RU2679421C1 - Method of prevention of inflammatory pathology in reproductive system of sows - Google Patents

Abstract

FIELD: veterinary science.SUBSTANCE: invention relates to veterinary medicine, namely to the prevention of inflammatory pathology in the reproductive system of sows. For this purpose, the Giprolam probiotic preparation is intravaginally administered during the last three days before farrowing daily with an interval of 24 hours at a dose of 50 ml per animal, α- and γ- pork recombinant interferons in the form of intramuscular injection are additionally administered for the last three days before farrowing daily with an interval of 24 hours at a dose of 10 ml each per animal.EFFECT: invention provides for the normalization of the microbiota of the reproductive system of sows and increases the resistance of the body, contributing to preventive efficacy in inflammatory pathologies in the reproductive system of sows, preservation and development of piglets, reduction of the onset of sexual cycles after weaning piglets and ensuring high fertility.1 cl, 2 ex, 12 tbl

Description

The invention relates to the field of veterinary medicine, in particular, to methods of preventing pathologies of an inflammatory nature in the reproductive system of sows, proceeding in acute and chronic (hidden) forms.

In pig-breeding enterprises of an industrial type, urgent problems in the reproduction of pigs are disorders of the reproductive system in sows. These include inflammatory diseases, which occur both in acute postpartum purulent-catarrhal endometritis and metritis-mastitis-agalactia, recorded in sows in the first days after birth, and in chronic - latent endometritis, which manifests itself in the later stages. He is diagnosed mainly in the stage of excitation of the sexual cycle. In the etiology of their development, the leading role belongs to the microbial factor - the population and reproduction of various microorganisms in the uterus and mammary gland: bacteria, mycoplasmas, viruses, etc. [Guidelines for the diagnosis, therapy and prevention of diseases of the reproductive organs and mammary gland in pigs ”, - Voronezh, 2007. - 19 p. Urban V.P. Epizootological data of mastitis-metritis-agalactia syndrome in sows in the reproductive complex / V.P. Urban, A.N. Grechukhin // Sat. scientific tr - Leningrad. - 1983 .-- T. 73 .-- S. 95-99. Brigadirov Yu.N. The role of the microbial factor in the occurrence and development of latent inflammatory processes in the genitals of sows / Yu.N. Brigadirov, I.T. Shaposhnikov, E.V. Mikhailov, V.N. Kotsarev, Yu.N. Masyanov, M.S. Filippova // Veterinary medicine and feeding. - 2015. - No. 4. - S. 14-17]. A predisposing factor in the occurrence of inflammatory processes in the reproductive organs of sows and having a decisive influence on their development is the low level of natural resistance due to metabolic disorders and stressful effects on the body [E. Gridyaev. The role of the microbial factor and resistance in pigs in the etiology of postpartum diseases and means of their prevention: Abstract. dis. Cand. vet. sciences / E.L. Gridyaev - Voronezh, 1987. - 21 p.].

Inflammatory processes in the reproductive organs of sows are the cause of the incidence of piglets with gastrointestinal diseases due to a decrease or cessation of milk secretion in uterus, which is the only source of nutrition for babies, as well as immune proteins that protect them from the effects of adverse environmental factors [V. Misaylov V. D. Agalactia of sows - one of the causes of high morbidity and death of piglets / V.D. Misailov // Materials of the international. scientific-practical confer. "Actual problems of diseases of young animals in modern conditions." - Voronezh, 2002 .-- S. 21-22. Kotsarev V.N. Depolen for the prevention of metritis-mastitis-agalactia in sows / V.N. Kotsarev, V.D. Misailov, B.C. Buzlama // Veterinary medicine. - 2005. - No. 1. - S. 39-42].

The danger of an inflammatory pathology in the reproductive system of sows also lies in the fact that they cause a delay in involutional processes in the uterus, a violation of the timing of the resumption of sexual cycles, reduced fertility, infertility and infertility, premature rejection from the reproductive herd and, as a result, shortage of pig production [ Netecha V.I. The system of measures to combat infertility of sows on industrial farms / V.I. Netecha, L.A. Mityagina // Health, nutrition - biological resources. -Kirov, 2002 .-- T. 2 - S. 417-425. Botyanovsky A.G. Postpartum endometritis in sows / A.G. Botyanovsky, O.P. Ivashkevich, A.V. Lilenko, V.V. Korniychuk // Scientific notes of UO VGAVM. - Vitebsk, 2007 .-- T. 43, no. 2. - S. 126-129].

