RU2706563C1 - Method for optimizing homeostasis in chick embryos and young growths - Google Patents

Abstract

FIELD: biotechnology.

SUBSTANCE: invention represents a method for optimizing homeostasis in embryos and young chickens by reducing intensification of lipoperoxidation, stimulating metabolic processes, hematopoiesis, improving quality and viability of chicken. It is based on the fact that aerosol treatment is performed once for 1–2 hours before incubation with 0.05 % cobalt glycinate solution.

EFFECT: invention allows to increase biological full value of youngsters for a long period of postembryonal development.

1 cl, 6 tbl, 6 ex

Description

The invention relates to agriculture and, in particular, to poultry farming (aerosol treatment of eggs with a solution of cobalt glycinate before incubation).

In the process of artificial incubation, embryos are exposed to a number of medium and strong stressors, which, in turn, is a factor in the intensification of oxidative stress reactions. As a result of this, depletion of the antioxidant system of the body and excessive formation of free radicals are often recorded [1, 9].

It is known that free radical pathologies inevitably cause destructive phenomena at the level of cell membranes, which determines a violation of the quality of formation and functionality of organ tissues, and as a result of the whole organism [1].

It has been proven that the use of substances with antioxidant properties can prevent the above phenomena [2, 3]. One of the effective methods is transovarial treatment before incubation [7].

From available sources it is known about the successful use of glycine compounds for the treatment of hatching eggs in order to stimulate the development of bird embryos. It has been proved that glycine has antioxidant, metabolic-stimulating and immunomodulating effects, and also participates in the biosynthesis of heme, collagen and a number of other substances vital for the body [6, 10].

In turn, cobalt is necessary for the body to stimulate adaptive mechanisms. Along with this, it is known about its stimulating effect on the hematopoiesis process through the synthesis of hemoglobin. Also in the literature there are data on the immunostimulating effect of an element due to activation of phagocytic activity [4].

The above determines the appearance of scientific interest in the study and practical use of the combined use of the claimed substances. It should be noted that their combined use is not registered either in medicine or in veterinary medicine.

The closest analogue of the claimed invention is patent No. 2490882, priority of 12/20/2011 "Method for the correction of embryonic and postembryonic development of birds." Authors: Lukicheva V.A., Kochish I.I., Penshina E.Yu., Ershov P.A., Chekmaryov A.D., Shebanov A.A., Timonin A.N.

This method, taken as a prototype, consisted in the fact that a 0.1% aqueous solution of zinc glycinate was used for aerosol treatment of hatching eggs twice - before laying in an incubation cabinet and when transferring the eggs to the conclusion. The hatching of eggs and hatchability of eggs during its use increased by 0.94% and 2.68%, respectively, however, the results were lower than when using cobalt glycinate preparation. Transovarial aerosol treatment of hatching eggs with a cobalt glycinate solution was carried out 1-2 hours before incubation. The hatching of chickens in the experimental group was higher by 9.33% (p <0.01), and the hatchability of eggs by 7.52% (p <0.01) compared to the control group.

Prevention of oxidative stress can be carried out by a single treatment of hatching eggs with a solution of cobalt glycinate.

The purpose of the invention: to study the possibility of optimizing homeostasis in embryos and young chickens using the cobalt glycinate synthesized by us.

Technical result: increased hatchability of eggs and hatching of chickens amounted to 95.34% and 88.67%, respectively, which is significantly higher than in the control group by 7.52% and 9.33%, respectively.

The claimed method provides stimulation of metabolic processes, hematopoiesis, improving the quality and vitality of chickens, which consists in additional transovarial nutrition of embryos.

The method is as follows: on the surface of the disinfected shell of the hatching eggs, 1-2 hours before incubation, an aerosol aqueous solution of cobalt glycinate preparation is applied at a concentration of 0.05%. The substance is previously dissolved in distilled

Example 1

The experiment was carried out on six experimental groups of eggs, one of which was a control, and the remaining formed groups were treated with a solution of cobalt glycinate preparation in a concentration range of 0.01% -1%. Shaver Brown cross-hens eggs were obtained from one parent herd, 300 pieces were sorted into each batch according to the principle of analogues, taking into account the time of laying, the shelf life and the mass of eggs. A solution of the preparation was applied to the shell surface by irrigation according to the above scheme. The data obtained are presented in table 1. The studied drug had a positive effect on the viability of the embryos of egg chickens at all stages of embryogenesis. During the experiment, it was found that the maximum effect on the incubation biocontrol parameters was exerted by a 0.05% solution of the drug (4 experimental batch). In this batch, the maximum decrease in such incubation waste was observed as blood rings (1%), frozen (2%), suffocates (1%) and weak (0.33%) chickens. As a result, the hatchability of eggs and the hatching of chickens in this group were maximum and amounted to 95.34% and 88.67%, respectively, which was significantly higher than in the control by 7.52% and 9.33%, respectively. In the remaining experimental groups, hatchability and hatching were also higher than in the control.

Note: significantly compared with control at * - p <0.05; ** - p <0.01; *** - p <0.001, hereinafter

Example 2

During incubation on the 11th day, the categories of eggs were determined by the degree of allantois closure (Table 2). In the experimental group of eggs of the first category was 5% more than in the control. This helps to optimize gas exchange, determining the prevention of hypoxic phenomena.

The average category of eggs for the experimental groups was in the range from 1.98 to 2.10, while in the control it was 2.37. According to Otryganyev G.K. this indicates a more intensive and high-quality development of embryos [8].

