RU2750787C1 - Method for determining isoantigenic load in "mother-fetus-newborn" functional system - Google Patents

Abstract

FIELD: veterinary immunology.SUBSTANCE: invention relates to veterinary immunology. A method for determining the isoantigenic load in the "mother-fetus-newborn" functional system is proposed. The method includes taking blood from the jugular vein after giving birth to a sow and from umbilical cord blood from a newborn pig, obtaining the first test sample (pig's blood serum + sow's blood) and the second test sample (sow's blood serum + pig's blood), as well as control samples. After that, experimental and control samples are placed on a tripod and analyzed for qualitative changes. To determine the isoantigenic load in the "mother-fetus-newborn" functional system, the isoantigenic load coefficient is calculated in the "mother-fetus-newborn" functional system. If the value of the coefficient is not more than 29, the newborn animal is considered without antigenic isoimmunization, and with an increase of 43 - with a violation of the fetoplacental complex.EFFECT: invention provides increased reliability of laboratory research and the formation of a group of animals with a high risk of developing immunological tolerance.1 cl, 1 tbl, 3 ex

Description

The technical field to which the invention relates

The invention relates to veterinary immunology, which can be used in clinical practice to diagnose isoantigenic load in animals, in particular to a method for determining isoantigenic load in the functional system "mother-fetus-newborn" and use immunological diagnostic methods to identify various diseases and susceptibility to immunological tolerance of the animal organism on large and small livestock farms.

State of the art

When studying patent and scientific and technical information, several methods have been identified for determining the isoantigenic load in the functional system "mother-fetus-newborn" by assessing the immunological reactivity of the organism.

There is a known method for determining the immunological reactivity of the body by acting on the body with a medicinal substance (pyrogenal is administered at a dose of 0.15-0.18 μg per 1 kg of weight) and when the temperature rises to 37.0-37.5 ° C, the immunological reactivity is determined within the normal range , at 36.6-36.9 ° C - determine the lack of immunological reactivity (See the author of St. USSR No. 1689857, M.Cl. ² G01N 33/53, 1989). This method has a number of disadvantages that reduce its information content. So, the determined indicator of body temperature undergoes significant changes due to not only physiological processes (evaporation of moisture from the skin surface, ventilation of the lungs, etc.), but also uncontrolled technological parameters (temperature and humidity of the outside air, thermal conductivity of surfaces). The high variability of the results obtained also reduces the information content of such parameters for judging the lack of immunological reactivity.

A known method for assessing the immunological reactivity of an organism, including taking blood, dividing it into plasma and uniform elements (See Ed. St. USSR No. 1686364, M. CL. ² G01N 33/53, 1991). However, the implementation of the method requires expensive equipment and biological products. In addition, the method is not informative enough, and also complicated.

There is a known method for assessing the immunological reactivity of an organism, including taking blood, dividing it into plasma and shaped elements and determining the concentration of immunoglobulins and specific antibodies in plasma, characterized in that, additionally, the concentration of immunoglobulins A, G, M and specific serum antibodies sorbed on the shaped elements is determined blood and the ratio of the concentrations of immunoglobulins and specific serum antibodies in plasma and sorbed on blood corpuscles are judged on the immunological reactivity of the organism (See RF Patent No. 2126154, M.Cl. ² G01N 33/53, 1999).

The disadvantage of this method is that it is applicable only in special laboratory conditions using the methods of immunochemistry, which narrows the range of its useful use in the field. In addition, the determination of the concentrations of immunoglobulins and specific serum antibodies in plasma and sorbed on blood cells is technically difficult and requires significant time, special equipment and reagents.

The closest in technical essence and the achieved positive result, adopted by the authors as a prototype, is a method for assessing the immunological reactivity of the body, including taking blood, dividing it into plasma and uniform elements and determining the immunological parameters of blood cells, which are used to judge the state of the body (See USSR Patent No. 1813213, M. CL ² G01N 33/53, 1993).

However, the disadvantage of this method is the increased trauma, because blood sampling is performed from the cubital vein, which is especially difficult for seriously ill patients and in pediatric practice. Due to the impossibility of conducting analysis after long-term storage of samples, screening studies are excluded. The method is not informative enough, because allows you to determine the predisposition to a small number of diseases, is characterized by low throughput due to the duration of the process.

In the known methods for determining the isoantigenic load in the "mother-fetus-newborn" functional system, it is carried out without detecting and determining the antibody titer values and does not allow to reliably establish the presence and severity of the isoimmune effect in the "mother-fetus-newborn" functional system. Currently, there are no effective methods for diagnosing isoantigenic load in the “mother-fetus-newborn” functional system. Our method will identify the changes already available from the first hours of life in the resulting offspring and the maternal organism.

