RU2252767C1 - Method for normalizing immunobiochemical homeostasis in cows both at prenatal and parturient periods - Google Patents

Abstract

FIELD: veterinary science.

SUBSTANCE: about 20-25 d before calving one should introduce intramuscularly 0.5%-sodium selenite solution for cows at the dosage of 10 ml. Twice before and twice after calving at 10-d-long interval - tetravit at the dosage of 10 ml at the content of 50000 IU vitamin A, 25000 IU vitamin D, 20 mg vitamin E and 5 mg vitamin F per 1 ml. Succinic acid should be introduced 20-25 d both before and after calving at the dosage of 1.0 g. The method provides efficient correction of the main values of homeostasis in cows after calving.

EFFECT: higher efficiency of normalization.

2 ex, 4 tbl

Description

The invention relates to veterinary medicine, relates to a method for normalizing immunobiochemical homeostasis in cows during pregnancy and the postpartum period and can be used for therapeutic and prophylactic protection of cows from mass diseases of the reproductive organs and obtaining a highly resistant offspring.

Studies show that numerous stresses and intensive exploitation of highly productive cows are usually accompanied by functional disorders of the reproductive system and their high incidence during pregnancy, childbirth and the postpartum period. According to several authors, obstetric pathology in these physiological periods of reproduction can take on a massive scale and is accompanied by a decrease in reproductive function. Thus, birth and postpartum complications in cows reduce their fertility by 17.7-26.0%, increase the duration of infertility by 42 days, and reduce the yield of offspring by 12-18% (1).

An important role in the development of obstetric pathology is played by the state of immunobiochemical homeostasis, in particular, cellular and humoral immunity and natural resistance. Thus, it was noted that on the eve and on the day of calving, the number of T and B lymphocytes decreases in cows, which is especially noticeable in a pathological hotel, after which their level is restored slowly in the postpartum period (2).

It has been established that the etiopathogenesis of mass obstetric pathology in cows is based on a state of stress maladaptation, accompanied by hyperactivity of lipid peroxidation (LPO), a decrease in the activity of the antioxidant defense system (AOD) and immunological resistance associated with the immunosuppressive effect of LPO products. The start-up period and calving, being powerful stress factors for the body of pregnant cows, are accompanied by activation of LPO processes and a decrease in the activity of the AOZ system. The level of toxic lipid peroxidation products (diene conjugates, ketodienes, malonic aldehyde) in the prenatal period is characterized by high indices, and the activity of the AOD system, both in the enzymatic (catalase, glutathione peroxidase) and nonenzymatic (vitamins A, E, C) unit - low. After calving, the performance of LPO products increases even more sharply, while the performance of the AOZ system decreases.

Currently, excessive accumulation in the body of lipid peroxidation products is considered as one of the leading universal mechanisms of cell damage due to the violation of the structural and functional organization of biomembranes.

Therefore, the excessive accumulation of toxic lipid peroxidation products in the body in the prenatal and early postpartum periods is the basis for the development of a chain of structural and metabolic changes that contribute to the emergence and development of postpartum endometritis (disruption of the ion equilibrium between the cell and the external environment violates the mechanisms of excitation and contraction of the myometrium, and damage to endothelial cells and depolymerization of hyaluronic acid reduces their protective role and creates the conditions for the activity of microflora).

The significance of the state of immunobiochemical homeostasis as a pathogenetic factor in obstetric pathology of cows is confirmed by the low efficiency of prophylactic methods using drugs without taking into account immunobiochemical processes (3).

Correction of immunobiochemical homeostasis is carried out using biologically active substances, for example adaptogens, anti-stress agents, antioxidants. Of the antioxidants, inorganic and organic compounds of selenium and preparations based on them as ultramicroadditives to feeds are especially widely used (4). So, there is a known method for the prevention of postpartum diseases in cows, which includes two intramuscular injections of 10 ml of a 0.5% solution of selenium twice 40–50 days before and a month after the first injection, while the complex of micro and macro elements is introduced into the diet, which provides an increase cows' body resistance (5). There is also a method for the correction of metabolic pathologies and treatment and prevention of their consequences, including the use of a universal complex preparation containing sodium selenite, vitamin E, succinic acid, zinc sulfate and pharmazin, which is administered intramuscularly 45, 30, 15 days before delivery and per day childbirth (6). However, the known methods, with the complexity of their implementation, do not fully normalize immunobiochemical homeostasis, acting on its individual indicators without taking into account the metabolic disturbance mechanisms depending on the physiological state of the animal, the most important of which is the increase in tension in metabolic processes, accompanied by the accumulation of toxic lipid peroxidation products in the prenatal period and a significant increase in their level after calving. In these physiological periods of reproduction, there is an intensive use of plastic compounds of tissues, primarily fat, and subsequently structural lipids (6). Mobilization of fatty acids due to impaired utilization in conjugated reactions of their oxidation with carbohydrates leads to the release of unoxidized compounds into the bloodstream, which, due to the weakening of the AOD system due to numerous stresses and intensive use, creates favorable conditions for the activation of non-enzymatic oxidation of lipids and, as a result, to inhibition of cellular and humoral immunity factors.

