RU2684902C1 - Method of treatment and prevention of streptococcal infection of piglets and pigs, complicated by gastrointestinal and respiratory diseases - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to veterinary medicine and is a method for treating streptococcal infection of piglets and pigs, complicated by gastrointestinal and respiratory diseases, consisting in oral use of the pentacycline drug, once a day, by diluting it with a substitute of whole milk and mixing it with a free-flowing feed or drinking water with a dose of 25 mg/kg of body weight of the animal for 7–10 days.

EFFECT: invention ensures the achievement of a high therapeutic efficacy in the treatment of animals infected with streptococcal infection complicated by gastrointestinal and respiratory diseases, without any clinically detectable complications, in a shorter period.

1 cl, 8 tbl, 2 ex

Description

The invention relates to veterinary medicine, and in particular to a method for treating streptococcal infection of piglets and pigs. The method can be applied in the treatment and prevention of streptococcal infections complicated by gastrointestinal and respiratory diseases.

From the current level of technology and existing methods of treatment are not known methods of prevention and treatment of streptococcal infection of pigs and pigs, complicated by gastrointestinal and respiratory diseases. The known method of the Russian Federation No. 2427366 IPC A61K31 / 00, publ.27.08.20011 "Method for the treatment and prevention of gastrointestinal diseases of calves and piglets" using pentacycline. This method of use of the drug pentacycline is not intended for the prevention and treatment of streptococcal infection. Of the patent and literature sources available to the applicant, methods for the prevention and treatment of streptococcal infection of piglets and pigs complicated by gastrointestinal and respiratory diseases have not been found.

This method cannot be applied for the treatment and prevention of streptococcal infection of pigs and pigs, complicated by gastrointestinal and respiratory diseases, due to low therapeutic efficacy.

       At the present time, in farms, for the treatment and prevention of streptococcal infection, a penicillin antibiotic is used. This method is not applicable for the prevention and treatment of streptococcal infection of piglets and pigs complicated by gastrointestinal and respiratory diseases.

The existing method of treatment of streptococcal infections of pigs is to use a penicillin antibiotic, by intramuscular injection, in a dose of 1 ml per 25 kg of body weight for 3 -5 days. The known method is described in the journal "Veterinary Medicine Kuban" № 10 4-6 p. Https://elibrary.ru (electronic resource).

 The disadvantage of this method is, firstly, low therapeutic effect, due to the development of resistance of the pathogen to the drug, its cumulative effect and side effects on the body, secondly, the unreliability of the drug caused by the resistance of strains of pathogens to penicillin antibiotics.

The objective of the invention is to achieve a high therapeutic efficacy of treatment and prevention of animals infected with streptococcal infection, complicated by gastrointestinal and respiratory diseases, without any clinically detectable complications, in a shorter time.

The objective of the invention is solved by applying for the prevention and treatment of streptococcal infection of pigs and pigs, complicated by gastrointestinal and respiratory diseases, the drug "Pentacycline", which is injected into the body of animals once a day, by diluting it with a substitute for whole milk and mixing bulk feed, or drinking water with a dose of 25 mg / kg body weight of the animal.

The drug "Pentatsiklin" is a chemotherapeutic agent with a broad antibacterial spectrum of action. It is a sandy-brown powder with a dispersion of 0.01-0.1 mm, it is water-soluble, bacteriostatic, bactericidal (with respect to gram-positive and gram-negative bacteria) and antiviral effect, which allows it to be used as a first choice drug.

The essence of the method of treatment and prevention of streptococcal infection of piglets and pigs, complicated by gastrointestinal and respiratory diseases is that the drug "Pentacycline" is introduced into the body of animals once a day by diluting it with a substitute of whole milk and mixing bulk food, or watering with water at a dose of 25 mg / kg animal body weight.

 In the treatment of streptococcal infections complicated by gastrointestinal diseases, the drug is administered to the animal through a watering system or, directly, by mixing it with the milk replacer (whole milk replacer, bulk form, diluted with warm water) in a dosage of 25 mg. per kg live weight. The course of treatment is 7-10 days. The course of taking the drug for prophylaxis is identical by the method and dosage, it differs only in the duration of the drug, which is 3-5 days.

Description of the method of prevention and treatment of streptococcal infection of piglets and pigs, complicated by gastrointestinal and respiratory diseases of farm animals is illustrated by tables confirming the results of applying the method. (TABLES 1-8).

The method is implemented as follows.

The inventive method of treatment and prevention of streptococcal infection of piglets and pigs, complicated by gastrointestinal and respiratory diseases was tested in the farms of the Belgorod region.

