RU2504386C1 - Preparation for prevention of diarrhoea in newborn calves - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to veterinary science. A preparation for the prevention of diarrhoeas in newborn calves containing acid hydrolysate of animal blood, lactic, benzoic, succinic acids, additionally contains acetic acid, in the following ratio, wt %: acetic acid 0.4-0.5, lactic acid 0.05-0.06, benzoic acid 0.04-0.05, succinic acid 0.02-0.03, acid hydrolysate of animal blood - the rest.

EFFECT: invention provides a lower probability of diarrhoeas in the newborn calves and reducing a mortality rate.

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Description

The invention relates to veterinary medicine, and in particular to a method for the prevention of early diarrhea in calves.

It is known that the main reason for the development of diarrhea in calves is conditionally pathogenic bacteria that proliferate excessively in the intestines with insufficiently formed “colonization” resistance (Ecological and adaptation strategy to protect the health and productivity of animals in modern conditions / Ed. By A.G. Shakhov - Voronezh: Voronezh State University, 2001. - 207 p.). For the prevention of digestive disorders, it is proposed to use various drugs, in particular probiotics, antibiotics, sorbents, immunomodulators, blood products (Actual problems of young diseases in modern conditions / Materials conf. - Voronezh: Voronezh State University, 2002. - 731 p.). However, the above means are not always effective enough, as they have a number of disadvantages.

A disadvantage of modern probiotics consisting of living symbiont bacteria is their poor survival in the intestinal tract of animals. The composition of microflora introduced using probiotics does not reproduce the entire species and individual variety of normal intestinal microflora.

The disadvantage of antibiotics is their short duration; they cause the death of not only pathogenic microorganisms, but also symbionts; cause the development of antibiotic-resistant race of pathogenic bacteria; toxic to the animals themselves.

The disadvantage of sorbents is their lack of selectivity, together with toxic products and pathogenic bacteria, they remove from the intestines and food nutrients (vitamins, trace elements, amino acids), which weakens animals.

The use of immunomodulators is currently not economically available for most households, and, in addition, requires certain preliminary immunological analyzes, which is also not feasible in the public sector of agricultural production.

Blood products are quite effective and inexpensive. For example, the drug hydrolysin is widely known, which is a solution obtained by acid hydrolysis of cattle blood proteins and contains all the essential amino acids and 2% glucose (Chervyakov D.K., Evdokimov P.D., Vishker A.S. veterinary medicine. M., Kolos, 1977 .-- P.271). However, due to the neutral reaction, blood products (including hydrolysin) are used only parenterally, because when used internally, they serve as an excellent nutrient medium for conditionally pathogenic bacteria, which, if multiplied excessively in the intestines, can cause diarrhea.

This disadvantage can be neutralized with the help of food preservatives - lactic and benzoic acid (US Pat. RF No. 2186497 from 08/10/2002), and to increase the preventive effect due to the additional input of succinic acid (US Pat. RF No. 2292874 from 02/10/2007, prototype, contains wt.%: lactic acid 0.3-0.4, benzoic acid 0.04-0.05, succinic acid 0.1-0.2, acid blood hydrolyzate - the rest.).

However, there is also a drawback to these solutions, which consists in the fact that the organic acids introduced into the composition of the preparations in the indicated amount were oriented mainly to the preservation of the target product and increase of metabolic processes in the calf's body. Meanwhile, the resistance of newborn calves to acute intestinal diseases accompanied by diarrheal syndrome is largely determined by the level of formation (condition) of their colonization resistance, i.e. qualitative and quantitative composition of symbiotic microflora in the digestive tract. Therefore, the creation of the most favorable conditions for their own symbiotic microflora of animals can ensure the full functioning of colonization resistance and resist reproduction of pathogenic and conditionally pathogenic microorganisms in the intestinal tract.

