RU2765840C1 - Method for increasing colostral immunity and nonspecific resistance in calves - Google Patents

Abstract

FIELD: veterinary medicine.

SUBSTANCE: invention relates to the field of veterinary medicine, namely immunology, and is intended to increase colostral immunity and nonspecific resistance in newborn calves. To increase colostral immunity and nonspecific resistance in calves, an aqueous solution of the drug “Sodium nucleinate 0.2%” is injected into pregnant cows 3-9 days before calving at a dose of 5 ml per animal intramuscularly and once.

EFFECT: use of the invention makes it possible to increase immunoreactivity in pregnant cows during the period as close as possible to delivery, to form a more intense colostral immunity, to increase the safety of newborn calves and reduce their morbidity.

1 cl, 19 tbl

Description

The invention relates to the field of veterinary medicine, in particular to means of increasing colostral immunity and nonspecific resistance in newborn calves.

At present, the problem of growing healthy young animals of farm animals is very relevant. Before birth, the fetus is in a sterile environment (uterus) that is well protected from most sources of infection, but after birth, the calf's body is colonized by many of the bacteria present in the environment. The presence of antibodies in the blood of a newborn calf is vital for its protection against many infections (primarily causing diarrhea) [1].

In newborns in the first days of life, cellular resistance factors predominate. Humoral factors are completely dependent on the intake of immunoglobulins from the mother's colostrum. The skin and mucous membranes of newborns are relatively easily exposed to environmental factors. A protective inflammatory reaction under the action of pathogenic agents (chemical, physical and biological) does not develop in the first days. At this age, the innervation mechanisms that carry out protective inflammatory reactions do not function, there are no vascular reactions, and the phagocytic and enzymatic activity of mesenchymal cells and leukocytes is insufficient [2].

It has been established that newborns do not have antibodies, and they do not have innate immunity. To protect the young organism during the maturation of the immune system, maternal antibodies are transferred to it, creating colostral (passive) immunity. Newborns receive the main part of the protective bodies with the mother's colostrum. At the same time, the level of immunoglobulins in colostrum on the first day after birth is several times higher than in the mother's blood. The first 24-36 hours in newborns, the absorption of immunoglobulins is associated with a high permeability of the intestinal mucosa. The high content of immunoglobulins in colostrum does not last long. Within a day, their number decreases by more than 2 times, and after 2 days by 4 times [2, 3].

Immunoglobulins that have entered through the intestinal mucosa enter the lymphatic tract, and from there into the bloodstream. Here they serve to protect the body from infection in the form of humoral antibodies. Since these antibodies were formed as a result of the mother's immune response, they are primarily directed against those microbes with which the mother's body came into contact. As long as the young are kept in the same environment as the mother, they, along with colostrum, receive important protection against the microbes of this environment.

Part of the immunoglobulins remains in the digestive tract, providing an additional (local) effect - protecting the tonsils and epithelium of the gastrointestinal tract from infections and toxins.

Antibodies also have a certain opsonizing activity against other pathogens with a similar antigenic structure. Therefore, colostrum immunoglobulins can perform a recognition function, including phagocytic protection against pathogens with which the mother has not even been in contact (Steinbach, 1968).

In most herds with low concentrations of immunoglobulins in the serum of calves, serious disease outbreaks are observed [1].

There are many ways to increase the amount of immunoglobulins in colostrum, including by influencing the body of mother cows in the last days before calving.

It is known that immunoglobulins in cows accumulate in colostrum 3–9 days before calving [4]. The body of calves needs at this time to stimulate the immune system and nonspecific resistance, and the effect of immunomodulatory drugs is more pronounced [5].

It is assumed that a number of substances can contribute to this accumulation and thus provide the newborn calf with immunoglobulins. This does not exclude the entry through the placenta of a number of substances regulating the protective factors of the fetus, as well as the entry of these regulators with colostrum.

