 100 mg/kg and 0.029 % an aqueous solution of cadmium chloride in a dose 2.0 mg/kg. Throughout the experiment, rats were kept in a balanced diet containing all the necessary components, the animals were given drinking water without restrictions from 0.2 liter glass bowls. Based on our research, we detected activation of lipid peroxidation (LPO) products in the blood of rats under lead-cadmium loading, as indicated by the growth of intermediate and final products in comparison with the group of intact animals. Probable level increase of LPO products was observed from the first day of the experiment. For the 7th day of the experiment, the level of diene conjugates in the blood of the third experimental group increased by 88.9 %, and the level of Thiobarbituric acid reactive substances (TBARS) increased by 31.8 %. At 14 and 21 days of the experiment, the level of of LPO products in the rats blood under the lead-cadmium load was the highest. These changes in the LPO products level indicate an increase in the intensity of radical formation processes. Peroxide oxidation forms, at almost all stages of its course, a number of products that result from the interaction of free radicals with each other and with biological macromolecules.

Protein synthesizing function and the functional state of liver of rats for the continuous cadmium and lead load

The aim of the study was to investigate the effect of Cadmium and Lead on the protein synthesis and function of the rat liver. The experiments were conducted in male rats of the Wistar line, weighing 200–220 g, of which 4 groups of animals were formed: 1) a control group – injected drinking water through a metal probe in a volume equivalent to the volume of an aqueous solution of Cd2+ salts and Pb2+; 2) experimental group 1 – animals were administered a 0.029% aqueous solution of cadmium chloride at a dose of 4.0 mg/kg; 3) experimental group 2 – animals were administered 16.6% aqueous lead acetate solution at a dose of 200 mg/kg; 4) experimental group 3 – animals were administered 16.6% aqueous lead acetate solution at a dose of 100 mg/kg and 0.029% aqueous cadmium chloride solution at a dose of 2.0 mg/kg. Throughout the experiment, rats were kept in a balanced diet containing all the necessary components, and animals were given drinking water, without restriction, from 0.2 liter glass bowls. The functional state of the liver of rats under the conditions of use of salts of heavy metals was investigated by the activity of aminotransferases. In long-term lead-cadmium loading in rats of the experimental groups, the functional state of the liver is characterized, which is characterized by an increase in the permeability of biological membranes of the cell membranes, which causes hyperfermentemia in blood serum, in particular aminotransferase (AST, ALT). The high activity of ALT and AST in the serum of rats under the influence of Cadmium and Lead indicates the destructive processes in the liver that cause an increase in the output of aminotransaminases from cell organelles in the blood of experimental animals. Thus, the results obtained indicate an increase in the destructive processes in the body of rats under lead-cadmium loading. Important diagnostic value for intoxication of different etiology is the determination of protein synthesis of liver function. An important indicator of liver protein synthesis is the level of total protein and its fractions in the serum. This indicator reflects the changes that occur in the body in different pathological conditions. When loaded with heavy metals in the body of rats inhibits the protein synthesis function of the liver, which is manifested by a decrease in total blood protein and albumin levels.

Parachlorella beyerinckii accelerates lead excretion in mice

The effect of Parachlorella beyerinckii CK-5, previously identified as Chlorella vulgaris, on gastrointestinal absorption of lead was investigated in mice. Female ICR mice aged 7 weeks were orally administered lead acetate solution at doses of 20 mg and 40 mg of lead per mouse, with or without 100 mg of P. beyerinckii powder (BP). The mice were bred for 24 hours. The amount of lead excreted in feces within 24 hours, and the lead levels of the blood, liver and kidney were analyzed by atomic absorption spectrometry. The percentage of total fecal excretion in mice administered BP increased by 27.7% in 20 mg lead administered mice and 17.2% in 40 mg lead administered mice in comparison to control mice, respectively. On the other hand, the lead levels of the blood, liver and kidney of BPadministered mice at 24 hours after lead administration were 48-63% lower as compared with those of control mice. The lead adsorption ability of BP and the pepsin non-digestive residue of BP (dBP) were investigated in vitro. One hundred mg of BP and dBP could adsorb 10.6 mg and 6.0 mg of lead in a 20 mg per 10 mL of lead solution, respectively. The lead absorption abilities of BP and dBP were considered to contribute to the prevention of gastrointestinal absorption of lead and the promotion of the excretion of lead. These results suggested that BP treatment might be useful in animals and humans exposed to lead.