This object is achieved by the fact that the proposed drug for the prevention of diarrhea in newborn calves, including acid hydrolyzate of animal blood, lactic, benzoic, succinic acid, characterized in that it additionally contains acetic acid in the following ratio of components, wt.%:

Acetic acid… 0.4-0.5 Lactic acid… 0.05-0.06 Benzoic acid… 0.04-0.05 Succinic acid… 0.02-0.03 Blood Acid Hydrolyzate ... rest.

The drug is given to newborn calves after the first milking of colostrum along with 1.5-2 liters of milk in an amount of 50-60 ml 2 times a day for 10 consecutive days.

The rationale for introducing acetic acid into the preparation was the fact that acetic acid accounts for up to 70-80% of the volatile fatty acids that are a product of intestinal bacteria metabolism in the intestinal chyme of animals (Eje Collinder Intestinal functions in animals / Stockholm, Sweden, 2001 . - P.35). Apparently, this acid is involved to a greater extent in the regulation of the qualitative and quantitative composition of the bacterial community of the digestive tract.

After preliminary studies in vitro, it was found that the addition of acetic acid in the culture medium in the amount of 0.02-0.03% stimulates the reproduction of lactobacilli, increasing their number by 10-20 times compared with the medium without acid.

An even greater degree of stimulating effect was noted when using acetic, lactic and succinic acids with a ratio of 1: 0.125: 0.1. The results obtained served as the basis for the development of a drug intended for the prevention of diarrhea in newborn calves.

Examples proving the effectiveness of the presence of acetic acid in the inventive preparation.

Example 1. 2 groups of newborn calves were formed — experimental and control, 5 animals each. The experimental calves after the first colostrum drink received a preparation consisting of mass%: acetic acid 0.2; lactic acid 0.03; benzoic acid 0.04; succinic acid 0.01; blood acid hydrolyzate - the rest. The calves from the control group were given a prototype. The preparations were given with milk 2 times a day for 10 days at a dose of 50 ml. During the observation period (10 days), 4 calves had diarrhea in the experimental group, and 3 calves in the control group.

Example 2. 2 groups of newborn calves were formed - experimental and control 5 animals each. Experimental calves after the first colostrum drink received a preparation consisting of mass%: acetic acid 0.3; lactic acid 0.04; benzoic acid 0.05; succinic acid 0.02; blood acid hydrolyzate - the rest. The calves from the control group were given a prototype. The preparations were given with milk 2 times a day for 10 days at a dose of 60 ml. During the observation period (10 days), 2 calves had diarrhea in the experimental group, and 2 calves in the control group.

Example 3. 2 groups of newborn calves were formed - experimental and control 5 animals each. Experimental calves after the first colostrum drink received a preparation consisting of mass%: acetic acid 0.4; lactic acid 0.05; benzoic acid 0.05; succinic acid 0.03; blood acid hydrolyzate - the rest. The calves from the control group were given a prototype. The preparations were given with milk 2 times a day for 10 days at a dose of 60 ml. During the observation period (10 days), no calf was sick in the experimental group, and diarrhea was recorded in 2 calves in the control group.

Example 4. 2 groups of newborn calves were formed - experimental and control 5 animals each. Experimental calves after the first colostrum drink received a preparation consisting of mass%: acetic acid 0.5; lactic acid 0.06; benzoic acid 0.04; succinic acid 0.02; blood acid hydrolyzate - the rest. The calves from the control group were given a prototype. The preparations were given with milk 2 times a day at a dose of 50 ml. During the observation period (10 days) in the experimental group, all the calves remained healthy, while in the control group 3 calves fell ill.

Example 5. 2 groups of newborn calves were formed — experimental and control — 5 animals each. Experimental calves after the first colostrum drink received a preparation consisting of mass%: acetic acid 0.6; lactic acid 0.07; benzoic acid 0.04; succinic acid 0.03; blood acid hydrolyzate - the rest. The calves from the control group were given a prototype. The preparations were given with milk 2 times a day at a dose of 50 ml. During the observation period (10 days) in the experimental group, all the calves remained healthy, while in the control group 2 calves fell ill.

