RU2552052C2 - Method for decreasing zinc and lead in rat's body - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to biotechnology and can be used in biological and medical laboratories resolving the problems of the effect of probiotic preparations on heavy metal decrease in animal's body. A method for decreasing zinc and lead in a rat's body involves feeding them and administering Sporobacterin of the sporogenous strain Bacillus subtilis 534 in an amount of 0.5-1.5 ml per a head on an empty stomach per os once a day for 7-14 days starting from the moment whereat the rats get sexual maturity.

EFFECT: implementing the invention provides decreasing zinc and lead in the rat's body by administering the Sporobacterin probiotic that ensures providing higher animal's body resistance to diseases.

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Description

The invention relates to biotechnology and can be used in laboratories of a biological and medical profile, solving issues on the effect of probiotic drugs on the reduction of heavy metals in animals.

A known method of reducing the content of heavy metals in the body of chickens [Patent RU No. 2391860, publ. 06/20/10 g.]. The method is characterized in that the main diet is fed to the bird, the grain portion of which is pre-mixed with electroactivated clinker dust in an amount of 1.5-2.5% per dry matter from the main diet and is subjected to warm extrusion at a temperature of 70-110 ° C and a pressure of 8- 14 MPa for 8-10 seconds. The method provides a reduction in the content of heavy metals in the body of chickens.

However, the disadvantage of this method is that the introduction of electroactivated dust into the cereal part of the main diet and its subsequent thermal extrusion does not normalize the intestinal microflora, i.e. requires additional recovery.

There is a method of reducing the lead content in the body of chickens, taken as a prototype, including giving a feed that contains an enzyme premix in a dose of 0.1% by weight of feed [Patent for the invention RU No. 2270580 publ. February 27, 2006].

The disadvantage of this method is that it is aimed at removing only lead.

The technical result of the invention is the reduction of zinc and lead in the body of rats due to the introduction of the drug "Sporobacterin" (strain Bacillus subtilis 534), which ultimately will increase the resistance of animals to diseases. Laboratory rats were used as an in vivo model.

The solution is achieved by the fact that in the method of reducing the content of zinc and lead in the body of rats, including feeding, rats are administered per os once a day to the rats “Sporobacterin” based on the spore-forming strain of Bacillus subtilis 534 in an amount of 0.5-1.5 ml on one head on an empty stomach for 7-14 days, starting from the moment rats reach puberty.

The bacteria Bacillus subtilis strain 534 secrete broad-spectrum antibacterial substances that inhibit the development of a number of pathogenic and conditionally pathogenic bacteria. The growth of saprophytes, including normal intestinal microflora, is not inhibited by sporobacterin.

Thus, oral administration of the indicated drug on an empty stomach at a dose of 1 ml per head and 1 time per day has a direct effect on the normalization of intestinal microflora and reduces the content of heavy metals (Zn and Pb), without additional restoration of the intestinal flora due to the fact that probiotic microorganism strains capable of supporting the natural intestinal microflora.

A method of reducing the content of zinc and lead in animals is as follows. Previously, in an in vitro model, it was experimentally found that of the three studied probiotic preparations based on the genus Bacillus (Sporobacterin, Bactisubtil, Biosporin), Sporobacterin was the most effective [Fomina M.V., Kvan O.V., Sizentsov A.N., 2011].

For the implementation of the method of 96 individuals of Wistar rats in puberty, i.e. at the age when the animals reach the maximum slaughter weight, 8 groups were formed: two control and 6 experimental groups. As intoxicants, salts of heavy metals — zinc sulfate and lead nitrate — were used, because they are the most common (in the case of zinc) and the most dangerous (in the case of lead) environmental pollutants.

The first control group received the main diet (K ₁ ), the second control group received the main diet with the addition of enzyme premix in a dose of 0.1% by weight of feed (K ₂ ). Three experimental groups before the implementation of the method received lead nitrate, and the other three received zinc sulfate. After that, the first three groups received the main diet with the addition of the probiotic Sporobacterin in dosages: O ₁ - 0.5 ml, O ₂ - 1 ml and O ₃ - 1.5 ml, and the next three experimental groups received the main diet with the addition of the probiotic Sporobacterin dosages: O ₄ - 0.5 ml, O ₅ - 1 ml and O ₆ - 1.5 ml.

