UA126924U - METHOD OF CORRECTION OF NON-SPECIFIC RESISTANCE AND CELL IMMUNITY IN KURCHAT BROILERS - Google Patents

Abstract

The method of correction of indicators of nonspecific resistance and cellular immunity in broiler chickens involves the use of a composition of biometals (Fe, Zn, Co, Cu, Mn). The specified complex of trace elements is fed by birds with water in the form of nanoacquitrate in the amount of: Mn (25 mg / l water), Zn (15 mg / l water), Fe (2.5 mg / l water), Cu (0.625 mg / l water) , Co (0.25 mg / l water).

Description

The useful model belongs to the field of veterinary medicine, in particular to the prevention and therapy of pathological conditions of farm animals and poultry, namely to methods of correcting indicators of non-specific resistance and cellular immunity in broiler chickens.

The claimed method can be used in farms with different forms of ownership that grow and keep poultry, to normalize metabolism with the aim of intensifying the industry.

There are known methods of increasing the protective systems of the body of farm poultry in various pathological conditions (Tarakanov, B. M. Mechanism of action of probiotics on the microflora of the digestive tract and animal organism / B. M. Tarakanov // Veterinaria. - 2000. - Mo 1. -

P. 47-54; Suray P. Feeding of highly productive crosses of meat and egg poultry: contemporary problems and solutions /P. Suray// "Actual problems of modern poultry farming". - Kharkiv, 2009. - P. 273-280; Recommendations for rationing the feeding of agricultural poultry / Bratishko N. I., Horobets A. I., Prytuleno 0. V. and others. - Birky, 2005. - 101 p.; Koltun E.M. Prevention and diagnosis of trace element diseases of zinc and iodine in broiler chickens / E.M. Koltun, Yu.M. Kachynsky // Nauk. release LNUVMBT named after S. 3. Hzytskyi. - 2011. - Vol. 13, Mo4 (50), part 2 - pp. 92-99), include the use of various medicinal products that contribute to the normalization of morphological indicators of blood, neutralize the products of disturbed metabolism and ensure the recovery of the bird.

The disadvantage of these methods is the low efficiency of normalization of non-specific and cellular links of the immune system of the bird's body.

The closest analog in essence to the claimed method is the chosen method of increasing the immune status of poultry (L.V. Shevchenko. Complex compounds of microelements - modern means of preventing poultry diseases / L.V. Shevchenko, V.M. Mikhalska, L.V. Malyuga Tsi etc.) // Bioresources and nature management. -2014. -T.6., Mo1-2. -WITH. 67-70).

The known method includes the use of micronutrients in the form of chloride and sulfuric acid salts (Be, Mp, Co, 2p, Si) as part of compound feed for feeding poultry in order to increase the productivity and quality of the obtained products.

The claimed method and the closest analogue have significant common features: both methods include the use of trace elements of the same composition, namely ferrum, manganese, zinc,

From copper and cobalt. The disadvantage of the known method is the insufficient correction of indicators of non-specific resistance and cellular immunity of the bird's body.

The method proposed by us eliminates the indicated shortcomings of the closest analogue and ensures high efficiency of treatment and preventive measures in poultry. The claimed method activates the cellular and non-specific links of the immune system of the bird's body. Thus, the proposed method contributes to the correction of indicators of non-specific resistance and cellular immunity in poultry, and this, in turn, accelerates the recovery of patients and requires lower economic costs for their treatment.

The basis of a useful model is the task of developing an effective method of correcting indicators of non-specific resistance and cellular immunity in poultry under conditions of trace element deficiency, convenient to use, economically beneficial for use in farms of various forms of ownership.

The task is solved by the fact that broiler chickens are given compositions of biometals (He, Mp, Co, 27p, Cy), according to a useful model, the declared complex of microelements is given to the birds with water in the form of nanoaquacitrate in the amount: Mp (25 mg/l of water), 2p (15 mg/l of water), Ge (2.5 mg/l of water), Si (0.625 mg/l of water), Co (0.25 mg/l of water).

Poultry breeding is one of the most intensive branches of agriculture, which has a number of problems associated with diseases of various etiologies.

Manganese is necessary for the formation of bones, preservation of the reproductive function of the body, metabolism of glucose and lipids. It is a part of enzyme systems that carry out oxidation-reduction reactions of intracellular metabolism. MP accelerates the formation of antibodies, enhances the synthesis of thyroid hormones, has a positive effect on the assimilation of iodine.

Zinc plays an essential role in transcription, in stabilizing the structures of ribosomes and biopolymers.

It is part of insulin, a hormone of the pancreas that regulates blood sugar.

The biological role of zinc is related to the activity of endocrine glands. As a component of some enzymes, 7p affects the processes of reproduction, fat and carbon metabolism. With a lack of zinc in the body, such serious diseases as cirrhosis of the liver, skin and eye damage occur.