Example 6. 2 groups of newborn calves were formed - experimental and control 5 animals each. Experimental calves after the first colostrum drink received a preparation consisting of mass%: acetic acid 0.7; lactic acid 0.08; benzoic acid 0.04; succinic acid 0.02; blood acid hydrolyzate - the rest. The calves from the control group were given a prototype. The preparations were given with milk 2 times a day at a dose of 60 ml. During the observation period (10 days) in the experimental group, all the calves remained healthy, while in the control group 2 calves fell ill. It should be noted that the preparation with this composition has a pronounced vinegar odor and increased acidity, which negatively affects the taste properties of milk when the preparation is added and the reluctance to drink it by calves.

Therefore, the most optimal composition of the drug for the prevention of diarrhea in newborn calves, which provides a pronounced effect while maintaining the palatability of milk and minimal production costs, is mass%: acetic acid 0.4-0.5; lactic acid 0.05-0.06; benzoic acid 0.04-0.05; succinic acid 0.02-0.03; blood acid hydrolyzate - the rest.

Such an amount of acids was taken with the expectation that when the drug is added to milk, their concentration changes to such a value that provides stimulation of the multiplication of lactic acid bacteria.

An example of a specific use of the drug for the prevention of diarrhea in newborn calves.

At the dairy complex of Putilovets-Yug CJSC in the Krasnodar Territory 3 groups of newborn calves of 20 animals each were formed. The calves of the first group received milk without drugs, the second group with a prototype, the third with the proposed method. The preparations were given for 10 days 2 times a day in the amount of 50-60 ml. After 10 days, fecal microflora and blood were examined in calves, the incidence of diarrhea and the safety of animals in the groups were taken into account.

Experience showed (Table 1) that in 1 group of 20 calves all animals fell ill, and 12 of them were in a severe form, in which intensive therapy with antibiotics, infusion agents and vitamins was used. Of these 12 calves, 4 fell. Thus, the safety of calves in this group was 80%. In the second group, 12 calves fell ill, in 5 of them the disease was severe and accompanied by severe dehydration. These calves were treated with antibiotics, infusion agents and vitamins. In this group, 2 calves fell. Safety was 90%. In group 3, 8 calves fell ill, in whom the disease proceeded only in medium (3 calves) and mild (5 calves). Treatment, which was to prescribe a diet and drink rehydration solutions and astringents for 1-2 days. Not a single calf fell in this group, the safety was 100%.

Table 1 - The effectiveness of the use of drugs for the prevention of diarrhea in newborn calves Indicator Group 1 (control) 2 (experienced, received a prototype) 3 (experienced, received the proposed drug) Number of calves twenty twenty twenty Ill diarrhea goal. twenty 12 8 Including: easy four 5 in average form 8 3 3 in severe form 12 5 - It’s a goal. four 2 - Incidence,% one hundred 60 40 Preservation,% 80 90 one hundred

When examining the blood of calves, it was found (Table 2) that the quantitative composition of leukocytes and erythrocytes in animals of all groups is at the same level and corresponds to indicators of healthy animals. Meanwhile, the blood saturation with hemoglobin is the highest in calves from group 2 (103.7 g / l), and the lowest from group 1 (93.0 g / l). In the qualitative composition of leukocytes, a difference is also noted. In calves from group 1, leukocytes in the composition prevail in granulocytes (70.3%), which may indicate that they have a chronic inflammatory process. In calves from groups 2 and 3, the ratio of granulocytes and lymphocytes is most favorable and is 1.0 and 1.3, respectively. In addition, in calves from the 3rd group, leukocytes of 6% were monocytes, which are the precursors of macrophages that carry out phagocytosis and presentation of antigens to lymphocytes. According to the indicators of bactericidal activity (BASK) and lysozyme activity (LASK) of blood serum, it should be noted that the level of nonspecific resistance is most pronounced in calves from group 3 in which BASK was at the level of 48.9%, and LASK - 4.53 μg / ml. In calves from the first group, these indicators were respectively 37.1% and 0.40 μg / ml, i.e. in these animals, the natural protection against infections is the lowest.