The purpose of the invention is a highly effective and environmentally friendly way to normalize immunobiochemical homeostasis in cows in the prenatal and postpartum periods.

The goal is achieved by a set of optimally selected biologically active agents with antioxidant activity and the parameters of their use according to the original scheme.

The method is as follows.

Cows 20-25 days before calving are injected intramuscularly with a 0.5% sodium selenite solution at a dose of 10 ml once, twice before and twice after calving with an interval of 10 days - tetravit at a dose of 10 ml with a content of 50,000 IU of vitamin A in 1 ml of 25,000 ME vitamin D, 20 mg of vitamin E and 5 mg of vitamin F, for a period of 20-25 days before and after calving, succinic acid in a dose of 1.0 g.

The feasibility of the method was determined in a scientific and production experiment on cows of black and motley breed with milk productivity of 3500-3800 kg in one of the farms of the Nizhny Novgorod region with a high (over 90%) incidence of reproductive organs after calving.

Before the experiment and 2-3 days after calving, 10 cows of each group were taken blood samples to assess the state of immunobiochemical homeostasis by hemoglobin, erythrocytes, total blood serum protein and protein fractions (determined by conventional methods), glucose (determined by the ortho-toluidine method ), total lipids (determined by the Krinitsky method as modified by Volgin / 1969 /), lipid peroxidation products - diene conjugates and ketodienes (determined by the Placert method / 1976 /), malondialdehyde (determined by reaction with thiobar with bituminous acid), lysozyme activity of blood serum (determined by the method of V.G. Dorofeychuk), bactericidal activity of blood serum (determined by the method of O.V.Smirnova and T.A. Kuzmina), phagocytic activity of blood neutrophils (determined by the method of BCGostev ), catalase activity (determined by reaction with ammonium molybdate), vitamin A / retinol / (determined by reaction with antimony trichloride), vitamin E / tocopherol / (determined by the Bieri method modified by R.Sh. Kiselevich, S.I. Skvarko / 1972 /).

The essence of the method is illustrated by examples.

Example 1. To study the effect of various biologically active agents with antioxidant activity (sodium selenite in the form of a 0.5% solution, tetravite and succinic acid) on LPO processes and the state of immunobiochemical homeostasis, 4 groups of deep-skinned cows with 10 animals each were formed on the basis of analogues. Cows of the first experimental group were injected intramuscularly with a 0.5% sodium selenite solution at a dose of 10 ml once intramuscularly 20-25 days before calving, and succinic acid at a dose of 1.0 g was given inside the cows of the second experimental group for 20-25 days before and after calving , cows of the third experimental group 20-25 days before and in the first 20 days after calving, tetravit was injected intramuscularly with an interval of 10 days. The cows of the fourth group of drugs were not used; they served as a control. The research results are shown in tables 1 and 2.

Table 1
The effect of various antioxidants on the performance of lipid peroxidation products and AOD systems in cows Indicators Groups of cows 1st, n = 10 goal
(sodium selenite) 2nd, n = 10 goal (succinic acid) 3rd, n = 10 goal (tetravit) 4th, n = 10 goal (without drugs) M ± m ± in% M ± m ± in% M ± m ± in% M ± m ± in% Diene conjugates, units A / ml

+16.7

+8.7

33.3

+63.6 Ketodienes, units A / ml

+18.2

+ 12.7

+54.6

+75.0 Malondialdehyde, μmol / L

+1.5

+1.5

+9.9

+32.4 Catalase, Mat / L

-10.2

-15.4

-18.2

-49.2 Vitamin A, Mcmol / L

-32.6

-31.7

-12.6

-57.0 Vitamin E, Mcmol / L

-26.5

-24.6

-18.4

-45.1 Note: in the numerator - indicators 20-25 days before calving
in the denominator - indicators for 2-3 days after calving

table 2
The effect of various antioxidants on the state of immunobiochemical homeostasis of cows Indicators Groups of cows 1st, n = 10 goal (sodium selenite) 2nd, n = 10 goal (succinic acid) 3rd, n = 10 goal (tetravit) 4th, n = 10 goal (without drugs) M ± m ± in% M ± m ± in% M ± m ± in% M ± m ± in% Hemoglobin, g / l

