RU2452952C1 - Method for assessment of cattle resistance to tuberculosis - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method consists in formation of a group of clinically healthy animals, exploration of the biomedical blood values, calculation of an average value for a specific group of animals, comparison of the value of each animal and the related average value for the specific group of animals, assessment of animal resistance to tuberculosis on the basis of the related biomedical values. The blood values are total cholesterol and high-density lipoproteins. Animal's body resistance to tuberculosis is stated in case of simultaneously observing increasing total cholesterol and high-density lipoproteins with respect to the average values for the specific group of animals.

EFFECT: method possesses high effectiveness and is easy-to-implement.

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Description

The invention relates to veterinary medicine and can be used in the assessment of stable and susceptible to cattle tuberculosis.

Known methods for determining the activity of tuberculosis by biochemical blood parameters (for example, USSR author's certificate No. 1287010, RF patents No. 2187818, No. 2238564, No. 2161313, No. 2305286). In particular, there is a known method for diagnosing the severity of tuberculosis (AS USSR No. 1287010 according to class IPC G01N 33/68, publ. 30.01.87) by determining the content of glucose-6-phosphate dehydrogenase (G-6FDG) in the patient’s blood. In the method according to the patent of the Russian Federation No. 2187818 (class. IPC G01N 33/68, publ. 08.20.02), the ratio of ceruloplasmin (Cp) / transferrin (Tr) and the presence of free radical compounds (CPC) are determined by electron paramagnetic resonance. There is also a method for assessing the severity of tuberculosis infection by determining the concentration in the blood plasma of taurine and glutamic acid (RF patent No. 2305286 according to class IPC G01N 33/68, publ. 27.08.2007). Moreover, the method was tested only in an experiment on guinea pigs.

However, all the above methods are used only in medicine and are intended to assess the condition of people with tuberculosis.

There is also a method of selecting cattle for tuberculosis resistance of healthy animals (see RF patent No. 2080061 according to class MKI AK01 67/02, publ. 05.27.97). The method is based on the selection of animals by a complex of alleles of blood groups and antigens of the BoLA system, which mark resistance. This method is aimed at solving the problem of determining the genetic resistance of animals and allows you to select cattle for reproduction of animals of a specific breed.

However, the method is long and complicated in execution, requires a large number of ingredients.

Closest to the claimed is a method for assessing the resistance of the animal to tuberculosis (RF patent No. 2352938 according to class IPC G01N 33/48, publ. 04/20/2009) by studying the activity of creatine kinase and lactate dehydrogenase, determining the average value of each of these indicators for a specific group of animals , comparing the value of the indicator of each animal with the average value of the same indicator for a specific group of animals. The resistance of the animal to tuberculosis is judged by an increase in the activity of creatine kinase and a simultaneous decrease in the activity of lactate dehydrogenase relative to the average value of each indicator for a specific group of animals.

However, the method has a high cost due to the high cost of the reagents necessary for the determination of creatine kinase and lactate dehydrogenase, the method is difficult to implement due to the wide range of reference values of the determined parameters, especially creatine kinase, which normally ranges from 10 to 200 U / L. In addition, the indicator of lactate dehydrogenase reflects the activity of glycolysis, which is one of the important stages of carbohydrate metabolism, which, in turn, depends on the content of carbohydrates in the feed.

The invention is aimed at solving the problem of creating a cheap, easy-to-use and more effective way to assess the susceptibility of a healthy animal to tuberculosis, based on the study of blood lipid metabolism, reflecting the overall metabolic activity of the body, regardless of the quality of the feed.

The technical result of the invention is the speed and ease of execution of the method while reducing the cost of its implementation.

To solve the problem in a method for assessing the susceptibility of cattle to tuberculosis, which consists in the formation of a group of clinically healthy animals, the study of some biochemical blood parameters, determining the average value of each of the indicators for a specific group of animals, comparing the value of the indicator of each animal with the average value of the same indicator for a specific group of animals, assessing the susceptibility of an animal to tuberculosis according to the ratio of biochemical parameters, according to the study of total cholesterol and high density lipoproteins, and while increasing the values of total cholesterol and high density lipoproteins relative to the average value of each of these indicators for a specific group of animals, the susceptibility of the animal to tuberculosis is examined.