A known method of increasing immunity in newborn calves, which consists in vaccinating pregnant cows with a vaccine against parainfluenza-3 and infectious bovine rhinotracheitis, dry cultural associated, live, which is administered subcutaneously at a dose of 2 ml [6]. Vaccination of pregnant cows leads to the formation of colostral immunity [7].

The disadvantage of this method is that the use of one vaccine does not allow to achieve a high level of immunity in cows, and as a result, high colostral (colostrum) immunity, which can provide reliable protection of calves from respiratory diseases.

Known use of the drug "Sinestrol 2%" to increase colostral immunity and nonspecific resistance in calves.

Indeed, "Sinestrol 2%" affects the formation of immunoglobulins in the body of pregnant cows and their excretion in the composition of colostrum, but the manifestation of the amount of blood immunoglobulins and the level of bactericidal and lysozyme activity of blood serum in the resulting newborn calves is not high enough.

The objective of the invention is to reduce the incidence and increase the safety of newborn calves in the conditions of trouble farms.

The technical result of the invention is the expansion of the arsenal of agents for increasing colostral immunity and nonspecific resistance in calves, by increasing immunoreactivity in pregnant cows during the period as close as possible to childbirth.

The specified technical result is achieved by the fact that in a method for increasing colostral immunity and nonspecific resistance in calves, an aqueous solution of the drug "Sodium nucleinate 0.2%" is used by injecting pregnant cows 3-9 days before calving at a dose of 5 ml per animal, intramuscularly and once .

Known immunomodulatory agent sodium nucleinate, which is the sodium salt of the nucleic acid obtained by hydrolysis of yeast with further purification (patent RU No. 2244008, pub. 10.01.2005). The drug is available in the form of a powder for oral administration in vials of 0.5 g and coated tablets, 250 mg, as well as in the form of a 0.2% aqueous solution, packaged in vials of different capacities [8].

Sodium nucleinate has a wide range of biological activity, accelerates regeneration processes, stimulates natural resistance factors, leukopoiesis, migration and cooperation of T- and B-lymphocytes, phagocytic activity of macrophages and neutrophils.

The drug increases the anti-infective resistance of the body, both for prophylactic and therapeutic use, has an antitoxic effect. Accelerates the formation of post-vaccination immunity, increasing its intensity and duration. It increases the immunological effectiveness of vaccine preparations, increases the protective properties of blood serum and the resistance of immunized animals to infection with pathogenic microorganisms. Sodium nucleinate increases the content of lysozyme, properdin, B-lysine, the level of normal antibodies, induces the synthesis of interferon.

Sodium nucleinate is used in the complex therapy of small domestic and agricultural animals, as well as poultry as an immunostimulating agent for diseases accompanied by the development of immunodeficiency, contributing to the prevention and treatment of viral, bacterial, fungal and parasitic diseases, as well as to enhance the effect of vaccination with preliminary or simultaneous use with the vaccine. It is effective for preventing and relieving the consequences of stress conditions in animals during transportation, in the preoperative and postoperative periods, as well as in the treatment of various non-communicable diseases in combination with other drugs [8].

The effect of an aqueous solution of sodium nucleinate 0.2% on the accumulation of immunoglobulins and other immunogenic factors in the mammary gland of cows before calving, their release in the composition of colostrum, as well as the effect of these factors on the state of colostral immunity and the formation of nonspecific resistance in newborn calves when injected with calves was established. cows in the period as close as possible to childbirth.

The objects of the study were 10 deep-calving black-motley cows aged 3-4 years and newborn calves obtained from them, which were divided into 2 groups according to the principle of paired analogues.

Group I - control, deep-calving cows (No. 1547, 2127, 2228, 2057, 1987) and newborn calves received from them. Deep-boned cows of group I were injected intramuscularly with physiological sodium chloride solution - 0.9% at a dose of 5 ml 3-9 days before calving, once.