  Experimentally, the treatment method was applied in the IC "Oskolsky bacon-3" Belgorod region, Starooskolsk urban district, p. Khoroshchilovo, in the period from 08/18/2016 to 09/07/2016 in the conditions of industrial cultivation of pigs. The results of production tests, registered in the act number 1 and number 2 (copies of acts attached). In the process of preventing and treating piglets, blood was sampled. Analyzes performed by an accredited veterinary station. On the basis of laboratory tests revealed intestinal infections such as: Escherichia coli; Enterococcus faecalis; Enterococcus faecium; Staphylococcus aureus; Haemophilus parasuis; Actinobacillus pleuropneumoniae for the treatment of streptococcal piglets (a form of streptococcal infection), which was complicated by diarrhea of bacterial etiology.

The experiment involved 85 pigs aged 40-50 days, were on the site of rearing. Three groups were formed from diseased animals: the first group (23 goals) was treated by the present method, the second group (23 goals) was treated by a known method (production), the third group (39 goals) was not treated (control)

Piglets from the first (experimental) group received the drug Pentacycline in a dose calculated from the ratio: 25 mg per kg. live weight, by mixing it with a substitute of whole milk, (loose form, diluted with warm water) 1 time per day, for 10 days. Recovery was observed on the 4th day, and on the 10th day there was a complete recovery. Data on treatment indices (t °) by day are presented in tables (TABLES 2, 3, 4).

 Piglets from the second group received treatment with a penicillin preparation by injecting it intramuscularly, in a dose of 1 ml per 25 kg of body weight for 5 days. On the fourth day, in the study groups, there was a decrease in the area of skin lesions: in the experimental group - by 5%, in the production group - by 2%. On the 7th day, a decrease in the lesion in the experimental group by 38% (45% of their initial affected area), in the production group by 13%. On the 10th day, in the experimental group, recovery was noted in 91% of the area affected was 5% (decrease in the affected area by 80%), in production in 83% (decrease in the affected area by 40%). It should be noted that diarrhea in the experimental group was not throughout the experiment, in contrast to the production group, the therapeutic effect of which was 70%.

. Example 1

Experimentally, a method of treating streptococcal infection of piglets and pigs complicated by gastrointestinal and respiratory diseases was applied in the IC Oskolsky bacon-3 of the Belgorod Region, Starooskolsky urban district, Khoroschilovo village rearing Studies were conducted in the period from August 18, 2016. till September 7, 2016 On the basis of laboratory tests revealed intestinal infections such as: Escherichia coli; Enterococcus faecalis; Enterococcus faecium; Staphylococcus aureus; Haemophilus parasuis; Actinobacillus pleuropneumoniae and formed three groups of animals. Age of animals: 40 days, 1st group (23 heads) - streptococcal infection (streptoderma), complicated by respiratory and gastrointestinal diseases of bacterial etiology. Group 2 (23 heads) - streptococcal infection (streptoderma), complicated by respiratory and gastrointestinal diseases of bacterial etiology. Group 3 (39 goals) - clinically healthy animals. Before the start of the experiment, control weighting of all three groups was carried out for further study of the indicators of average daily gain (TABLE1). In all three groups, blood was sampled according to biochemical and physiological indications of blood, in the amount of 5 samples. (TABLES 7,8) The preparation was given by diluting it in a small amount of warm whole milk replacer (WMS), adding it to the feed. The dose was calculated according to the instructions for use, namely 25 mg / kg body weight, once a day for 10 days.

From these tables it can be seen that, in contrast to the experimental group, in which the intensity of the flow of diarrhea on the fourth day decreased by 7% compared with the production, where the decrease was 5%. Later, the following dynamics was observed: in the treatment with the proposed method, diarrhea was already absent on the 4th day, and in the case of production treatment, a decrease was only observed to 3%, and diarrhea was observed until the end of the experiment, therefore the therapeutic effect occurred on the 4th day, t . about. it can be said that the terms of treatment with the proposed method were 4 days, compared with the production method, the treatment period of which was 10 days.

On the third day, the animals of the first group were more active, an increase in appetite was observed, the temperature was within the normal range, according to Table 1, there was no case. On the fourth day, a partial rejection of the affected layer of the epidermis was noted in 93% (no crusts disappear) in the population of the experimental group. On the 10th day in the first group, in most animals, the skin is clean, with no obvious skin lesions (streptoderma). The therapeutic effect in the experimental group (group 1) was up to 91%, in the group with treatment using the production method (group 2) - 83%. (TABLES 2,3)

The proposed method for the treatment of streptococcal infection of pigs and pigs, complicated by gastrointestinal and respiratory diseases, showed a high therapeutic effect in the treatment of streptoderma compared with the production method, in the absence of possible side effects, as well as ease of use and the absence of negative effects on the body of animals .