Acute postpartum purulent-catarrhal endometritis is an inflammation of the uterine mucosa, manifested by the release of mucopurulent exudate from the genital tract, which is especially noticeable during sows. The general condition of the sows, the intake of food and water are not significantly changed, the body temperature is within normal limits or slightly increased (up to 39.6 ° C). Metritis-mastitis-agalactia is an acute disease of sows that occurs as a general syndrome, and is manifested by inflammation of the uterus, mammary gland, as well as a decrease (hypogalactia) or cessation (agalactia) of milk secretion. The disease is manifested by an increase in body temperature to 39.8-40.8 ° C, increased heart rate and respiration, inhibition of the general condition, decreased or terminated intake of food and water. Sows are lying, not allowing piglets to the nipples of the mammary gland. Mucopurulent exudate of liquid or semi-liquid consistency is secreted from the genital tract [Methodical recommendations for the diagnosis, therapy and prevention of diseases of the reproductive organs and mammary gland in pigs ”, - Voronezh, 2007. - 19 p.].

The incidence rate of acute postpartum purulent-catarrhal endometritis and metritis-mastitis agalactia (MMA) among sows is respectively 16.7-50.6% (average 39.5%) and 14.7-26.7% (in 21.2% on average) [Kotsarev V.N. A modern look at the problem of labor and postpartum complications in sows / B.N. Kotsarev, A.G. Nezhdanov // Modern problems of veterinary obstetrics and biotechnology of animal reproduction: Materials of the international. scientific-practical Conf. 85th birthday prof. G.A. Cheremisinov and the 50th anniversary of the Voronezh school of veterinary obstetricians. - Voronezh, "Origins." - 2012. - S. 290-298].

Chronic (latent) endometritis in sows proceeds without visible clinical signs, and register it in the stage of excitation of the reproductive cycle when the "heat" phenomenon manifests itself by the presence of minor outflows from the genital tract, usually without or without pus impurities [Brigadirov Yu.N. Diagnosis of latent endometritis in sows / Yu.N. Brigadirov, V.N. Kotsarev, Yu.N. Masyanov, I.T. Shaposhnikov, E.V. Mikhailov, A.V. Manuylov, N.I. Shumsky, M.S. Filippova // Veterinarian. - 2015. - No. 2. - S. 43-46]. It is detected in 7-12% of sows, and in some cases its distribution reaches 20% or more. Khlopitsky V.P. among sows discarded from the reproductive herd, latent endometritis was established in 37% of cases [Khlopitsky V.P. The main pathologies that reduce the intensity of use of sows / V.P. Khlopitsky // Veterinary medicine. - 2010. - No. 10. - S. 12-15].

Given the role of the microbial factor as a direct cause of the development of inflammatory processes in the reproductive organs, for the prevention of acute postpartum endometritis and MMA in sows, methods using antimicrobial agents are recommended.

A known method for the prevention of acute postpartum endometritis and MMA in sows using the antimicrobial preparation enrofur, sowed intrauterine sows 4-6 hours after farrowing at a dose of 50 ml / 100 kg body weight [V. Misaylov The effectiveness of enrofur for the prevention of postpartum diseases in sows / V.D. Misailov, V.N. Kotsarev, A.A. Sotnikov // Materials of the International scientific-practical conference dedicated to the 100th anniversary of the birth of Professor S.N. Nikolsky "Actual problems of invasive, infectious and non-infectious animal pathology." - Stavropol, 2003. - S. 309-310].

The disadvantage of this method of prevention is that when it is used, the possibility of prescribing to sows with weakened contractile function of the uterus after farrowing uterotonic agents is excluded.