Disclosure of invention

The objective of the present invention is to develop a method for determining the isoantigenic load in the functional system "mother-fetus-newborn", aimed at a more relevant determination of the immunogenicity of maternal antigens in relation to alloimmunized factors in offspring, allowing in a relatively short time to determine the level of development of immunological tolerance.

The technical result of the invention is to increase the reliability of laboratory research (non-invasive prenatal screening of isoimmunization effects in the fetus by the blood of a pregnant woman) by identifying the state of increased sensitivity of the maternal body to fetal antigens by the reaction of the erythrocyte sedimentation rate in the presence of specific proteins of the newborn organism. The proposed method allows you to form a group of animals with a high risk of developing immunological tolerance.

The purpose of the invention is to improve the accuracy and simplify the procedure for determining the violation of placental conditions by assessing the antigenic constancy of the maternal organism and the organism of the offspring.

The technical result is achieved using a method for determining the isoantigenic load in the functional system "mother-fetus-newborn" according to a biological test, and in order to improve the accuracy and simplify the method, the erythrocyte sedimentation rate is used as a biological test in reaction with blood samples of the mother's body in interaction with the blood serum of the offspring and the blood of a newborn animal in the presence of the mother's blood serum, as well as control blood samples of the mother and the newborn animal with saline, after which the forecast coefficient is calculated using the formula:

where K is the criterion of isoantigenic load;

ESRo1, ESRo2 - the sedimentation rate of maternal blood erythrocytes in the presence of the newborn's blood serum and the sedimentation rate of the newborn's erythrocytes in the presence of the mother's blood serum. ESRk1, ESRk2 - the sedimentation rate of maternal blood erythrocytes in the presence of isotonic sodium chloride solution and the sedimentation rate of newborn blood erythrocytes about the presence of isotonic sodium chloride solution and if the coefficient is not more than 29, piglets are considered without antigenic isoimmunization, and with an increase in the coefficient above 43 with violation of the fetoplacental complex ...

Brief description of drawings and other materials

Table 1 shows the erythrocyte sedimentation rate of the "mother-fetus-newborn" system and the degree of antigenic load in newborn animals.

Implementation of the invention

During pregnancy, immunobiological control over antigenic constancy in the “mother-fetus” functional system is established on the part of the maternal organism and on the part of the fetus. When violations of the functional state of this system occur, a violation of the immunological balance occurs, which entails structural disorders of the immune system of the mother and the fetus. Based on this, for the full reproduction of farm animals, it is necessary to develop methods for assessing the antigenic constancy of the maternal organism and the organism of the offspring.

Examples of specific implementation of the method for determining the isoantigenic load in the functional system "mother-fetus-newborn".

Example 1

In 20 sows after giving birth and from them 180 piglets obtained from them, to assess the antigenic effect on the immune system of a newborn animal during intrauterine development in the maternal organism immediately after delivery, blood is taken from the jugular vein and from the offspring obtained from umbilical cord blood before colostrum intake. Part of the blood 1/3 is used to obtain the blood serum of the maternal organism and the newborn animal. In a Panchenkov pipette, the blood serum of the newborn is taken up to the P mark and transferred to a watch glass. Then, after rinsing the pipette in a solution of heparin in a similar way up to the K mark, the blood of the maternal organism is taken and introduced into the well of the watch glass. After that, for 1 minute, mix with the end of a pipette and draw a pipette (blood serum of a newborn + blood of the mother's body) to the mark K, placing it in a stand at 450. As a control, a reaction setting is used, in which isotonic saline NaCl 0 is used instead of the blood of the mother's body, nine%.

To assess the antigenic effect on the immune system of the maternal body during pregnancy, blood is taken from the jugular vein in the maternal body immediately after childbirth and from the resulting offspring from the umbilical cord blood before colostrum intake. Part of the blood 1/3 is used to obtain the blood serum of the maternal organism and the newborn animal. In a Panchenkov pipette, the blood serum of the mother's body is taken up to the P mark and transferred to a watch glass. Then, after rinsing the pipette in a solution of heparin in a similar way, up to the K mark, the blood of the newborn organism is taken and introduced into the well of the hour glass. After that, for 1 minute, mix with the end of a pipette and collect a pipette (blood serum of the mother's body + blood of a newborn organism) to the K mark, placing it in a rack at 450. As a control, a reaction setting is used, in which isotonic saline NaCl 0 is used instead of the newborn's blood, nine%.

