RU2491923C2 - Method for improving non-specific resistance in laying chickens - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to veterinary science. Substance of the invention consists in the fact that the basic diet is added with the new antioxidant dihydroethoxyquin in the amount of 100 mg per one kilogram of a dry substance included in the basic diet.

EFFECT: using the invention provides a higher positive effect on the systems responsible for the non-specific resistance of laying chickens.

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Description

The invention relates to the feeding of poultry, namely laying hens.

It is known from the prior art that the antioxidant ethoxyquin (Santokhin) is used: 1) as an effective stabilizer of fats and vitamins in feed of farm animals; 2) as a prophylactic and therapeutic agent against animal diseases, encephalomalacia, exudative diathesis, and muscular dystrophy. (Instruction for the use of ethoxyquin (Santokhin) in animal husbandry and in the production of grass meal. Department of Veterinary Medicine, Ministry of Agriculture of Russia No. 13-5-2 / 1144. TU 6-02-1288-84 IZM, 1-5, 07.09.2004).

The new domestic preparation, dihydroethoxyquin, is a hydrogenated derivative of the antioxidant ethoxyquin widely used in the production of livestock and poultry products. The preparation was synthesized and kindly provided by the RiVKNO-ROS Innovation Foundation, Moscow.

A known method of feeding broiler chickens, taken as a prototype, and including the introduction of dihydroethoxychine into the main diet in order to prevent the development of excessive free radical processes in the body and stimulate the functional activity of systems responsible for non-specific resistance (Galochkin V.A., Krapivina E.V. ., Shalegin VN, Galochkina VP, Patent No. 2370094 dated 10/20/2009. A way to increase the nonspecific resistance of broiler chickens.)

According to the prior art, the antioxidant-antiradical system of the body determines the regulatory processes of metabolism in the body of higher animals and birds and is able to actively influence the state of the defenses, nonspecific resistance and health.

In world science, the problem of the formation of the antioxidant status of the organism of higher animals and poultry is completely justified. New aspects of the regulatory role and the effect of antioxidants on metabolic processes, on nonspecific resistance and the state of the defenses of the human body, animals and birds continue to be revealed, an intensive search is ongoing for new, more effective antioxidants.

Free radicals are normal, physiologically natural metabolites in a large number of body processes and, especially, in the reactions of lipid peroxidation and mitochondrial tissue respiration (oxygenase pathway of oxygen metabolism). However, their excess production and the inability of the body to successfully normalize their number is the most common cause of the most serious and diverse metabolic pathologies. To combat them, the body contains a multicomponent, multifunctional and defense in depth antioxidant-anti-radical defense system.

Theoretically, in the body there is a physiologically homeostatic level of free radical processes and lipid peroxidation, which is necessary for the normal functioning of all intracellular components, as well as for the regulation of lipid composition, fluidity and, therefore, normal permeability of cytoplasmic membranes, without which the course of all biochemical processes is unthinkable . This stationary state is determined by the tissue balance of antioxidants and prooxidants. In certain unfavorable biochemical situations in the body, tissue balance may shift towards prooxidants. This condition has been called oxidative metabolic stress. The result of oxidative metabolic stress is a partial or even complete disruption of the functioning of protective systems and the development of oxidative damage to literally every cell of all, without exception, organs and tissues.

For many years in the world, the content of malondialdehyde in the blood has been recognized as a generally accepted criterion for the ratio of antioxidant-prooxidant processes in any cell of the body and the functional activity of the systems responsible for non-specific resistance. An increase in its content characterizes the inability of the body's protective systems to successfully cope with the processes of lipid peroxidation and oxygen oxidation along the one-electron pathway, during which the bulk of superreactive free radicals are formed - unoxidized oxygen products that reduce the non-specific resistance of laying hens.

Analysis of cholesterol fractions of lipoproteins of various densities around the world also continues to be among the most important diagnostic tests of the state of the antioxidant-antiradical system, and among the most important criteria for nonspecific resistance of the body. Naturally, in combination with an elementary analysis of the sum of lipid peroxidation products (malondialdehyde).

Currently, indicators such as total lipids, total phospholipids, triacylglycerols, and even total cholesterol alone are no longer assessed as having independent diagnostic significance. They are considered as asymptomatic in the clinic, i.e. they do not provide accurate diagnostic information about a specific pathology. In experimental biochemical practice, they recognize the ability to only reflect a certain general state of lipid metabolism in the body, a potential, poorly informative tendency.

The present invention is aimed at solving the technical problem of increasing the nonspecific resistance of laying hens and, therefore, increasing the protective forces of their body, reducing the incidence and mortality of laying hens throughout the entire technological cycle, their production of eggs.

The problem is solved in that, in contrast to the known methods of feeding laying hens, which include basic nutrition with full feed, according to the invention, a new antioxidant, dihydroethoxyquin, is introduced into the main diet, instead of conventional antioxidants.

The advantage of the proposed method for feeding laying hens over the traditional one is that when it is used, the nonspecific resistance of the laying hens increases, provided not only by a decrease in the concentration of lipid peroxidation products in the blood, but also by a radical change in the direction of lipid-cholesterol metabolism. The new antioxidant dihydroethoxyquin used is a solid water-soluble substance, unlike liquid fat-soluble ethoxyquin, it is more stable, less toxic, and has greater antioxidant activity. The use of dihydroethoxychin in production is more technologically advanced, since it can be introduced in the required dose in both feed and drinking water of laying hens.