Known methods for the prevention of postpartum diseases in sows with the use of the drug "Metramag" ^® antibacterial and myotropic effects, administered parenterally in various ways - once during farrowing or after it is completed, as well as with repeated injections after 24 hours [V. Khlopitsky. Symptomatic infertility of the breeding stock of pigs at industrial enterprises and pharmacological correction of their reproductive function: Author. dis. ... doc. vet. sciences / V.P. Khlopitsky - Voronezh, 2014. - 48 p.].

The disadvantage of this and the previously mentioned methods for the prevention of postpartum diseases is the use of antimicrobial agents, with prolonged use of which dysbiosis develops in the genital tract of sows, as well as resistant strains of microorganisms to antimicrobial agents appear, which leads to a decrease in efficiency and a limitation of the duration of their use [Lebedeva V. . Drug resistance of microorganisms / V.N. Lebedeva, S.D. Voropaeva. - M.: Medicine. - 1972.P. 14-76. Kotsarev V.N. Dinopen antimicrobial preparation for sows therapy in postpartum diseases / V.N. Kotsarev, V.Yu. Fights // Veterinary. - 2011, - No. 2. - S. 42-44].

For the prevention of acute postpartum inflammatory processes in the genitals of sows and cows, probiotic agents containing cultures of microorganisms that are antagonists of conditionally pathogenic and pathogenic microflora that cause a pathological process in the uterus have been used [MV Biryukov. Etiology of postpartum diseases in sows and prophylaxis with probiotics: Author. dis. Cand. vet. sciences / M.V. Biryukov. - Voronezh, 2004 .-- 26 p .; Myasnikova N.G. Antagonistic activity of the probiotic preparation “Bacinil” against pathogenic and opportunistic microorganisms and its prophylactic and therapeutic efficacy in cows endometritis: Abstract. dis. ... cand. it blows. sciences / N.G. Myasnikov. - Voronezh, 2011. - 25 p.]. So, M.V. Biryukov, in order to prevent acute postpartum diseases, recommends sows probiotic preparation “Intestevit” in the amount of 5-7 doses per animal mixed with dry food daily for 10 days before the expected farrowing. Preventing the colonization of sows' genital tracts with pathogenic and pathogenic microflora, Intestevit, administered orally to animals during gestation, does not have a long-term effect and cannot prevent inflammatory processes in the genitals of sows that manifest in a later period of lactation. In addition, with the oral method of application, in order to create a sufficiently high concentration of symbiotic microflora in the genitals, long-term administration of Intestevit is required to prevent colonization of the genital tract by pathogenic and pathogenic microflora.

For the prevention of latent endometritis in sows, a method of using a FLEX-3 suspension [Belikov F.M. Subclinical endometritis in sows and their prevention / F.M. Belikov // Veterinary medicine. - 2008. - No. 1. - S. 3-4]. In this method, sows, 2-4 days after farrowing, were intrauterine administered a suspension of FLEX-3, consisting of a solution of ichthyl, iodopyrene and perhydrol in a dose of 80 ml. At the beginning of the experiment and 5 days after the use of the drug, blood was obtained from sows and a study was performed on morphological and biochemical parameters. According to the results of blood tests of sows and the nature of the course of the postpartum period, the authors established the preventive effectiveness of the suspension. During the experiment, the authors revealed cases of the development of latent endometritis in sows of the control group, which was not observed in animals of the experimental group.

The disadvantage of this method for the prevention of latent endometritis is the appointment of a iodine preparation iodopyrene, which has a broad antimicrobial effect, suppresses the vital activity of not only conditionally pathogenic and pathogenic microflora, but also indigenous (normoflora), which is constantly present in the genitals of sows, in sows in the PLEX-3 suspension. In addition, animals may show increased sensitivity in the form of an allergic reaction [Iodopiron [Electronic resource] // Access mode: http://zdorovi.net/preparatv/jodopiron.html].

The closest in technical essence solution is a method for the prevention of acute postpartum and chronic inflammatory processes in the reproductive organs of sows, which provides for intravaginal administration of the probiotic drug Giprolam every day with an interval of 24 hours during the last three days before farrowing and three days on 8-10 days of lactation in a dose of 50 ml per animal [Brigadirov Yu.N. The effectiveness of the probiotic preparation giprolam for the correction of the microbial landscape of the genital tract of sows / Yu.N. Brigadirov, V.N. Kotsarev, I.T. Shaposhnikov, O.A. Manzhurina, A.E. Lobanov, I.L. Likhachev // Veterinary medicine. - 2017. - No. 4. - S. 43-46].