Group II - experimental, deep-calf cows (No. 1482, 1713, 1955, 2214, 2215) and newborn calves received from them. Deep-boned cows of group II were intramuscularly injected with an aqueous solution of sodium nucleinate 0.2% at a dose of 5 ml per animal 3-9 days before calving, once.

A calf born from a cow in the control group became a control calf, and a calf born from an experienced cow, respectively, became an experimental one. As a result, a number of newborn calves, multiple of mother cows, was born, i.e. in each group of 5 calves, the numbers of mother cows and calves received from them were the same. The formation of groups was carried out by the method of paired analogues. A newborn calf, immediately after the appearance of a sucking reflex, was fed colostrum collected from his mother cow.

Calves from 2 days of age were kept outdoors in boxes-houses (the so-called "cold rearing method"). Conducted clinical observation of experimental animals. Calves were weighed on the day of birth of the calves, at the end of the first, second, third and fourth months of life. The calves had free access to hay and water.

Blood samples from the jugular vein of calves were taken on days 2 and 10 of life. The calves underwent a general examination, examined the temperature, pulse rate, recorded the time of appearance of the sucking reflex and confident standing posture.

During the experiment, the level of total immunoglobulins, titratable acidity of colostrum of cows of the control and experimental groups were studied. Colostrum samples were taken from the 1st, 2nd, 3rd, 4th, 5th milkings. An average sample of 100 ml was taken.

Blood and colostrum studies were performed using the following methods:

- counting the number of erythrocytes, leukocytes, platelets; hematocrit, hemoglobin on a hematological blood analyzer HTI Micro-CC-20 Plus, USA;

- derivation of the leukocyte formula by counting different types of leukocytes in blood smears, stained according to Romanovsky-Giemsa;

- study of the content of total protein on the analyzer AU480 Olympus, Japan;

- study of protein fractions of blood (albumins, alpha-, beta-, gamma-globulins) on the analyzer Minicap, Sebia;

- determination of the bactericidal activity of blood serum - by the photonephelometric method in the modification of O.V. Smirnova and T.A. Kuzmina (1966) using a test culture of Escherichia coli (strain O111) (V.Ya. Sarukhanov, N.N. Isambo, V.N. Kudryavtsev, 2006; Malev A.A., Gilmutdinov R.Ya., 2009) ; lysozyme activity of blood serum - photoelectrocolorimetric method in the modification of the department of zoohygiene UNIIEV using the test culture of Micrococcus lysodeikticus; phagocytic activity of neutrophils using the test culture Staph, albus;

- the content of T-lymphocytes by the method of spontaneous rosette formation with sheep erythrocytes (E-ROK) and B-lymphocytes - by the method of rosette formation with bovine erythrocytes in the EAS-ROK system (Skopichev V.G., Maksimyuk N.N., 2009) [3];

- the content of immune globulins (Ig) in colostrum (milk) with sodium sulfite; determination of the titratable acidity of colostrum according to Turner (Kondrakhin I.P. et al., 1985) [9];

- activity of γ-glutamyltransferase (γ-GT) and glucose on the biochemical analyzer "Hitachi-902";

- antibody titer to E. coli antigens, PG-3 and IRT viruses;

- content of lactic and pyruvic acids [9];

- malondialdehyde (MDA), activity of superoxide dismutase (SOD), glutathione peroxidase (GPO) and catalase [9];

- the obtained experimental material was processed by the method of variation statistics according to Stanton Glantz (1999) [10], using service programs and statistical functions of the Microsoft Excel program of the Windows 7 operating system. Student's t-test was used to identify statistically significant differences. The results were considered significant starting from the P value ≤ 0.05.

The analyzes were performed at the Department of Anatomy, Surgery and Internal Non-Contagious Diseases and at the interdepartmental laboratory of the Nizhny Novgorod State Agricultural Academy, the Gemohelp laboratory in Nizhny Novgorod.

The level of total immunoglobulins and titratable acidity of colostrum of cows of experimental groups from the 1st to the 5th milk yield inclusive were studied (Table 1-2).