All groups were fed twice 14 days, and the probiotic Sporobacterin was added to the main diet once a day, on an empty stomach, because the drug was better absorbed and colonized by CFU by the intestinal bacteria of the experimental animals.

Experimental animal studies were carried out in accordance with the instructions recommended by the Russian Regulations, 1987 and "The Guide for the Care and Use of Laboratory Animals (Nationak Academy Press Washington, D.C. 1996)." The experimental animals were in the same conditions.

The sampling was carried out with a frequency of seven days (background study, seventh, fourteenth days). The ability of bacilli to accumulate heavy metals in tissues was analyzed (for this purpose, biological materials such as bones, muscles and skin of laboratory animals were taken). The retention of zinc and lead in the body of experimental animals is shown in the table.

The analysis of the studied biosubstrates of rats and feeds was carried out in the laboratory of the ANO "Center for Biotic Medicine", Moscow (accreditation certificate GSEN.RU.TSOA.311, register, state register number ROSS RU.0001.513118 dated May 29, 2003) using atomic methods emission and mass spectrometry with inductively coupled argon plasma (ICAP-9000 Thermo Jarrell Ash devices, USA, Perkin Elmer Optima 2000DV, USA; MUK 4.1.1482-03, MUK 4.1.1483-03). Sample preparation was carried out in accordance with recommendations 4.1.1482-03 and 4.1.1483-03 by microwave decomposition on a Multiwave 3000 instrument (A. Paar).

In the course of experimental studies, it was found that the additional introduction of lead and zinc salts into the diet of animals leads to the greatest accumulation of the latter in the studied biosubstrates of rats. However, the additional introduction of a probiotic based on the spore-forming strain of Bacillus subtilis 534 in a dosage of 0.5; 1 and 1.5 ml led to a decrease in the concentration of the studied metals on days 7 and 14 of the study.

It should be noted that a decrease in the concentration of both lead and zinc was observed in all experimental groups. So, in the first experimental group, the level of lead in the skin of laboratory animals at the end of the experiment decreased by 2.6 times, in muscle and bone tissue by 2.2 and 4.5 times, respectively. In the third group, the level decreased 2.3 times in the skin, 2.2 times in the flesh and 1.3 times in bone.

The decrease in the level of accumulation of zinc ions in the fourth and sixth experimental groups varied from 1.1 to 1.5 times in all organs and tissues of laboratory rats.

The groups O ₂ and O ₄ , in which Sporobacterin was administered at a dose of 1 ml, have the least accumulating ability with respect to lead and zinc ions. In particular, in muscle tissue the level of lead decreased 4.6 times, in bone - 2 times, in the skin 3.15 times, the picture for zinc was as follows - 1.5; 1.4 and 1.1 times, respectively.

In the control groups, no obvious changes were observed, except that in the group with additional administration of the enzyme preparation, a slight increase in the latter was observed in the animal body. They did not exert an independent effect of the studied probiotic on muscle and bone tissue, and when used together with heavy metal, they acted positively, stimulating the excretion of metal ions (Zn, Pb) from the body.

This allows us to conclude that the inclusion of the probiotic preparation “Sporobacterin” (Bacillus subtilis 534 strain) in a dosage of 0.5-1.5 ml, containing the biomass of live Bacillus subtilis 534 bacilli (at least 1 × 10 ⁹ KOE), is sufficient for colonization by intestinal bacteria experimental rats and ultimately leads to a maximum reduction in lead and zinc.

Claims (1)

A method of reducing the content of zinc and lead in the body of rats, including feeding, characterized in that the rats are administered per os once a day to the preparation "Sporobacterin" based on the spore-forming strain of Bacillus subtilis 534 in an amount of 0.5-1.5 ml per head on an empty stomach for 7-14 days, starting from the moment rats reach puberty.