The disadvantage of this method is that in order to obtain the effect of preventing acute postpartum and chronic inflammatory processes in the reproductive organs of sows, two courses of drug administration are required: the first during pregnancy and the second during lactation. In addition, giprolam does not have a pronounced immunostimulating effect on the body, with a decrease in the resistance of which cases of the development of an inflammatory pathological process in the animal reproductive system become more frequent.

The technical result of the invention is the normalization of the microbiota of the reproductive system of sows and an increase in the body's resistance, which contribute to prophylactic efficacy in pathologies of an inflammatory nature in the reproductive system of sows, the safety and development of piglets, shortening the time of onset of sexual cycles after weaning, and ensuring high fertility.

For this, in the method for the prevention of inflammatory pathologies in the sows reproductive system, including intravaginal administration of the probiotic preparation “Giprolam” during the last three days before farrowing daily with an interval of 24 hours at a dose of 50 ml per animal, according to the invention, α- and γ- are additionally administered recombinant pork interferons in the form of injections intramuscularly for the last three days before farrowing daily with an interval of 24 hours at a dose of 10 ml each per animal.

The probiotic preparation Giprolam is a suspension for intrauterine use. 1 cm ^{3 of the} preparation contains at least 5⋅10 ⁷ CFU (colony forming units) of live cells of lactic acid bacteria Lactobacillusfermentum 44/1 and 5⋅10 ⁷ CFU of Lactococcuslactissubpsp.lactis 57 ₄ , the presence of which determines the mechanism of action. Probiotic microorganisms are able to take root in the genital tract and have an antagonistic effect on the conditionally pathogenic microflora that penetrates into them. The drug helps prevent the development of postpartum inflammatory processes and reduces the duration of the service period [Instructions for use of the drug Giprolam for the prevention of postpartum endometritis in cows].

Pharmacological (biological) properties and effects.

Recombinant pork interferon is a species-specific drug that exhibits immunostimulating and antiviral activity in young and adult pigs. The effect of the drug is determined by the total effect of the exogenous protein directly on the affected cells, by the rapid induction of the endogenous interferon system, cellular and humoral immunity. When introduced into the body, it acts as an inducer of the bactericidal activity of blood serum (BASK), has an anti-inflammatory effect, increases its resistance to the effects of DNA and RNA viruses and pathogenic microorganisms.

Recombinant porcine interferon is used for prophylactic and therapeutic purposes in case of gastrointestinal and respiratory diseases of viral and mixed (bacterial-viral) etiology in young and adult pigs, as an immunostimulant in animals with immunodeficiency. For prophylactic purposes, sows are administered it twice before birth with an interval of 48 hours and again, in case of delayed labor, 48 hours after the last injection [Recombinant interferon pork (instructions for use) [Electronic resource] // Access mode: https: //www.vidal .ru / veterinar / recombinant-porcine-interferon-28282].

A unique property of interferon preparations is that their active principle is protective proteins that are completely identical to the animal’s own proteins [Prokulevich V. A., Potapovich M. I. Interferon-based veterinary preparations [Electronic resource] // Access mode: http HYPERLINK "http://elib.bsu.by/123456789/24152/1/51-55.pdf":// HYPERLINK" http: // elib. bsu.by/123456789/24152/1/51-55.pdf"elib HYPERLINK "http://elib.bsu.by/123456789/24152/1/51-55.pdf". HYPERLINK "http://elib.bsu.by/123456789/24152/1/51-55.pdf"bsu HYPERLINK" http://elib.bsu.by/123456789/24152/1/51-55.pdf HYPERLINK "http://elib.bsu.by/123456789/24152/1/51-55.pdf"by HYPERLINK" http://elib.bsu.by/123456789/24152/1/51-55.pdf"/123456789 / 24152/1 / 51-55. HYPERLINK "http://elib.bsu.by/l23456789/24152/1/51-55.pdf"pdf].