During the experiment, colostrum of good quality was obtained from clinically healthy cows of the experimental groups: homogeneous consistency, yellow-cream color. The titratable acidity was quite high. The colostrum of the 1st milking of the cows of the experimental group was distinguished by a thicker consistency and rich color. The titratable acidity was higher by 12% compared to the control, which may be due to the acidic nature of casein, which, apparently, was more in the colostrum of the cows of the experimental group.

The level of immunoglobulins was maximum in the colostrum of the first milking and gradually decreased with each milking and approached the level of normal milk. The content of immunoglobulins in colostrum of the 1st milking cows of the experimental group was significantly higher by 19%, which indicates an increase in the formation of these proteins in the body due to increased immunoreactivity of cows under the influence of sodium nucleinate.

Blood leukocytes in the body perform mainly a protective function, phagocytosis of bacteria and foreign bodies. Tables 3-5 show that the level of blood leukocytes in the calves of the experimental groups slightly increased with age, while their number was higher in the calves of the experimental group, both on the 2nd and 10th days of life, respectively, by 25.3 and 19 .5% compared to control, due to a higher level of lymphocytes. The revealed changes in the leukocyte formula testify to the stimulation of the immune system of the body of newborn calves after the application of sodium nucleinate to pregnant cows 3-9 days before calving.

The index of lymphocytes/segmented neutrophils was higher in the calves of the experimental group on the 2nd and 10th days of life, which indicates a faster rate of adaptation to environmental conditions.

The absolute and relative number of T-lymphocytes on the 2nd day of life in the calves of the experimental group was higher by 59 and 10.5%, respectively. Thus, the use of an aqueous solution of the preparation "Sodium nucleinate 0.2%)" to deep-calving cows 3-9 days before calving affects cellular immunity and accelerates the proliferation of T-lymphocytes in newborn calves. The relative number of B-lymphocytes in the blood of the experimental calves was lower than that of the control calves by 10.7% one day after birth, and the absolute number was increased.

Calves were weighed starting at birth and at the end of each month for 4 consecutive months.

Thus, during the period of experience that lasted 4 months, the calves of group II had a higher average daily weight gain, especially in the first 3 months of life. One month after birth, the growth of calves of group II was 16.6% higher than the control. At the end of the second month of life, the growth of calves of group II was higher than the growth of control animals by. 23%. At the end of the third month of life, the growth of calves of group II was higher than the growth of control animals by 11.6%, respectively. At the end of the 4th month of life, there were no significant changes in the average daily weight gain of the calves of the experimental group compared to the control group. Stimulation of colostral immunity and the formation of general resistance of calves by intramuscular administration to their mother cows 3-9 days before calving of an aqueous solution of the preparation "Sodium nucleinate 0.2%" contributes to an increase in body weight gain of calves by 13.3% compared to the control group for 4 months of cultivation, starting from birth (517.5 g/day; 586 g/day, respectively, in the control and experimental groups).

A general clinical examination was carried out, temperature and pulse rate were measured in the experimental calves on the 2nd and 3rd days after birth, the time for the appearance of a confident standing posture and the appearance of a sucking reflex in minutes was measured (Table 8; Table 9).

The calves of the experimental groups had an average build. The hairline of the animals of the experimental group is thicker, shiny, different from the control animals.

From tables 8 and 9 it can be seen that the aqueous solution of the preparation "Sodium nucleinate 0.2%" injected into pregnant cows 3-9 days before calving has a beneficial effect on the physiological status of newborn calves. The body temperature of group II calves on the 2nd day of life was higher than the body temperature of control animals by 0.8°C, and the pulse rate was lower by 10.8 bpm. On the 3rd day of life, the body temperature of the calves of the II group was higher by 0.3°C compared to the control. The pulse rate was less by 8.8 bpm. compared with the control group. The appearance of a confident standing posture and a sucking reflex in animals of group II was realized 9.8 and 11.2 minutes earlier. During the experiment, such animals were more active and mobile.