Example 3

Timely closure of allantois determined a higher intensity of growth and development of embryos.

Based on table 3, it was found that in the best experimental group, on the 12th and 16th day, embryos with greater reliability exceeded the control in length by 3.56% and 6.06%, respectively. Also, a significant superiority in weight on the 8th day by 4.34% was recorded. Throughout the entire incubation period, growth and development indicators in the experimental group were higher than in the control group.

Example 4

The growth and development of the embryo is determined by the realization of antioxidant properties. The level of intensity of peroxidation in the experimental group is significantly lower than in the control. So, the content of the secondary product of lipid peroxidation in the form of malondialdehyde (MDA) decreased by 8.23%, and the final product - Schiff base by 16.6%. All biochemical parameters were within the reference values.

From table 4 it is seen that the processes of lipid peroxidation under the influence of the substance cobalt glycinate synthesized by us decreased, which is evidently due to the prevention of free radical reactions. AOA level increased by 14.4%. It is worth noting the fact that with a decrease in lipid peroxidation processes, SOD increased by 27.7%.

Example 5

A biochemical study of the blood serum of day old chickens, bred from experimental groups treated with cobalt glycinate, revealed a reliable: increase in the activity of α-amylase by 16.84%, glucose content by 7.8%. Given the fact that the PVC is increased by 40% with a slight change in LDH, we can conclude that this is due to the activation of aerobic glycolysis. An increase in alkaline phosphatase of 1.45% probably indicates the activation of calcium-phosphorus metabolism, which is reflected in the tendency of an increase in serum calcium and phosphorus. This trend, obviously, indicates the best use of these elements from the shell [2]. Optimization of metabolic processes determined the stimulation of hematopoiesis and the hemoglobinization process.

Example 6

According to Lugovskaya S.A. prevention of free radical processes and lipid peroxidation determines the preservation of the integrity of the membranes, especially red blood cells [5]. So in the experimental group, the number of red blood cells significantly increased by 14%, compared with the control. In turn, the optimization of metabolic processes due to the use of cobalt glycinate affected the synthesis of hemoglobin, as indicated by its significant increase of 11.32% in the experimental group.

Output:

Thus, in order to optimize the incubation conditions of eggs from chicken crosses, a pre-incubation treatment with a 0.05% solution of cobalt glycinate synthesized by us is required.

List of references:

1. Azarnova, T.O. Iodized transovarial nutrition of chicken embryos as a way to stimulate embryogenesis and synchronize the mass withdrawal of chickens / T.O. Azarnova, E.N. Indyuhova, I.S. Yartseva et al. // Veterinary medicine. - 2014. - No. 3. - S. 49-52.

2. Ermolova, Yu.S. Processing eggs of hens with biologically active drugs to stimulate resistance of chickens at various stages of ontogenesis: abstract of thesis. Cand. biol. Sciences. / Ermolova Yu.S. // M. - 2010 .-- S. 23

3. Kochish I.I. Organic acids in the protection system of chicken embryos against oxidative stress / Kochish I.I., Maksimov V.I., Azarnova T.O., Agureeva O.V. // Physiology. - 2018. - No. 2 (1). - S. 104-105.

4. Kurkhalyuk N., Tkachenko A. Modulators of K-ATP channels in preventing oxidative stress and improving antioxidant ability in the heart of a rat with different resistance to hypoxia when treated with cobalt // Journal of Veterinary Research. - 2016. - T. 60. - No. 2. - S. 195-206.

5. Lugovskaya S.A. Laboratory hematology. / Lugovskaya S.A., Morozova V.T., Postman M.E. // M. - Triad - 2006 .-- S. 148

6. Lukicheva, V.A. The effect of complex treatment of hatching eggs with natural metabolites (succinate and glycine) on indicators of hatchability and resistance of young birds / V.A. Lukicheva, M.S. Naydensky, N.Yu. Lazarev // Materials of the XI Moscow Int. vet. confess. - M., 2003. - P.237

7. Naidensky MS, Karmoliev R.Kh., Lukicheva V.A., Lazareva N.Yu., Storcheva V.F., Snytko T.V. The method of rehabilitation and stimulation of embryonic and postembryonic development of birds. Patent No. 2178641, priority of January 27, 2002.

8. Otryganyev GK Incubation technology. / Otryganyev G.K., Otryganyeva A.F. // M. - ROSSAGROPROMIZDAT - 1989. -C. 190

9. Fisinin, V.I. Modern methods of dealing with stress in poultry farming / V.I. Fisinin, T.T. Papazyan, P.F. Suray // Livestock today - No. 3. - 2009. - S. 62-67.

10. R. Selvaraju, K. Subbashinidevi. Impactof Glycineon Antioxidant Defense Systemin Ratswith Alcohol Induced Liver Injury // Int. J. Res. Pharm. Biomed. Sci. 2011. V. 2. No. 3. P. 1314-1320.

Claims (1)

A method for optimizing homeostasis in embryos and young chickens by reducing the intensification of lipid peroxidation, stimulating metabolic processes, hematopoiesis, improving the quality and viability of chickens, which consists in additional transvarial nutrition of the embryos by aerosol treatment of the hatching eggs, characterized in that on the surface of the disinfected shell of the hatching eggs for 1 2 hours before incubation, an aqueous solution of cobalt glycinate is applied at a concentration of 0.05%, while previously dissolving the substance ute in distilled water at a temperature of 18-22 ° C.