Example 2

 An experimental method for the prevention of streptococcal infection of piglets and pigs complicated by gastrointestinal and respiratory diseases was applied in the IC Oskolsky Bacon-3 of the Belgorod Region, Starooskolsky urban district, Khoroshilovo village.On the basis of laboratory tests revealed intestinal infections, such as: Escherichia coli; Enterococcus faecalis; Enterococcus faecium; Staphylococcus aureus; Haemophilus parasuis; Actinobacillus pleuropneumoniae. Three groups of animals were formed that were kept on household rations (SPK-4) while observing zootechnical and veterinary requirements. Group 1 (23 heads) - the maximum risk of infection with streptococcal infection (streptoderma), complicated by respiratory and gastrointestinal diseases of bacterial etiology. 2nd group (23 heads) - streptococcal infection (streptoderma) complicated by respiratory and gastrointestinal diseases of bacterial etiology. Group 3 (39 heads) - clinically healthy animals. The study was conducted within 7 days. The drug was given by diluting it in a small amount of warm whole milk replacer (SMR) by adding it, then to the feed. The dose was calculated according to the instructions for use, namely 25 mg / kg body weight. Once a day, for 7 days.

According to Table 5, on the third day, in the first group, in some animals (10% of the studied population), there was an increase in body temperature, poor palatability of food, lack of death, in the second group, an increase in body temperature was observed in 8% of animals, depression poor palatability of food, death in the amount of 1 head. On the fifth day, the animals in the experimental group were more active, there were no clinical signs of streptococcal infection, there was no death, the temperature was within the normal range. In the production group, an increase in sick animals was noted up to 20% of the observed livestock and a loss in the amount of 2 heads. On the seventh day of the study, in the second group, there was a decrease in the clinical manifestations of streptococcal infection, namely, a decrease in temperature to normal limits, the animals were more active, the percentage of diseased animals decreased to 16%, and the death rate was absent.

Based on the data obtained in the study of the proposed method for the prevention of streptococcal infection of piglets and pigs complicated by gastrointestinal and respiratory diseases, the following conclusion can be made: the method tested under production conditions showed a high therapeutic effect, when used for prevention purposes, compared to the production method , where a positive effect was observed on the fourth day, as well as safety and harmlessness of use. In the production method, the dynamics of the course of prophylaxis was less intense and improvement was noted only on the 7th day. (TABLES 2.5).

According to clinical signs, such as a decrease in temperature, a decrease and a change in the character of defi fication, the therapeutic effect of prophylaxis by the claimed method was observed on the fourth day. (TABLE 5)

In the course of the experiment, blood was sampled and then analyzed. Sampling was carried out on the site of rearing piglets. To conduct this study, we took blood from all three groups: group 1 - experienced, taking treatment by the proposed method; (5 goals) 2 group - taking treatment by the production method, (5 heads) 3 group - control (5 goals). Samples were taken before giving the study drug and after, with a break of 5 days. In each group 5 blood samples were taken. To analyze the results of clinical studies, the following indicators were used: triglycerides, phosphorus, cholesterol, hemoglobin, leukocytes, ESR, erythrocytes, leukocytes. Also for the analysis of the results of biochemical studies used such indicators as: albumin, total protein, glucose, iron, calcium, creatinine, magnesium. (Analysis of the results of studies of clinical and biochemical blood parameters before and after the study drug was given was conducted at the Belgorod MVL (the results are attached to the Belgorod MVL document).

     Analysis of data on biochemical studies showed that the content of such elements as glucose and creatinine increased in all three experimental groups. Glucose is responsible for increasing the number of red blood cells (recorded in the first group), because is the only energy source of red blood cells and, as a result, increases the hemoglobin content responsible for the most important physiological processes (noted in the first group by an average of 8.8 and the second study group by 8.2). In particular, the biggest changes, in a positive way, in glucose, were noted in the first group by an average of 4.38, in the second by 1.59 and in the third by 1.66. For creatinine, an increase in indicators was observed in all groups, which indicates an increase in metabolic processes in muscle tissue (creatinine is the end result of the breakdown product of energy processes in tissues). According to the following indicators (albumin, total protein, iron, calcium and magnesium), a decrease was recorded. Albumin decreased below the norm in the 1st group, in the rest to the lower limit of the norm. Presumably, this is due to the impact of the stress factor, which has no diagnostic value in our case. Minor deviation in total protein remained within the normal range. The average indicator for magnesium of the experimental group decreased to the norm, indicating optimization of enzymatic processes, acid-base balance and improvement of the intestinal function, leading to an increase in the digestibility of trace elements. The rate of calcium and iron is in the normal range. (TABLE 6)

      Analysis of data on clinical (general) studies revealed:

1. Reducing the level of triglycerides in the blood of the first group to normal (decreased by an average of 0.48), which is probably related to the normalization of the digestive processes (described above) after oral administration of the test drug.