Ferrum is a vital chemical element for all organisms. In cells, it is usually stored in the center of metal-proteins, since free ferrum binds nonspecifically to numerous chemical substances of the cell and can catalyze the formation of toxic free radicals. Lack of iron in the body can lead to anemia.

Copper is an important element for all plants, animals and birds. More than 50 proteins and enzymes are known in which cuprum is found. Basically, this biometal is found in the blood as part of plasma proteins called ceruloplasmins. Absorbed in the intestine, copper is transferred to the liver due to the connection with albumin. Promotes growth and development, participates in hematopoiesis, immune reactions. It is necessary for the formation of hemoglobin in the body. In the blood of most molluscs and arthropods, cuprum is used instead of ferrum to transport oxygen.

Cobalt takes an active part in the body's metabolic processes. With its help, thyroid hormones are produced. Contributes to the reduction of cholesterol in the blood. Prevents atherosclerosis. Participates in enzymatic processes, synthesis of RNA and DNA. Promotes the growth of bone tissue. Stimulates synthesis of hemoglobin and production of erythrocytes. Increases the activity of leukocytes. It has a beneficial effect on the immune system.

Nanoaquachelates of biogenic metals (Be, Mn, Co, 2p, Cy) show a stimulating effect more pronounced than their molecular classical forms. The high bioavailability of nanocopper, nanoferrum, nanocobalt, nanozinc and nanomanganese is caused by the presence of corpuscular, wave and quantum effects in nanoaquachelates, which significantly affects the body's resistance, and in much smaller quantities.

Thus, the provided information confirms the possibility of achieving a technical result when implementing the proposed method, confirming its effectiveness and objectivity.

When conducting a patent information search by the authors and the applicant, an analogue was found (Shevchenko L.V. Complex compounds of microelements - modern means of prevention of poultry diseases /

L.V. Shevchenko, V.M. Mikhalska, L.V. Malyuga Tsi et al.) // Bioresources and nature conservation. -2014. -

T.6., Mo1-2. - P. 67-70), containing the largest number of essential features common to the claimed method. The method includes the use of microelements in the form of chlorinated sulfuric acid salts (Re, Mp, Co, 2p, Si) in poultry with compound feed, namely: manganese (100 g per ton of compound feed), zinc (6b0 g per ton of compound feed), ferrum (10 g per ton of compound feed), copper (2.5 g per ton of compound feed) and cobalt (1.0 g per ton of compound feed).

But the presence of the specified features in common with the closest analog is not enough to obtain the technical result provided by the claimed method.

Analogues that would completely coincide with the declared ones by the totality of features have not been found.

No analogs were found in the patent and scientific and technical literature, which would describe information about the features that distinguish the claimed method from the closest analog and provide

C5 achieving the technical result by giving microelements to broiler chickens with water in the form of nanoaquacitrate in the amount: Mp (25 mg/l of water), 2p (15 mg/l of water), Ee (2.5 mg/l of water), Сy (0.625 mg/l of water), Co (0.25 mg/l of water).

The useful model belongs to the field of veterinary medicine, in particular to the prevention and therapy of pathological conditions of farm animals and poultry, namely to methods of correcting indicators of non-specific resistance and cellular immunity in broiler chickens.

The claimed method can be used in farms with different forms of ownership that grow and keep poultry, to normalize metabolism with the aim of intensifying the industry.

Procedure for implementing the method. Implementation of the claimed method is carried out in the following way.

Birds drink the composition of trace elements in the form of nanoaquacitrate in the amount: - Mp (25 mg/l of water), - 7p (15 mg/l of water), - Ee (2.5 mg/l of water), - Si (0.625 mg/l of water ), - So (0.25 mg/l of water),

The effectiveness of the claimed method and its advantages over the closest analogue are confirmed by an example of a specific implementation.

The experiment was conducted on two groups (15 heads each) of ROSS-308 cross broiler chickens, starting from 10 days of age. Poultry keeping and feeding met technological requirements.

Chickens of the control group were fed with compound feed MP (100 g per ton of compound feed), 2p (60 mg/kg compound feed), Re (10 mg/kg compound feed), Si (2.5 mg/kg compound feed), Co (1.0 mg /kg of compound feed).

The chickens of the experimental group were given nanoaquacitrate Mn (25 mg/l of water), 2p (15 mg/l of water), Re (2.5 mg/l of water), Si (0.625 mg/l of water), Co (0 .25 mg/l of water).

At the end of the experiment, which coincided with the end of poultry breeding, 60 broiler chickens were slaughtered and blood was taken for immunological studies.

In the blood of broiler chickens, the percentage of T- and B-lymphocytes and their individual populations was determined in the reaction of spontaneous rosette formation with ram erythrocytes according to the method described by Mityushnikov (1985). The principle of the method is based on a characteristic feature of T-lymphocytes, namely the presence on their surface of specific receptors for ram erythrocytes, which allows to carry out their differential diagnosis and calculate the relative number. The degree of activity of T cells is judged by the number of erythrocytes adsorbed by one erythrocyte.