Table 2 - Calves blood counts after the use of drugs Indicator Group (n = 5) 1 (control) 2 (experienced, received a prototype) 3 (experienced, received the proposed drug) White blood cells, 10 ⁹ / L 9.1 ± 0.85 10.5 ± 0.93 9.4 ± 0.75 Red blood cells, 10 ¹² / L 9.7 ± 0.81 9.7 ± 0.64 9.5 ± 0.91 Hemoglobin, g / l 93.0 ± 9.4 103.7 ± 9.9 98.3 ± 9.6 The composition of leukocytes,%: granulocytes 70.3 ± 6.7 48.7 ± 2.4 53.7 ± 4.7 lymphocytes 26.7 ± 3.1 48.3 ± 5.6 40.3 ± 4.0 monocytes 3.0 ± 0.15 3.0 ± 0.15 6.0 ± 0.2 BASK,% 37.1 ± 5.6 48.9 ± 4.2 48.9 ± 3.9 LASK, mcg / ml 0.40 ± 0.03 2.45 ± 0.19 4.53 ± 0.30

When studying the state of intestinal microbiocenosis, it was found (Table 3) that in calves of group 1, the prevailing position in the composition of the intestinal microflora belongs to Escherichia, the number of which was 9.7 lg CFU / g. A lot of these animals had staphylococci - 5.0 lg CFU / g. At the same time, the number of lactobacilli was only 2.7 lg CFU / g. This ratio of intestinal bacteria can be characterized as dysbiotic, indicating a pronounced dysbiosis and a predisposition to the development of diarrhea. In calves of group 2, the number of Escherichia and staphylococci was 2 orders of magnitude smaller, and the number of lactobacilli was 4 orders of magnitude greater than that of calves from the control group. Meanwhile, the number of Escherichia in these animals prevailed over the number of lactobacilli, which also indicated the presence of dysbiosis. In calves from group 3, the number of Escherichia and staphylococci was 3 orders of magnitude smaller, and the number of lactobacilli was 6 orders of magnitude greater than that of calves from group 1. The ratio in the feces of lactobacilli and Escherichia in animals from group 3 was physiological and indicated normobiosis.

Table 3 - The quantitative composition of fecal microflora in calves after application of drugs (lg CFU / g) Indicator Group (n = 5) 1 (control) 2 (experienced, received a prototype) 3 (experienced, received the proposed drug) Esherichia 9.7 ± 0.9 8.0 ± 0.7 6.0 ± 0.5 Staphylococci 5.0 ± 0.5 3.0 ± 0.3 2.0 ± 0.1 Enterococci 3.2 ± 0.3 3.3 ± 0.3 1.0 ± 0.1 Lactobacilli 2.7 ± 0.1 6.3 ± 0.6 8.3 ± 0.6 Mold mushrooms 3.3 ± 0.3 3.0 ± 0.3 2.0 ± 0.2

Thus, the proposed drug for the prevention of diarrhea in newborn calves consisting of an acid blood hydrolyzate with the inclusion of acetic, lactic, benzoic and succinic acids has a positive effect on the animal organism, allows the correction of intestinal microbiocenosis to increase the natural resistance of newborn calves, resistance to diarrhea, and, as a result, their safety.

Claims (1)

A drug for the prevention of diarrhea in newborn calves, including acid hydrolyzate of animal blood, lactic, benzoic, succinic acid, characterized in that it additionally contains acetic acid in the following ratio, wt.%:
Acetic acid 0.4-0.5 Lactic acid 0.05-0.06 Benzoic acid 0.04-0.05 succinic acid 0.02-0.03 Blood Acid Hydrolyzate Rest