2. The content of phosphorus in the blood decreased in all the studied groups is most pronounced in the first group, which is due to a decrease in the concentration of magnesium.

3. The number of leukocytes in the first group was above the norm, there was a decrease after giving the drug by an average of 2.82., In groups 3 and 2 there was a decrease

minor, within normal limits. A decrease in the number of leukocytes is characterized by a decrease in inflammatory and infectious diseases in the organism of animals, since leukocytes perform diverse functions aimed at protecting the body.

4. Cholesterol increased in groups 1 and 3, while in the second group it decreased, hemoglobin level increased, in contrast to group 3 in which it decreased.

5. COE decreased only in the first group, possibly due to an increase in hemoglobin in the blood, while the number of red blood cells increased within the physiological norm. (TABLE 7)

The above biochemical and clinical studies of blood indicators of pigs indicate the intensity of metabolic processes in the body of experimental animals, their health and the normal functioning of the organs.

    Thus, we can conclude that the drug, administered by the claimed method to animals orally with food, does not have a negative effect and contains in its composition substances that allow, on the one hand, to obtain an effective antibiotic, and on the other, to reduce the risk of adverse effects effects in its application.

The proposed method can also be used for the prevention of streptococcal infections and gastrointestinal disorders of farm animals, in particular pigs.

In production, for example, when exposed to stress factors (transfer from one production group to another, or at high risk of infection occurring under production conditions), it is advisable to carry out the prevention of staphylococcal infection.

     Analysis of data on biochemical studies showed that the content of such elements as glucose and creatinine increased in all three experimental groups. Glucose is responsible for increasing the number of red blood cells (recorded in the first group), because is the only energy source of erythrocytes and, as a result, increases the hemoglobin content, which is responsible for the most important physiological processes (noted: in the first group, on average, by 8.8 and the second study group by 8.2). In particular, the biggest changes, in a positive way, in glucose, were noted in the first group by an average of 4.38, in the second by 1.59 and in the third by 1.66. For creatinine, an increase in indicators was observed in all groups, which indicates an increase in metabolic processes in muscle tissue (creatinine is the end result of the breakdown product of energy processes in tissues). According to the following indicators (albumin, total protein, iron, calcium and magnesium), a decrease was recorded. Albumin decreased below the norm in the 1st group, in the rest to the lower limit of the norm. Presumably, this is due to the impact of the stress factor, which has no diagnostic value in our case. Minor deviation in total protein remained within the normal range. The average magnesium levels of the experimental group decreased to the norm, indicating optimization of enzyme processes, acid-base balance and improvement of the intestinal function leading to an increase in digestibility of trace elements. The rate of calcium and iron is in the normal range. (TABLE 6.7)

      Analysis of data on clinical (general) studies revealed:

1. Reducing the level of triglycerides in the blood of the first group to normal (decreased by an average of 0.48), obviously, this is due to the normalization of the digestive processes (described above) after oral administration of the test drug.

2. The content of phosphorus in the blood decreased in all the studied groups is most pronounced in the first group, which is due to a decrease in the concentration of magnesium.

3. The number of leukocytes in the first group was above the norm, there was a decrease after giving the drug by an average of 2.82, in groups 3 and 2 a decrease

minor, within normal limits. The decrease in the number of leukocytes characterizes the reduction of inflammatory and infectious diseases in the organism of animals, since leukocytes perform diverse functions aimed at protecting the body.

4. Cholesterol increased in the first and in the third group, whereas in the second group it decreased, and the hemoglobin level increased, in contrast to the third group, in which it decreased.

5. COE decreased only in the first group, possibly due to an increase in hemoglobin in the blood, while the number of red blood cells increased within the physiological norm. (TABLE 6.7)

Thus, the above biochemical and clinical studies of blood indicators of pigs indicate the intensity of metabolic processes in the body of experimental animals and their health.

    Thus, the drug, administered orally to animals together with food, has a high therapeutic effect in the treatment and prevention of streptoderma, complicated by gastrointestinal and respiratory diseases, and at the same time does not have a negative effect on the organism of animals.

A positive effect from the application of the proposed method of treatment and prevention of animals (in particular, piglets) with streptococcal infections complicated by gastrointestinal diseases, is the achievement of full recovery without any clinically detectable complications, with reduced compared with the production method, treatment time and higher economic efficiency.

Claims (1)

A method for treating streptococcal infection of piglets and pigs complicated by gastrointestinal and respiratory diseases, consisting in oral use of the drug pentacycline once a day, by diluting it with a substitute of whole milk and mixing it with a loose feed or drinking water with a dose of 25 mg / kg body weight of the animal within 7-10 days.

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