Accounting for the reaction is carried out after 1 hour, analyzing the qualitative changes in Panchenkov's test tube with an inclination of 45 ° in the experimental and control samples. Animals are assigned to a group with a violation of the antigenic balance in the fetoplacental complex with a difference in ESR in the experimental and control samples within 3.9-8.9 mm per 1 hour.

To determine the isoantigenic load in the "mother-fetus-newborn" functional system, the isoantigenic load factor is calculated using the formula

where K1 and K2 are the coefficients of isoantigenic load in the “mother-fetus-newborn” functional system; ESRo1, ESRo2 - the sedimentation rate of maternal blood erythrocytes in the presence of the newborn's blood serum and the sedimentation rate of the newborn's erythrocytes in the presence of the mother's blood serum. ESRk1, ESRk2 - the sedimentation rate of maternal blood erythrocytes in the presence of isotonic sodium chloride solution and the sedimentation rate of newborn erythrocytes in the presence of isotonic sodium chloride solution.

The degree of isoantigenic load was determined according to the results of the study of the erythrocyte sedimentation rate in the experiment and control after 1 hour.The ESR of viable newborn animals averaged 3.1 and 2.4 in the experiment, in the control, respectively, 2.3 and 1.7 mm per hour. viable newborns was about 26-29 and is shown in Table 1.

Example 2

After giving birth, 10 sows and 96 newborn piglets received from them were bled. Taking blood and conducting the study is carried out in accordance with example 1. The isoantigenic load of newborn animals was determined according to the results of ESR in the experimental and control samples after 1 hour. The erythrocyte sedimentation rate (average values) of piglets was 8.2 and 9.3 in the experimental reaction, and in the control experiment 4.2-5.7 mm per hour, see table 1.

Example 3

Blood was taken from 11 sows after delivery and 121 piglets at birth to determine the degree of isoantigenic load of newborn animals. Taking blood and conducting the study is carried out in accordance with example 1. To implement the method of isoantigenic loading of newborn piglets, the erythrocyte sedimentation rate of maternal blood was determined in the presence of newborn serum and ESR of the newborn's blood about the presence of maternal blood serum. According to the results of the study of the erythrocyte sedimentation rate after 1 hour in the experiment and control, the degree of viability of piglets at birth was determined. ESR in non-viable animals averaged 15.3 and 13.9 mm per hour, and in control, respectively, 6.4 and 5.2 mm per hour. The coefficient of isoantigenic load in the functional system "mother-fetus-newborn" in non-viable piglets was high and amounted to within 57-69. All newborn animals were susceptible to various diseases that led to mortality. The reason for the death of piglets was diseases of the respiratory and digestive system. The use of the method provides an increase in the accuracy and a decrease in the labor intensity of determining the isoantigenic load of an animal organism under various functional states.

From the study, it can be concluded that the proposed invention has the following advantages in relation to known developments:

1. The proposed method is intended to determine the isoantigenic load in the functional system "mother-fetus-newborn".

2. Has less labor intensity in application, making it simple and affordable for technical implementation at any agricultural enterprise.

Claims (7)

A method for determining isoantigenic load in the functional system "mother-fetus-newborn", characterized in that blood is taken from the maternal organism, which is a sow, from the jugular vein after childbirth and from it, the newborn animal, which is a pig, from umbilical cord blood before colostrum intake, where part of the specified blood is used to obtain the blood serum of the mother's body and the newborn animal, then the first test sample is obtained - the blood serum of the newborn animal + the blood of the mother's body and the second test sample - the blood serum of the mother's body + blood of the newborn organism, as well as control samples , where for the first test sample the first control is used - the blood serum of the mother's body + isotonic saline solution of NaCl 0.9% and for the second test sample the second control is used - the blood serum of a newborn animal + isotonic saline solution NaCl 0.9%, after which the indicated experimental and control samples are placed on a stand with an inclination of 45 ° and after 1 hour the reaction is taken into account, analyzing qualitative changes, to determine the isoantigenic load in the functional system "mother-fetus-newborn", calculating the coefficient ( K1, K2) isoantigenic load in the functional system "mother-fetus-newborn" according to the formula:

Where: ESR o1 - the rate of erythrocyte sedimentation of the blood of the maternal body in the presence of blood serum of a newborn animal; ESR o2 - the rate of erythrocyte sedimentation in the blood of a newborn animal in the presence of maternal blood serum; ESR k1 - the rate of erythrocyte sedimentation of the blood of the maternal body in the presence of isotonic sodium chloride solution; ESR k2 - the rate of erythrocyte sedimentation in the blood of a newborn animal in the presence of isotonic sodium chloride solution; and if the value of the coefficient is not more than 29, the newborn animal is considered without antigenic isoimmunization, and with an increase of 43 - with violation of the fetoplacental complex.