The invention is illustrated by examples. Example 1. Three groups of deep-breeding sows were formed without deviations from the norm in the clinical state, taken on the experiment at 109-111 days of gestation. Sows of the first group (n = 19) were not prescribed drugs (control group). The animals of the second group (n = 20) during the last three days before farrowing and three days on 8-10 days of lactation daily with an interval of 24 hours were intravaginally injected with the probiotic preparation “Giprolam” at a dose of 50 ml per animal (first experimental group). During the last three days before farrowing, pigs of the third group (n = 23) were intravaginally injected with the probiotic preparation “Giprolam” at a dose of 50 ml per animal in combination with a three-fold intramuscular injection of recombinant porcine α- and γ-interferons at the same time in a dose of 10 ml of each per animal (second experimental group).

At the beginning of the experiment (before using the preparations), 3-4 days after farrowing and on the day of weaning, piglets from five sows from each group received samples of vaginal swabs, in which quantitative and qualitative indicators of microbiota were determined. From five randomly taken sows to drug administration, and on the day of weaning piglets from five animals from each group, blood samples were taken to determine morphological, immunological and biochemical parameters.

The sows were monitored. They took into account the timing of the farrowing, the nature of the course of the postpartum period. Animals infected with postpartum diseases were excluded from the experiments and subjected to treatment. The safety and development of piglets during weaning was taken into account from the nests of the uterus, which remained clinically healthy after farrowing. After weaning, the manifestation of sexual cycles and fertility rates were recorded in sows. By smears, fingerprints taken from the vaginal mucosa during the "estrus" phenomenon, the diagnosis of latent endometritis was established.

When studying the microbial landscape of the genital tract of experimental animals, a change in the quantitative composition of the microbiota was observed in dynamics. In sows of the control group, 3-4 days after farrowing compared with the initial period (table 1), with a decrease in the content of lactobacilli by 9.7%, bifidobacteria by log = 0.27, bacilli by 15.4%, the number of Escherichia increased by 32, 9%, Enterococcusfaecalis - 2.9 times, Enterococcusfaecium - 11.3%, Staphylococcusaureus - 17.7%, Staphylococcusepidermidis - 3.8%, yeast-like mushrooms - 3.2 times.

For weaning, changes in the microbial landscape of sows in the control group consisted in an increase in the content of lactobacilli by 15.5%), bifidobacteria by log = 0.17, bacilli by 27.8%, Enterococcusfaecalis by 58.8%, Enterococcusfaecium - by 28.9%, Staphylococcusepidermidis - by 10.4%, yeast-like fungi - by 18.7% with a decrease in the concentration of Escherichia by 39.9%, Staphylococcusaureus - by 27.5%.

In the sows of the first experimental group, which were intravaginally used the probiotic preparation "Giprolam", in the microbiota isolated from vaginal swabs, more pronounced changes in the quantitative composition were observed (table 2). So, by 3-4 days after sows farrowing, the content of lactobacilli in the microbiota was 2.4 times higher, bifidobacteria by log = 0.40, Enterococcusfaecalis by 25.6%, Enterococcusfaecium by 20.2% with a decrease in the amount of E coli - 5.6 times, bacilli - 11.6%, Staphylococcusaureus - 3.7 times, Staphylococcusepidermidis - 12.8%, yeast-like fungi - 33.6%. By weaning piglets in the microbiota of the genital tract of sows, the content of lactobacilli increased 3.1 times, bifidobacteria - by log = 0.20 with a decrease in the number of E. coli by 41.6%, bacilli - by 40.4%, Enterococcusfaecalis - by 35, 1%, Enterococcusfaecium - 15.8%, Staphylococcusaureus - 1.9 times, Staphylococcusepidermidis - 13.7%, yeast-like fungi - 56.2%.

In comparison with the animals of the control group, in the sows of the first experimental group with the prescription of the probiotic preparation “Giprolam”, the microbial landscape of the genital tract 3-4 days after farrowing was represented by a large number of lactobacilli by 2.4 times, bifidobacteria by log = 0.57, and lower E. coli content - 6.9 times, bacilli - 15.5%, Enterococcusfaecalis - 38.3%, Enterococcusfaecium - 26.0% Staphylococcusaureus - 3.8 times, Staphylococcusepidermidis - 4.3% , yeast-like fungi - 4.3 times. By the weaning of piglets, the number of lactobacilli was 6.6 times greater, bifidobacteria - by lg = 0.60 with a lower concentration of E. coli - by 7.2 times, bacilli - by 60.6%, Enterococcusfaecalis - by 74.8%, Enterococcusfaecium - by 17.7% Staphylococcusaureus - 5.3 times, Staphylococcusepidermidis - 25.1%, yeast-like mushrooms - 11.8 times.