With regard to the relative number of B-lymphocytes, their identification was carried out by the presence of membrane immunoglobulin receptors in them, which ensure the attachment of indicator cells that contain complement-antigen-complex (EAS-RUL) on their surface to B-lymphocytes. Ram erythrocytes sensitized with complement and antibodies were also used as indicator cells. Determination of the relative number of theophylline-resistant lymphocytes (T-helpers) is based on the fact that these cells carry receptors for immunoglobulins of class M on their surface, and T-suppressors - for immunoglobulins of class 5. Helper lymphocytes are able to form rosettes after their incubation with theophylline (theophylline-resistant cells). . The number of theophylline-sensitive lymphocytes (T-suppressors) is determined by the difference between the number of TE-RUL and

T-helpers.

In the blood serum of broiler chickens, serum bactericidal activity (BASC) was determined nephelometrically according to the method of Yu.M. Markov (1968). B. soybean culture was used as a test culture. Blood serum lysozyme activity (LASK) was also studied photonephelometrically using the microbial culture of Misgosossa5 Iisodesiisa5 (Dorofeichuk V.G., 1986). Phagocytic activity of pseudoeosinophils (FA) was determined according to the method of Gostev (1987). Eiarpiosossi5 atsygey5 was used as a test culture. The intensity of phagocytosis was determined by the phagocytic index (Fi) and the phagocytic number (FU). Circulating immune complexes were studied according to the method of E.F.

Chernushchenko (1981).

As a result of the conducted research, we established that giving broiler chickens nanocitrate of trace elements has a positive effect on the state of the humoral link of non-specific resistance in birds and is dose-dependent on the intake of trace elements into their body (Table 1).

Table 1

Effect of micronutrient citrate on indicators of non-specific resistance in broiler chickens, Mat, p-15 to | 52 and Zham16 | 2410x2.35 | 15.82х1.26 | 34.60:2.90 | 8.8020.44 | 2.2050.28

Coo)

Based on the evaluation of the blood serum of chickens of the control and experimental groups, it was found that BASK and LASK was the highest in broilers of the experimental group that received nanocitrate Mp (25 mg/l of water), nanocitrate 7p (15 mg/l of water), nanocitrate Re (2 .5 mg/l of water), C nanocitrate (0.625 mg/l of water), Co nanocitrate (0.25 mg/l of water). Compared with the indicators of broiler chickens of the control group, the studied values were 5.7 and 5.3 96 higher.

Circulating immune complexes (CIC), being an integral indicator of the humoral link of the immune response, implement physiological processes of homeostasis. When a complex of trace elements (Re, 2p, Co, Si, Mp) in the form of nanocitrates was introduced into the poultry rations, the content of CIC was the highest, compared to the control.

Also worthy of attention are scientific reports that the growth of humoral factors of non-specific resistance in poultry, against the background of the use of new forms of microelements, is the result of the body's response to the stimulation of the growth of intestinal microflora, which is accompanied by the stress of acute-phase proteins of bactericidal systems. At the same time, it is not excluded that the studied biometals contribute to the metabolic activity of gram-positive anaerobic intestinal microflora, stimulating its growth. Physiological transient bacteremia that occurs under such conditions causes an increase in the immunological tension of the bird's body.

Taking into account the high bioavailability and bad activity of the nanoform of the complex of biometals, we noted their positive influence on the formation of the cellular link of immunity in poultry (Table 2).

Table 2

The relative content of T- and B-lymphocytes in the blood of broiler chickens after receiving different amounts of trace elements citrate, Met, p-15

Group. and T-theophylline T-theophylline general | active E- | Coal, T-RUK, resistant, T-| EAS-RUK, 96

RUK, Fo RUK, Fo o RUK, Fo 72.0653.86 49.271.92 20.88-0.88 40.122.84 21.1631.16

Up to 0001 72.1652.00 49.58:-1.94 18.021.62 42.88:2.20 22.82x1.65

Microelements (Re, 2p, Co, Si, Mp) in nanocitrate form, due to better bioavailability, have a positive effect on the formation and development of factors of non-specific resistance and cellular immunity in broiler chickens.

Thus, the effectiveness of the claimed method and its advantages over the known method (the closest analogue) in correcting indicators of non-specific resistance and cellular immunity in broiler chickens is confirmed by the results of an example of a specific application of the method.

Claims (1)

- USEFUL MODEL FORMULA The method of correction of indicators of non-specific resistance and cellular immunity in chickens broilers, which includes the use of a composition of biometals (Be, 2p, Co, Si, Mp), which is distinguished by the fact that the indicated complex of microelements is given to the birds with water in the form of nanoaquacitrate in the amount: Mp (25 mg/l of water), 2p (15 mg /l of water), Re (2.5 mg/l of water), Si (0.625 mg/l of water), Co (0.25 mg/l of water).