+20.8

+19.5

+7.45

+2.4 Red blood cells, 10 ¹² / L

+9.4

+9.3

+9.6

+1.9 Total serum protein, g / l

+9.3

+6.5

+5.9

+1.1 Gammaglobulins,%

+18.3

+21.2

+14.9

-12.0 Glucose, mmol / L

+20.5

+20.7

-21.4

-47.4 Total lipids, g / l

-13.7

-12.5

-13.3

+4.2 Lysozyme activity,%

+21.9

+27.3

+17.7

-42.9 Bactericidal activity,%

+14.8

+13.4

+ 13.9

-7.3 Phagocytic activity of neutrophils,%

+8.0

+7.2

+9.8

-15.0 Note: in the numerator - indicators 20-25 days before calving
in the denominator - indicators for 2-3 days after calving

The indices of lipid peroxidation products - diene conjugates, ketodienes and malondialdehyde - in cows 20-25 days before calving were characterized by high levels that exceeded the physiological norm for this period in 1.59-1.74, 1.08-1.1 and 4, 49-4.64 times, respectively. The performance of the AOD system was reduced both in the non-enzymatic (vitamins A and E) and in the enzymatic (catalase) units. On the 2nd – 3rd day after calving, the parameters of the lipid peroxidation products — diene conjugates, ketodienes, and malondialdehyde — significantly increased and exceeded the physiological norm for this period in 1.2–1.8, 1.1–1.29, and 2.08–2 , 73 times, respectively, while the indicators of the AOZ system, on the contrary, decreased (table 1). Depending on the means used, the parameters of LPO products were least of all increased in the following sequence: the second group — succinic acid, the first group — sodium selenite, the third group — tetravit, which indicated a decrease in the intensity of the LPO processes under the influence of the tested drugs.

The state of immunobiochemical homeostasis in cows 20-25 days before calving was characterized by a decrease in a number of indicators below the physiological norm - the hemoglobin content by 3.3-5.6%, the number of red blood cells by 10-13%, gamma globulins by 4.4-8 , 8%, which indicated the presence of hypoxia and a decrease in immunobiological resistance, and the glucose content to the level of the lower boundary of the physiological norm - a decrease in the intensity of glycolysis and bioenergy processes. An increased level of total lipids has been established due to metabolic disorders of lipoid compounds, which can lead to a disruption in the synthesis of steroid hormones and a violation of the involutional processes of the reproductive organs after calving. Low levels of lysozyme, bactericidal activity of blood serum and phagocytic activity of blood neutrophils indicated a decrease in the natural resistance of dry cows. After calving, the cows of the control group showed a sharp drop in the indices of natural resistance and glucose. The cows of the experimental groups showed a tendency to normalize immunobiochemical homeostasis, as evidenced by an increase in the main indicators - hemoglobin content, red blood cell count, total blood serum protein, gamma globulins, glucose level, lysozyme, bactericidal activity of blood serum and phagocytic activity of blood neutrophils ( table 2).

Example 2. To study the effect of various combinations of biologically active agents with antioxidant activity (0.5% solution of sodium selenite, tetravite and succinic acid) and the parameters of their use on the LPO process and the state of immunobiochemical homeostasis, 4 groups of deep-skinned cows were formed on the basis of analogues. Cows of the first group (32 animals), 20-25 days before calving, used a single intramuscular injection of 0.5% sodium selenite solution at a dose of 10 ml, intramuscular injections of tetravite at a dose of 10 ml twice with an interval of 10 days before and after calving and during 20–25 days before and after calving, inside, succinic acid at a dose of 1.0 g. Cows of the second group (27 goals.), 20–25 days before calving, used a single intramuscular injection of a 0.5% solution of sodium selenite at a dose of 10 ml, intramuscular injections of tetravit in a dose of 10 ml twice with an interval of 10 days before and after calving. Cows of the third group (10 goals.) Drugs were not used, they served as a control. The results are presented in tables 3 and 4.

The combined use of antioxidants ensured the normalization of immunobiochemical homeostasis (the combined use of sodium selenite and tetravite to the level of the lower boundary of the physiological norm, the combined use of sodium selenite, tetravite and succinic acid to the level of the average border of the physiological norm) due to a decrease in the levels of lipid peroxidation and activation of the AOD system (tables 3 and 4).