In sows of the second experimental group, which were prescribed the probiotic preparation "Giprolam" in combination with recombinant pork interferons α and γ interferons (table 3), changes in the microbiota of the genital tract by 3-4 days after farrowing consisted in an increase in the number of lactobacilli by 2.7 times, bifidobacteria - by lg = 0.45, Enterococcusfaecalis - by 5.6% and a decrease in the content of E. coli by 8.3 times, bacilli - by 32.2%, Enterococcusfaecium - by 7.3%, Staphylococcusaureus - by 5, 4 times, Staphylococcusepidermidis - by 19.3%, yeast-like fungi - by 44.6%. By weaning, the content of lactobacilli in the microbiota of the genital tract of sows increased 2.2 times, bifidobacteria - by log = 0.17. At the same time, the number of E. coli decreased by 24.7%, bacilli by 38.0%, Enterococcusfaecalis by 49.4%, Enterococcusfaecium by 5.1%, Staphylococcusaureus by 1.5 times, Staphylococcusepidermidis by 15, 4%, yeast-like mushrooms - by 59.7%. In comparison with the animals of the control group, the sows of the second experimental group with the prescription of the drug “Giprolam” in combination with α- and γ-interferons in the microbial landscape of the genital tract 3-4 days after farrowing contained 3.1 times more lactobacilli, bifidobacteria - lg = 0.67 and it was less than E. coli - 10.9 times, bacilli - 25.8%, Enterococcusfaecalis - 34.2%, Enterococcusfaecium - 11.8% Staphylococcusaureus - 5.4 times, Staphylococcusepidermidis - by 14.6%, yeast-like mushrooms - by 5.6 times. By weaning, the number of lactobacilli was 6.0 times greater, bifidobacteria - by lg = 0.67, with a lower E. coli content - 8.7 times, bacilli - 64.0%, Enterococcusfaecalis - 79.0%, Enterococcusfaecium - by 36.0% Staphylococcusaureus - 6.0 times, Staphylococcusepidermidis - 34.5%, yeast-like mushrooms - 16.4 times.