A distinctive feature of the invention: an increase in the nonspecific resistance of laying hens inhibition of lipid peroxidation reactions in their bodies and the orientation of lipid-cholesterol metabolism, which is determined by lowering low-density lipoprotein fractions in blood and increasing high-density lipoprotein cholesterol fractions, is achieved by introducing a new complete feed dihydroethoxychine antioxidant in an amount of 100 mg / kg feed. In the patent and scientific literature available, we have not found the use of dihydroethoxyquin to increase the specific resistance of laying hens. This circumstance allows us to consider the claimed invention patentable as meeting the condition of patentability "inventive step". (Patent Law of the Russian Federation of 10/14/1992).

In the starting working hypothesis of the experiment with the use of dihydroethoxychine, we counted on the biochemical effects of the antioxidant associated with the manifestation of the activity of low density lipoprotein inhibiting the oxidation of molecules. The consequence of the above should be an improvement in the performance of the systems responsible for the functional state of the nonspecific resistance of the laying hens. The results of the experiment showed the validity of our assumptions.

Example 1

The experiment was conducted at the Vasilievskaya poultry farm in the Penza region. The poultry farm uses outdoor technology for keeping laying hens of the parent flock of the cross ROOSS-308 of the Big Dachman company.

2 groups of laying hens of the parent herd of 100 animals each and 14 roosters were formed. Feeding the birds was carried out in accordance with existing standards. The age of the bird at the beginning of the experiment is 227 days. Dihydroethoxyquin was added to the feed at a dose of 100 mg / kg of feed. On day 41 of the experiment, blood was taken from the axillary vein for biochemical analyzes.

Biochemical methods of analysis.

In the blood of chickens are defined:

1. The activity of glutathione peroxidase; 2. The concentration of lipid peroxidation products (MDA, malondialdehyde); 3. Triacylglycerols (TG); 4. Total cholesterol (XO); 5. High density lipoprotein cholesterol (HLPVP); 6. Low-density lipoprotein cholesterol (CLLP); 7. Very low density lipoprotein cholesterol (HLPONP); 8. Total protein; 9. Albumin.

An objective assessment of the functional state of the systems responsible for the nonspecific resistance of the organism, the state of antioxidant defense, and the mechanisms of nonspecific reactions to any adverse environmental influences was carried out by us according to the group of indicators shown in Table 1. It summarizes the main results of the experiment. Since we did not find any intergroup differences in the activity of glutathione peroxidase, the concentration of total protein and albumin, these indicators are not included in the table.

These indicators together determine the status of nonspecific resistance of laying hens.

Familiarization with the digital material presented in table 1 reveals very interesting patterns. The concentration of triacylglycerols, total cholesterol and its content in the fraction of very low density lipoproteins does not undergo significant and significant changes, while in the experimental group, the concentration of cholesterol in the fraction of high density lipoproteins significantly and significantly increases (one and a half times), and cholesterol fraction of low density lipoproteins sharply decreases (almost twice). As can be seen from the digital material summarized in the table, the concentration of malondialdehyde was 18% lower in the experimental group than in the control, indicating the high efficiency of the antioxidant systems of the chicken body. Thus, a strict inverse proportion between the dihydroethoxychin introduced into the diet and the blood content of laying hens of malondialdehyde was demonstrated.

The obtained experimental material fully confirmed the correctness of our starting premise. For this group of indicators, we also received new, very convincing information. The most remarkable circumstance is a significant and reliable increase in the concentration of cholesterol fractions in the blood in high density lipoproteins, which are now classified as anti-atherogenic fractions and a decrease in the blood cholesterol content in low-density lipoprotein fractions, which are classified as atherogenic fractions.

The cholesterol content of lipoprotein fractions of various densities is among the most important diagnostic tests of the state of the antioxidant-antiradical system, and among the most important criteria for nonspecific resistance of the body. This confidence is based on the actual status quo, according to which, the higher the functional activity of the antioxidant system, the lower the concentration of HLPDP (atherogenic factor), and the higher the concentration of HLPVP (antiatherogenic factor). Naturally, along with an elementary analysis of the complex of lipid peroxidation products (malondialdehyde).

In the experimental group of laying hens, the factors related to atherogenic (in the broad sense of the interpretation of this term) decreased, and the factors classified as anti-atherogenic increased. It should be emphasized that the terms “atherogenicity” and “antiatherogenicity” are used throughout the world only for brevity. For a long time, everyone has been investing a much wider meaning in them, completely not limited only to cardiovascular pathology. This is far from the only, and perhaps not the main information provided by the analysis of cholesterol of various lipoprotein fractions and the associated dyslipemia, a large list of very serious, systemic metabolic disorders is included here.

Thus, all the information obtained on the value of the set of indicators integrated characterizing the general state of peroxidation processes in the body of laying hens convincingly confirms the positive effect of dihydroethoxychin on the nonspecific resistance of laying hens and indicates the advisability of introducing dihydroethoxychine into their diets.

Claims (1)

A method of increasing nonspecific resistance of laying hens, including basic full-nutrition, characterized in that dihydroethoxyquin is additionally added to the main diet in an amount of 100 mg per kilogram of dry matter of the main diet.