Table 3
The effect of combinations of various antioxidants on the performance of lipid peroxidation products and the AOD system in cows Indicators Groups of animals 1st, n = 33 goal (sodium selenite + tetravite + succinic acid) 2nd, n = 27 goal (sodium selenite + tetravite) 3rd, n = 10 goal (without drugs) M ± m ± in% M ± m ± in% M ± m ± in% Diene conjugates, units A / ml

-46.6

+ 9.7

+40.7 Ketodienes, units A / ml

-20.7

+7.0

+61.8 Malondialdehyde, μmol / L

-20.4

+2.2

+27.9 Catalase, mkat / l

+6.5

+3.7

-29.4 Vitamin A, μmol / L

+ 12.3

+5.0

--33.5 Vitamin E, μmol / L

+ 10.7

+1.4

-26.0 Note: in the numerator - indicators 20-25 days before calving
in the denominator - indicators for 2-3 days after calving

Table 4

The effect of combinations of various antioxidants on the state of immunobiochemical homeostasis of cows

Indicators Groups of animals 1st, n = 33 goal (sodium selenite + tetravite + succinic acid) 2nd, n = 27 goal (sodium selenite + tetravite) 3rd, n = 10 goal (without drugs) M ± m ± in% M ± m ± in% M ± m ± in% Hemoglobin, g / l

+13.5

+11.5

+3.1 Red blood cells, 10 ¹² / L

+15.4

+ 10.9

+1.9 Total serum protein, g / l

+7.1

+4.4

-2.3 Gamma globulins,%

+32.5

+ 12.7

-7.2 Glucose, mmol / L

+16.3

+14.7

-22.6 Total lipids, g / l

-18.0

-14.0

+3.2 Lysozyme activity,%

+38.0

+22.5

-41.5 Bactericidal activity,%

+23.6

+21.0

-5.8 Phagocytic activity of neutrophils,%

+16.4

+9.6

-10.7 Note: in the numerator - indicators 20-25 days before calving
in the denominator - indicators for 2-3 days after calving

The data obtained confirmed the achievement of the claimed technical result - the normalization of immunobiochemical homeostasis by the combined use of sodium selenite, tetravite and succinic acid according to the claimed scheme. When comparing the dynamics of changes in the parameters of toxic products of lipid peroxidation, the AOD system, and immunobiochemical homeostasis under the influence of individual antioxidants or their combinations, a positive trend was observed, which was manifested in a decrease in the parameters of the lipid peroxidation products and an increase in the parameters of the AOD system and immunobiochemical homeostasis. However, if antioxidants predominantly increased individual indicators of immunobiochemical homeostasis and decreased growth rates of lipid peroxidation products, their combination with a less pronounced effect on individual indicators of immunobiochemical homeostasis provided a sharp decrease in the level of toxic lipid peroxidation products and, as a result, increased activity of the AOD system and indicators of natural resistance. An increase in the level of natural resistance according to basic indicators to a physiological norm creates the necessary basis for effective treatment and prevention of cows from mass diseases of the reproductive organs and for obtaining a highly resistant offspring.

Sources of information taken into account:

1. Nezhdanov A.G., Dashchukaev K.G. Fetoplacental insufficiency and its prevention in cows. // Veterinary medicine. - 1999. - No. 7. - S.6-11.

2. Yablonsky V.A., Prigara V.V. The immune status of cows with normal and pathological calving // Veterinary medicine. - 1984. - No. 8. - S.50-51.

3. Erokhin A.S., Fedorchenko O.A., Kuvshinov B.C. Prevention of violations of the reproductive function of cows // Veterinary medicine. - 1998. - No. 3. - S. 37-38.

4. Problems on selenium in animal nutrition. Norw. J. agr. Sci. - 1993. - Suppl. 11. - P.1-216.

5. RF patent No. 2201221 C2, 2003.

6. RF application No. 20011115497 A, publ. 06/06/20.

Claims (1)

A method for normalizing immunobiochemical homeostasis of cows in the prenatal and postpartum periods, comprising the combined use of a 0.5% sodium selenite solution and active agents, characterized in that tetravit and succinic acid are used as active agents according to the following scheme: cows 20-25 days before calving once intramuscularly injected with a 0.5% solution of sodium selenite in a dose of 10 ml, twice before and twice after calving with an interval of 10 days - tetravit in a dose of 10 ml with a content of 1 ml of 50,000 IU of vitamin A, 25,000 IU of vitamin D, 20 g vitamin E, and 5 mg vitamin F for 20-25 days before and after calving inwardly succinic acid at a dose of 1.0 g