In comparison with animals of the first experimental group, in sows of the second experimental group, the microbial landscape of the genital tract 3-4 days after farrowing was characterized by a higher concentration of lactobacilli by 26.5%, bifidobacteria by log = 0.10 and a lower content of E. coli by 35, 9%, bacillus - by 12.2%, Enterococcusfaecalis - by 6.64%, Enterococcusfaecium - by 30.0% Staphylococcusaureus - by 30.6%, Staphylococcusepidermidis - by 10.8%, yeast-like mushrooms - by 21.9% . By weaning piglets, the difference in most indicators of the species composition of the microbiota of the genital tract of sows of comparison groups was less pronounced, but in animals with the combined use of the drug “Giprolam” with α- and γ-interferons, the quantitative values of indigenous microflora remained at a higher level with lower values of conditionally pathogenic and pathogenic microorganisms. They had a higher concentration of lactobacilli by 8.64%, bifidobacteria - by lg = 0.07 and lower - E. coli content - by 7.36%, bacilli - by 8.66%, Enterococcusfaecalis - by 16.8% , Enterococcusfaecium - by 22.2% Staphylococcusaureus - by 12.5%, Staphylococcusepidermidis - by 12.5%, yeast-like fungi - by 28.2%. In the study of blood obtained from sows on the day of weaning piglets, there was a change in its indicators in comparison with the original. Of the hematological parameters (table 4) in animals of the control group, the content of erythrocytes increased by 4.3%, hemoglobin - by 1.9%, hematocrit - by 6.1%, platelets - by 12.6%. With a slight decrease in the number of leukocytes, the leukogram contained more 4.2% of stab neutrophils, eosinophils - 4.5%, lymphocytes - 15.2% with a lower concentration of segmented neutrophils - 17.3%, monocytes - 6.7% . In sows of the first experimental group with the prescription of the probiotic preparation Giprolam, the concentration of erythrocytes was higher by 6.11%, hemoglobin by 4.17%, hematocrit by 8.6%, and platelets by 19.1%. White blood cells were 7.0% less. Of the leukogram parameters, 38.2% of stab neutrophils were less, segment neutrophils - 15.7%, monocytes - 13.5% with a higher concentration of lymphocytes - 18.6%. In sows of the second experimental group with the prescription of the probiotic preparation “Giprolam” in combination with α- and γ-interferons, the content of erythrocytes increased by 8.55%, hemoglobin by 6.44%, hematocrit by 15.9%, and platelets by 25.2%, leukocytes - 11.3% less, in the leukogram of which there were less stab neutrophils by 58.9%, segmented neutrophils - 15.4%, eosinophils - 8.81%, monocytes - 17.6 % with a higher concentration of lymphocytes - by 21.7%. In comparison with the control, their erythrocyte content was higher by 4.10%, hemoglobin by 4.45%, hematocrit by 9.25%, platelets by 11.2%, white blood cells by 12.5%, and the leukogram contained 60.6% less stab neutrophils, eosinophils - 12.8%, monocytes - 11.7%, more segmented neutrophils - 2.33%, lymphocytes - 5.64%, and in comparison with the animals that used only the “Giprolam” preparation exceeded the concentration of erythrocytes by 2.30%, hemoglobin by 2.18%, hematocrit by 6.78%, platelets by 5.18% with a lower leukocyte content by 4.55% . The leukogram contained less than 12.3% stab neutrophils, eosinophils - 7.80%, monocytes - 4.79% and more lymphocytes - 2.65%.

Of the indicators of natural resistance (table 5) in sows with the appointment of "Giprolam" in combination with α- and γ-interferons, in comparison with the control, the content of total immunoglobulins was 21.2% higher, serum lysozyme activity (LASK) - 40, 5%, bactericidal activity of blood serum (BASK) - by 10.5%, phagocytic activity of leukocytes (FAL) - by 8.04%, phagocytic number (PS) - by 19.0%, phagocytic index (PI) - by 19 , 0%, and in comparison with animals that used only the Giprolam drug, the concentration of total immunoglobulins was higher la 14.7% LAGC - 15.7%, BASK - 2.98% FAL - 2.90 at%, the FF - 6.18%, FI - 5.42%.

Among the indicators of the LPO-AOD system and endogenous intoxication (Table 6), in the sows of this group, in comparison with the control, the content of malondial dialdehyde (MDA) was lower by 43.7%, average molecular peptides (SMP) - by 30.4%, the index of endogenous intoxication (IEI) - lower by 32.4% with a higher concentration of glutathione perokidase (GPO) - by 34.5%, catalase - by 18.4%, and compared with animals using Giprolam, the content of MDA was lower by 28, 9%, SMP - by 17.9%, IEI - below 14.0% with a higher concentration of HPO - by 14.6%, catalase - by 12.3%.

With a slight difference in the duration of gestation and multiple pregnancy between animals of different groups, sows of the second experimental group had 30.0% fewer stillborn piglets compared to the control and 12.5% less than in the first experimental group (table 7). The weight of one piglet between groups of sows did not differ and amounted to 1.56 ± 0.030-1.58 ± 0.016 kg.

Postpartum pathology in the control group was found in 42.1% of sows, including acute postpartum purulent-catarrhal endometritis in 26.3% and metritis-mastitis agalactia (MMA) in 15.8%. In sows of the first experimental group who were intravaginally injected with the probiotic Giprolam, the incidence of postpartum diseases was 1.7 times less, including acute purulent-catarrhal endometritis - 1.3 times and MMA - 3.1 times. In sows of the second experimental group using the Giprolam probiotic in combination with α- and γ-interferons, the incidence of postpartum diseases was 3.2 times less, including acute purulent-catarrhal endometritis - 2.0 times less than in the control and respectively, 1.9 times and 1.5 times less in comparison with animals with the appointment of the probiotic "Giprolam". However, the most severe form of postpartum MMA pathology in sows of this group did not appear.

