RU2148413C1 - Method of prophylaxis of respiratory sickness in calves - Google Patents

Abstract

FIELD: veterinary science, agriculture. SUBSTANCE: method involves intramuscular administration of quacyclin at the dose 4.0-5.0 ml or isoquaterin at the dose 1.0-1.5 ml that is carried out 12-24 h before vaccination and after vaccination at interval for 5-7 days, twice. Method ensures to normalize indices of immune status in respiratory sicknesses. EFFECT: enhanced effectiveness of method. 2 tbl, 2 ex

Description

 The invention relates to veterinary medicine and can be used to reduce the incidence of animals with acute respiratory viral infections.

 Viral respiratory diseases are caused by a variety of viruses containing DNA and RNA (rhinovirus, reovirus, respiratory syncytial, infectious rhinotracheitis, parainfluenza-3).

 Ill animals lose weight gain, lag behind in growth and development, most of them have to be taken for slaughter, incurring significant losses.

 Methods for the prevention of respiratory diseases using sulfanilamide, nitrofuran drugs (tilofur, farmazin, furazolidone), antibiotics (streptomycin, penicillin), administered subcutaneously, intramuscularly or aerosol are already known (1).

 The main disadvantage of these methods is their lack of effectiveness due to the lack of drugs with direct antiviral effects.

 There is also a method of preventing viral respiratory diseases of calves using antibiotics and immune preparations. The method involves multiple processing (2).

 The main disadvantage of this method is the low (up to 52%) efficiency. The disadvantage of using hyperimmune serums and serums of convalescents is also the short duration of passive immunity - 10 - 14 days.

 As the most preferred analogue, a method for the prevention of viral respiratory infections using vaccines is considered (3).

 However, vaccines do not create full immunity to viral diseases due to the low immunological reactivity of animals and the lack of time for calves to form a pronounced immunological immunity to respiratory infections.

 The purpose of the invention is to increase the effectiveness of vaccination.

 This goal is achieved by the use of a vaccine against viral respiratory infections in conjunction with immunomodulators - quacycline and isoquaterine.

 The available sources of information do not describe the use of quacicline and isoquaterine drugs with immunomodulatory effects in combination with vaccines for the prevention of viral respiratory infections. The mechanism of action on the animal organism is based on the activation of the T-cell immunity and the increase of non-specific defense factors. In the claimed technical solution, the introduction of immunomodulators together with the vaccine enhances the synthesis of antibodies, enhances immunopoiesis, the accumulation of virus-neutralizing antibodies, which leads to normalization of the animal’s immune homeostasis.

 The foregoing allows us to talk about the presence in the claimed technical solution of the "inventive step".

 The method is as follows.

 The calves are given a vaccine, for example, the BIVAC vaccine against parainfluenza-3 and infectious rhinotracheitis and additionally 12-24 hours before vaccination and twice with an interval of 5-7 days, quacicline in a dose of 4.0-5.0 ml or isoquaterine in a dose of 1, 0-1.5 ml.

 The essence of the method is illustrated by examples.

 Example 1. Justification of effectiveness.

A test of prophylactic efficacy was carried out on calves of 30 days of age under conditions of an economy that was long-term unsuccessful for respiratory diseases of a polyetiological nature. The calves were divided into 4 groups - 2 experimental groups, 2 groups - control. Calves of the 1st experimental group were injected with the BIVAC vaccine both 12 hours before vaccination and twice after vaccination with an interval of 5 days intramuscularly quacycline in a dose of 5.0 ml. The calves of the 2nd experimental group were injected with the BIVAC vaccine and 1.5 ml of isquaterine intramuscularly at a 5-day interval 12 hours before vaccination. The calves of the first control group were given the BIVAC vaccine. The calves of the 2nd control group were not injected. Before use, the BIVAC dry vaccine against parainfluenza-3 and infectious rhinotracheitis of cattle was dissolved with physiological saline per dose of the drug 2.0 ml of solution and was administered in accordance with the instructions for its use: 2.0 ml in the nasal cavity , 1.0 ml in each nostril, to a depth of 5-7 cm, without injuring the nasal mucosa. The preventive efficacy in the groups was 98.3%, 98.7%, 92.8% and 68.0%, respectively. To substantiate prophylactic efficacy, antibody titers were determined before and after vaccination. The results are presented in table. 1
As can be seen from the table. 1, the geometric mean titer of antibodies to the paragroup-3 virus in animals of the first experimental group after vaccination increased compared with the first control group by 42.3%, to the infectious rhinotracheitis virus - by 62.0%, and after 14 days after revaccination, these indicators increased by 182.8 and 87.6%, respectively. After vaccination in animals of the 2nd experimental group, the titers of antibodies to the parainfluenza-3 virus and infectious rhinotracheitis increased by 32.6 and 29.7%, respectively, compared with the 1st control group. In animals of the 2nd control group, antibody titers to parainfluenza-3 virus throughout the experiment remained within the range of 1: 4 - 1: 8, and to the infectious rhinotracheitis virus remained negative.

 Example 2. Confirmation of effectiveness.

 The test was carried out on 5 groups of clinically healthy calves of 30 days of age in the conditions of the economy, long-term unfavorable for viral respiratory diseases of calves. Calves of the 1st group were injected with the BIVAC vaccine, and 24 hours before vaccination and twice after vaccination with an interval of 7 days, intramuscularly quacycline in a dose of 5.0 ml. Calves of the 2nd group were injected with the BIVAC vaccine, and 1.5 hours a dose of isquaterine was intramuscularly injected intramuscularly at a dose of 1.5 ml 24 hours before vaccination and twice a day after vaccination. Group 3 calves were treated with sulfacin and quacycline. Group 4 calves were treated with sulfacin and isoquaterine. Group 5 calves (control) were given the BIVAC vaccine. Data on preventive efficacy are presented in table. 2.

 The obtained data confirmed the prophylactic effectiveness of the proposed method compared to the known ones, which indicates an increase in post-vaccination immunity, stimulation of antibody production during vaccination. The low prophylactic effectiveness of the antibiotic + immunomodulator complex is due to the absence of a direct antiviral effect in the drug, and the increase relative to the antibiotic (84.7%) is provided by an increase in the humoral and cellular factors of the body's resistance under the influence of the immunomodulator.

 Studies have shown that the proposed integrated use of a vaccine and immunomodulator (quacicline or isoquaterine) allows you to normalize your immune status in respiratory diseases; the creation of a full-fledged immune status eliminates secondary immunodeficiencies caused by infectious diseases, defective protein, vitamin and mineral nutrition, which contribute to the formation of protracted forms of the disease and reduce the effectiveness of specific prophylaxis.

Sources of information taken into account
1. Dragomir A.V. Prevention of respiratory diseases. Veterinary Medicine, 1980, N 9, p. 10-12.

 2. Suleymanov S. M. and Balutz P.I. Comprehensive prevention system for acute respiratory diseases of calves. Veterinary Medicine, 1988, N 2, p. 55-59.

 3. Guidance on the use of the live freeze-dried vaccine "BIVAC", approved. GUV Gosagroprom of the USSR, 04/09/08.

Claims (1)

 A method for the prevention of respiratory diseases of calves, including the introduction of a vaccine, characterized in that 12 to 24 hours before vaccination and twice with an interval of 5 to 7 days, quacicline is administered intramuscularly at a dose of 4.0-5.0 ml or isoquaterine at a dose of 1.0 - 1.5 ml

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