The sources of patent and scientific and technical information known to the authors do not describe a method for evaluating the susceptibility of cattle to tuberculosis, which makes it possible to differentiate physiologically healthy animals of the same breed from susceptible and resistant to tuberculosis disease simultaneously by two indicators of lipid metabolism: high density lipoproteins and total cholesterol. Moreover, indicators are evaluated within their normal values. In particular, for total cholesterol, from 1.6 mmol / L to 5 mmol / L.

With a simultaneous increase in the values of these indicators within the normal range of concentrations relative to the average value of each of the indicators for a specific group of animals of one breed, the susceptibility of the animal to tuberculosis is judged.

Comparison of indicators is carried out with the average values of each of the indicators obtained for a specific group of animals formed from a healthy herd, the number of animals in which is selected no more than 10 based on considerations of the convenience of comparing the results.

The inventive method proposes a cheaper, well reproducible and easily feasible method for assessing susceptibility, based on the ratio of lipid metabolism when deciding on the differentiation of healthy animals into susceptible and resistant to tuberculosis disease.

Cholesterol Xs - an organic compound of the class of steroids; the most important sterol of animals. A characteristic chemical property of cholesterol is the ability to form molecular complexes with many salts, acids, amines, proteins, and such neutral compounds as saponins, vitamin D _3, and others. Cholesterol is present in almost all living organisms, including bacteria. In blood plasma, cholesterol is in the form of esters with higher fatty acids (oleic, etc.) and serves as a carrier for their transport. In addition, cholesterol is involved in the regulation of the permeability of cell membranes and protects red blood cells from the action of hemolytic poisons.

LDL - a class of blood lipoproteins, which is the most atherogenic. LDL is formed from very low density lipoproteins of VLDL during lipolysis. This class of lipoproteins is one of the main carriers of cholesterol in the blood. LDL is the final step in the exchange of endogenous lipids in the body. They carry cholesterol in the body, as well as triglycerides, carotenoids, vitamin E and some other lipophilic components.

Cells, when they need cholesterol, synthesize LDL receptors, which, after synthesis, are transported to the cell membrane. In the cell membrane, LDL receptors are found in clathrin-containing caveoles. The LDL circulating in the blood binds to these extracellular receptors and is endocytosed by the cell. After absorption, LDL is delivered to endosomes, and then to lysosomes, where cholesterol esters are hydrolyzed and cholesterol enters the cell.

High-density lipoproteins HDL is a class of plasma lipoproteins. HDL has anti-atherogenic properties. Since a high concentration of HDL significantly reduces the risk of atherosclerosis and cardiovascular disease, HDL cholesterol is sometimes called "good cholesterol" in contrast to the "bad cholesterol" of low-density LDL cholesterol, which, on the contrary, increases the risk of developing atherosclerosis.

It is known that high density lipoproteins carry out the reverse transport of cholesterol from the vascular wall and macrophages to the liver, from where it is excreted from the body as part of bile acids. It is in the form of HDL that cholesterol is transported from cells of various organs and tissues to the liver, where it is partially esterified by bile acids.

Total cholesterol is an indicator of many pathological processes. An increase in the concentration of cholesterol above normal values leads to blockage of the bile ducts, fatty liver infiltration, the formation of gallstones and the formation of atherosclerotic plaques in the walls of blood vessels. Lowering cholesterol concentrations below normal may indicate the presence of tuberculosis.

The claimed invention for the first time revealed the possibility of evaluating a healthy animal (which has normal cholesterol) in terms of its potential susceptibility to tuberculosis by simultaneously exceeding the values of total cholesterol and high density lipoproteins relative to the average value of each of these indicators for a certain group of animals. Moreover, we are talking about increasing the concentration of indicators within their normal values.

In animals that are susceptible to infection with tuberculosis, elevated cholesterol values may indicate increased decay of endogenous lipids.

The transport of cholesterol from macrophages will be enhanced, which, ultimately, can lead to cholesterol deficiency in macrophages and vascular walls.

Since mycobacteria contain a large amount of lipids, cholesterol deficiency in macrophages will lead to an increase in the absorption of mycobacteria by macrophages and, accordingly, to incomplete phagocytosis and the development of tuberculosis infection. Therefore, an increase in the lipolytic activity of macrophages contributes to an increase in their absorption of mycobacteria.