At the end of the suction period, the number of piglets weaned per 1 sow in the second experimental group was 9.8% more than in the control and 2.0% more than in the first experimental group, their average weight was higher by 7.1%, respectively and 2.5%, preservation - more by 8.2% and 2.3% (table 8).

Prescribing drugs to sows (Table 9) helped to reduce their timing of sexual cycle after weaning, the manifestation of latent endometritis and increased fertility, the most pronounced when using the drug “Giprolam” in combination with α- and γ-interferons, in which the sexual cyclicity occurred on 1.0 day earlier than in the control and 0.2 days earlier than in animals of the first experimental group, latent endometritis was recorded less often, respectively, 7.46 times and 2.66 times; among inseminated sows, fertility was higher by 14.5 and 4.9%, respectively.

Example 2. The studies were conducted on 86 sows, taken on the experiment on 110-111 days of gestation, which were divided into three groups. Sows of the first group (n = 26) were not prescribed drugs (control group). The animals of the second group (n = 29) during the last three days before farrowing and three days on 8-10 days of lactation daily with an interval of 24 hours were intravaginally injected with the probiotic preparation “Giprolam” at a dose of 50 ml per animal (first experimental group). During the last three days before farrowing, pigs of the third group (n = 31) were intravaginally injected with the probiotic preparation “Giprolam” at a dose of 50 ml per animal in combination with a three-fold intramuscular injection of recombinant pork α- and γ-interferons at the same time in a dose of 10 ml of each per animal (second experimental group).

The animals were monitored. In sows, the timing of farrowing and the nature of the postpartum period were taken into account. Animals infected with postpartum diseases were excluded from the experiments and subjected to treatment. The safety and development of piglets during weaning was taken into account from the nests of the uterus, which remained clinically healthy after farrowing. After weaning, the manifestation of sexual cycles and fertility rates were recorded in sows. By smears, fingerprints taken from the vaginal mucosa during the "estrus" phenomenon, the diagnosis of latent endometritis was established.

It was found that when the probiotic preparation Giprolam in combination with α- and γ-interferons of recombinant pork was administered to sows, stillborn piglets were registered 27.8% less compared to the control and 4.82% less compared to using the probiotic only Giprolam "(table 10).

Postpartum pathology was detected in them 2.98 times less often, including acute purulent-catarrhal endometritis - 2.77 times and MMA - 3.59 times than in the control and, accordingly, 1.60 times, 1.42 times and 2.16 times less often in comparison with animals with the appointment of the probiotic "Giprolam". At the end of the suction period, the number of piglets weaned per 1 sow was 1.0 goals. more than in the control, and 0.1 goal. more than in the first experimental group, the average weight of piglets is higher by 9.84% and 3.51%, respectively, and the safety is higher by 8.0 and 2.3% (table 11).

The terms of manifestation of sexual cyclicity after weaning were shorter by 0.8 days than in the control, and by 0.1 day than in animals of the first experimental group (table 12). Hidden endometritis was recorded less often 3.4 times and 1.8 times, respectively. Fertility of inseminated sows was higher by 13.4% and 7.0%, respectively.

Thus, the use of the probiotic preparation “Giprolam” in combination with recombinant α- and γ-interferons at the end of gestation helps optimize the content of indigenous microflora in the reproductive organs, reduce the concentration of opportunistic and pathogenic microorganisms, increase the natural resistance of the animal organism, and activate blood formation stabilizing the functional state of the LPO-AOD system, reducing the manifestation of endogenous intoxication and preventing the development of reproductive active organs of the pathology of an inflammatory nature, proceeding in acute postpartum and chronic forms.

Claims (1)

A method for the prevention of inflammatory pathologies in the reproductive system of sows, including intravaginal administration of the probiotic preparation “Giprolam” during the last three days before farrowing daily with an interval of 24 hours at a dose of 50 ml per animal, characterized in that pork α- and γ-interferons are additionally administered recombinant in the form of injections intramuscularly for the last three days before farrowing daily with an interval of 24 hours at a dose of 10 ml each per animal.