The level of colostral immunity and such indicators as the antibody titer to Escherichiosis antigen, antigens of the parainfluenza-3 virus (PG-3) and infectious bovine rhinotracheitis (IRT) were studied (Table 10; Table 11).

From tables 10 and 11 it can be seen that the aqueous solution of the preparation "Sodium nucleinate 0.2%" injected into pregnant cows 3-9 days before calving contributes to an increase in the level of colostral immunity of calves of the experimental group. The content of total immunoglobulins on the 2nd day of life was higher by 8.71 g/l in calves of group II, it is also possible to note an increase in the titer of antibodies to the antigen of the PG-3 virus in group II - 2.1 times and infectious rhinotracheitis, respectively, 2 3 times compared with group I animals. On the 10th day of life, the content of total immunoglobulins in group II exceeded the control by 5.98 g/l. The titer of antibodies to antigens of the PG-3 virus in group II was 1.8 times higher, the titer of antibodies to the IRT virus was 1.81 times higher than that of the control group of calves, respectively.

Biochemical and immunological studies of the blood of newborn calves were carried out.

On the 2nd day of life, the calves of the experimental group showed an increase in the level of total blood protein by 18%, mainly due to gamma globulins and albumin, their level was higher by 53.5 and 16.5%, respectively.

An increase in the amount of gamma globulins in the blood serum of calves of the experimental group is associated with their large intake with colostrum. Therefore, the use of an aqueous solution of the preparation "Sodium nucleinate 0.2%" to pregnant cows contributed to an increase in the level of colostral immunity in calves received from them.

On the 10th day of life, the level of total protein in the calves of the experimental groups decreased due to the fractions of alpha and gamma globulins. At the same time, the level of total protein was higher in the calves of the experimental group by 11.1% due to gamma globulins, the amount of which was higher by 44.7%.

The bactericidal activity of blood serum, reflecting the total effect of cellular and humoral protection factors, was higher in calves of the experimental group on the 2nd and 10th days of life, respectively, by 16.4 and 15.2% compared to the control group.

An important indicator of nonspecific resistance is the activity of lysozyme, an enzyme capable of lysing living and dead cells. A pronounced increase in the lysozyme activity of blood serum in calves of the experimental group on the 2nd and 10th days of life by 19.8 and 17.4% compared with the control is associated with the activation of macrophages, since lysozyme is secreted by these cells, and is also released during degranulation polymorphonuclear neutrophils. Lysozyme enhances the bactericidal activity of secretory immunoglobulins.

The phagocytic activity of neutrophils was higher in the calves of the experimental group on the 2nd and 10th days of life, respectively, by 15.7 and 13.4% compared to the control group. An increase in this indicator in calves of the experimental group is associated with the activation of intracellular systems of phagocytes, an increase in the opsonic abilities of immunoglobulins.

The phagocytic index was also higher in the calves of the experimental group on the 2nd and 10th days of life by 36 and 17.2%, respectively.

Indicators of bactericidal, lysozyme activity of blood serum, phagocytic activity of neutrophils were higher in calves of the experimental group compared to the control. Thus, an aqueous solution of the drug "Sodium nucleinate 0.2%" injected into pregnant cows 3-9 days before calving has a beneficial effect on the development of nonspecific resistance in calves derived from them.

The incidence of diseases of the gastrointestinal tract and omphalitis in calves was recorded.

Table 15 shows that an aqueous solution of the preparation "Sodium nucleinate 0.2%" injected into pregnant cows 3-9 days before calving can reduce the incidence of enteritis form of escherichiosis in newborn calves by 1.5 times in group II, respectively. The calves of the experimental group fell ill 2 days later and fell ill 2.3 days less compared to the control group.

Table 16 shows that an aqueous solution of the drug "Sodium nucleinate 0.2%" injected into pregnant cows 3-9 days before calving contributes to the formation of more pronounced colostral immunity in newborn calves obtained from these cows, which ensured a 2-fold decrease in the incidence of omphalitis in calves in the experimental group compared to the control.