At the same time, given that the external and internal membranes of degrading cells are the source of HDL, the high content of high density lipoproteins within normal values may indicate the decay of cells and subcellular cultures, i.e. for an inadequate immune response. This allows us to consider the increased concentration of high density lipoproteins as an important indicator in assessing the susceptibility of animals to tuberculosis.

The foregoing allows us to conclude that there is a criterion of "inventive step" in the claimed method.

HDL concentration was determined by the sedimentation method (see, for example, Assmann, G. Relation of high density lipoprotein cholesterol and triglycerides to incidence of atherosclerotic coronary artery disease (the PROCAM experience) / G. Assmann, H. Schulte // Am. J. Cardiol. - 1992. - V.70. - P.733).

To test the susceptibility of animals to tuberculosis infection, diagnostic tests were performed by placing an intradermal tuberculin test. In accordance with the “Manual on the diagnosis of animal tuberculosis”, approved by the Department of Veterinary Medicine of the Ministry of Agriculture of the Russian Federation on November 18, 2002, the cows were injected subcutaneously with purified 0.2 ml of mammalian PPD tuberculin. Accounting and evaluation of the results was carried out after 72 hours. Animals were considered responsive to tuberculin when the skin fold was thickened by 3 mm and regardless of the nature of the swelling (swelling, soreness and increased local temperature).

The method is as follows.

4. Form a group of clinically healthy animals, for example, 10 animals per group.

2. Blood is taken from these animals, stabilized with heparin, plasma is obtained and total cholesterol and high density lipoproteins are determined in it.

3. For each indicator in each group of animals, the arithmetic mean value is found.

4. Identify animals in which the value of total cholesterol and high density lipoproteins is significantly higher than the arithmetic mean value of this indicator found for a particular group of animals. Such animals are considered susceptible to tuberculosis infection.

Example.

A group of cows is formed in the amount of 10 goals.

They take blood from them, stabilize with heparin, obtain plasma and determine total cholesterol and high density lipoproteins in it.

To compare and justify the results obtained, low density lipoproteins were also determined.

The results are presented in the table.

As can be seen from the table, low density lipoproteins do not have a correlation with the resistance and susceptibility of the animal to tuberculosis.

Indicators of total cholesterol exceed the average value in 6 animals (No. 1 and No. 6 to No. 10), and in 4 animals this indicator is lower than the average value (No. 2 to No. 5).

Name of indicator Animal number The average value of the indicator one 2 3 four 5 6 7 8 9 10 High Density Lipoproteins (mmol / L) 0.94 0.69 0.76 0.90 0.84 1.28 1.72 1.68 1.83 1,61 1.18 Total cholesterol (mmol / l) 2,53 2.21 1.70 2.03 2.16 3.09 2.41 2.77 2.44 2.66 2,37 Low Density Lipoproteins (mmol / L) 1.35 1.26 0.69 0.88 1.05 1,59 0.46 0.85 0.36 0.80 0.94

At the same time, the indicator of high density lipoproteins is higher than average in 5 animals (from No. 6 to No. 10).

In animal No. 1, there was no simultaneous excess of indicators relative to their average values.

Therefore, in this group, animals No. 6 to No. 10 are considered susceptible to infection with tuberculosis, and animals No. 1 to No. 5 are considered to meet the selection criterion for resistance.

A tuberculin test confirmed that animals No. 1-5 are resistant to tuberculosis infection, while others (No. 6-10) are susceptible.

Thus, the claimed method allows to assess the potential susceptibility of animals to tuberculosis, while the presence of the disease is not in question. The method is simple to implement and effective, reflects the overall metabolic picture of the animal’s body, allows the formation of herds from animals that are potentially resistant to infection with tuberculosis.

Claims (1)

A method for assessing the susceptibility of cattle to tuberculosis, which consists in forming a group of clinically healthy animals, examining some biochemical blood parameters, determining the average value of each of the indicators for a specific group of animals, comparing the value of each animal with the average value of the same indicator for a specific group of animals, assessment of the susceptibility of an animal to tuberculosis according to the ratio of biochemical parameters, characterized in that as indicators leduyut total cholesterol and high density lipoprotein, and while increasing the values of total cholesterol and high density lipoprotein relative to the average value of each of these parameters for a particular group of animals judged on the susceptibility of the animal to tuberculosis.