In experimental newborn calves, the level of metabolic status was studied.

From tables 17, 18 and 19 it can be seen that the use of an aqueous solution of the preparation "Sodium nucleinate 0.2%" injected to pregnant cows-mothers during the period as close as possible to childbirth helps to reduce such a process as acidosis. This can be explained by a decrease in lactate / pyruvate on the second day of life in group II calves, by 14.4% compared to group I calves, with a decrease in the level of lactic acid by 41% in group II compared with the control. It should also be noted that the calves of group II had a lower level of MDA on the 2nd and 10th days of life, respectively, by 21.4 and 16.1% compared to animals of group I, which characterizes the slowing down of the process of lipid peroxidation and the preservation of the functional activity of antioxidant protection ( AOZ). In calves of the experimental group, the phenomenon of endogenous intoxication (EI) was lower both on the 2nd and 10th day of life compared to the control.

The studies were carried out in the autumn of 2020 on a dairy farm of the agricultural production cooperative "Nizhegorodets" in the Nizhny Novgorod region. 50 deep-calving cows (n=50) of black-and-white breed were involved in the experiment, the studied indicators of which completely coincide with the data presented in the tables.

Thus, the use of an aqueous solution of the drug "Sodium nucleinate 0.2%", injected into pregnant cows 3-9 days before calving, contributes not only to the normalization of the metabolic status and acid-base state of mother cows, which determines the CBS of newborn calves, but also contributes to the accumulation of immunoglobulins and other immunogenic factors in the mammary gland of cows before calving, their release in the composition of colostrum, leading to an increase in ethological and physiological parameters in newborn calves and the creation of a high level of colostral immunity and nonspecific resistance in them, as well as to an increase in the live weight of calves and reduction in morbidity.

Sources of information

1. Plyashchenko S.I. Natural resistance of the animal organism / S.I. Plyashchenko, V.T. Sidorov - L.: Kolos, 1979. - 184 p.

2. Petryankin, F.P. Immunostimulants in the practice of veterinary medicine / F.P. Petryankin, V.G. Semenov, N.G. Ivanov // Cheboksary, 2015. - 272 p.

3. Skopichev V.G. Physiological and biochemical bases of animal resistance. - St. Petersburg: Publishing house "Lan", 2009. - 352 p.

4. Karput I.M. Immunology and immunopathology of diseases of young animals / I.M. Karput. - Minsk: Urajay, 1993. - 288 p.

5. Kovalenko Ya.R. Formation of immunobiological status in young farm animals / Ya.R. Kovalenko // Bulletin of agricultural science. - 1979. - No. 2. - S. 50-58.

6. Manual on the use of the vaccine against parainfluenza-3 and infectious bovine rhinotracheitis dry culture associated (VIEV), live. // Approved by the Veterinary Department of the Ministry of Agriculture of Russia on 10.06.1996

7. Khitrova A.E. New drugs for specific prevention of mixed infectious diseases in calves / A.E. Khitrova, G.L. Soboleva, T.I. Aliper // Veterinary life. - No. 1-2, 2005. - S. 12

8. Instructions for the use of the immunomodulator Sodium nucleinate for the correction of immunity in animals and birds. Organization-manufacturer - CJSC "Bioamid", Saratov, 2006

9. Kondrakhin I.P. Methods of veterinary clinical laboratory diagnostics: a Handbook / I.P. Kondrakhin. - M.: KolosS, 2004. - 520 p.

10. Glantz S. Medico-biological statistics Per. from English. - M., Practice, 1998. - 459 p.

Claims (1)

A method for increasing colostral immunity and nonspecific resistance in calves by injecting an aqueous solution of the drug "Sodium nucleinate 0.2%" to pregnant cows 3-9 days before calving at a dose of 5 ml per animal intramuscularly and once.