RU2075974C1 - Preparation for aerosol treatment and prophylaxis of respiratory sickness in animals - Google Patents

Abstract

FIELD: veterinary science. SUBSTANCE: preparation containing iodine, potassium (or sodium) iodide, triethylene glycol has additionally hydrochloric acid, potassium (sodium) iodate or potassium (sodium) iodate at the following ratio of components, wt.-%: iodine 2.0-4.5; potassium iodide 0.7-0.9; potassium iodate or potassium iodate 1.3-1.6; hydrochloric acid 8-9, and triethylene glycol - the rest. Preparation can be used for aerosol treatment and prophylaxis of respiratory sickness in poultry and agriculture animals. EFFECT: enhanced effectiveness of treatment and prophylaxis. 1 tbl

Description

 The invention relates to the field of veterinary medicine, in particular to preparations for aerosol treatment and prevention of respiratory diseases of animals, mainly aspergillosis, infectious laryngotracheitis and bird bronchitis and calf bronchopneumonia.

 Respiratory diseases in livestock, especially in poultry farms, are very widespread and cause enormous economic damage. The difficulty of the fight lies in the fact that pathogens are found not only in the affected respiratory organs of patients, but also in the air of rooms where, for example, birds contain up to 20 or more thousand heads. Here, the only effective control method is aerosol, which allows you to process all the livestock and airspace of a room in a matter of minutes. But this requires such drugs that would simultaneously effectively sanitize (disinfect) both indoor air and the respiratory tract of animals in an aerosol. This would make it possible to simultaneously heal (treat) affected respiratory organs and prevent the spread of infection throughout the household. It is clear that antibiotics and sulfonamides do not solve this problem. Recommended for the control of respiratory diseases in the form of aerosols are triethylene glycol, lactic acid, chlorine preparations, etc. (Veterinary legislation. Volume 3, Moscow, 1981, p. 489).

 However, they all disinfect only air, but do not sanitize the airways, and therefore are effective, to one degree or another, at the prophylactic stage, but are not effective at the treatment stage.

 The closest to the claimed iodotriethylene glycol is a preparation for aerosol treatment and prevention of respiratory diseases of birds (Sokolov V.F. Antimicrobial agents in poultry. M. 1984, p. 159-160) of the following composition, wt.

Iodine 10.0-30.0
Potassium iodide 2.0-18.0
Lactic acid 1.0-3.0
Triethylene glycol up to 100.0
This drug has been specifically developed for aerosol use in order to solve the above problem. The industrial production (TU 46-22-160-77) was mastered and is widely used in production. Its active substance iodine is active against all pathogens of respiratory diseases, but it is especially active in the combination against aspergillosis, infectious laryngotracheitis, infectious bronchitis of birds and calf bronchopneumonia. The triethylene glycol component itself in aerosol form is a disinfectant in the air and thereby enhances the disinfecting effect of iodine. Moreover, being an oily substance, it creates a stable aerosol fog, eliminating the crystallization of iodine in the air when sprayed and in the respiratory tract and thereby preserves its antimicrobial activity. In addition, triethylene glycol has the ability to quickly penetrate into the mucous accumulations of the respiratory tract with iodine dissolved in it and with a great effect have a sanitizing effect.

 However, for all its positive qualities, its disadvantage is as follows. During aerosol spraying, iodine, as an active substance, in the indoor air comes into contact with gaseous ammonia, the concentrations of which are always present in livestock buildings, and is partially inactivated by it in a humid aerosol environment. The same thing continues in the respiratory tract of the animal. As a result, the therapeutic and prophylactic effectiveness of the drug is reduced, especially where gas contamination with ammonia is often higher than permissible norms. The lactic acid, which is part of the preparation, does not have time to neutralize alkaline ammonia, since iodine more actively and more rapidly enters into a chemical compound with ammonia. As a result, there is a need to increase the sprayed dose of the drug by 2-3 times. But at the same time, the cost of the drug consumption increases by the same amount of time the spraying of the increased doses increases, which actually goes beyond the permissible spraying conditions in tightly closed rooms with ventilation turned off. In addition, iodine and its companion potassium iodide (sodium) are very expensive and are often scarce. All this forced to search for such a composition of the drug, which would not only protect iodine from inactivation in alkaline media, but would also increase the disinfection-sanitizing activity at its minimum concentrations in the drug.

 The purpose of the invention is to increase the therapeutic and prophylactic effectiveness of the drug when used in aerosol forms against respiratory diseases of animals and to reduce its cost.

 This is achieved by the fact that the drug, in addition to iodine, potassium iodide (sodium), triethylene glycol, contains a lactic acid substitute hydrochloric acid and additionally potassium iodide (sodium) or potassium iodate (sodium) in the following ratio, wt.

Iodine 2.0-4.5
Potassium iodide 0.7-0.9
Potassium iodate or potassium iodate 1.3-1.6
Hydrochloric acid 8.0-9.0
Triethylene glycol up to 100.0
In this case, hydrochloric acid in combination with iodine salts increases the solubility of iodine in triethylene glycol, preventing its crystallization in any dilution with water, while the prototype iodotriethylene glycol is diluted with water only in a ratio of 1: 1 1: 2. And also increases the antimicrobial and general sanitizing effect of the drug, which can significantly reduce the concentration of expensive iodine and potassium iodide in it, compared with the prototype, and thereby reduce the cost of the drug.

 A decrease in the lower values of the components significantly reduces the effectiveness of the drug, and an increase in the upper values of the components makes the preparation more expensive than increases the efficiency.

 The most optimal ratio of the starting components is as follows (wt.): Iodine 4.0; potassium iodide 0.8; potassium iodate or potassium iodate 1.4; hydrochloric acid 8.5; triethylene glycol rest.

 The technology and modes of use of the drug are identical with the prototype (as in the prototype). The drug for aerosol treatments will be used where respiratory diseases are widespread: in poultry farms, poultry farms of all types of chicken, duck, goose birds; on complexes and farms for growing calves, lambs; in pig farms in piglets and pig farms.

 The new drug is a homogeneous liquid of an oily consistency, dark red in color, with an iodine odor, which dissolves in water in all ratios. When finely dispersed, it forms a dense reddish-brown fog.

The drug can be sprayed in pure form or diluted with water in a ratio of 1: 1. Sprayable doses of the new drug are the same as those of the prototype. Based on the pure drug for all respiratory diseases, they are 0.7-1.0 g / m ³ . Aerosol treatments are carried out once a day for 2-3 days in a row (with aspergillosis 4-5 days) and after a 2-3-day break, depending on the course of the disease and the epizootic situation, the treatments are repeated. The technology and treatment regimes for all animal species, including birds, are the same; the age difference does not play a significant role; everything is determined by the volume of respiration of the animal itself.

 When using a new drug against respiratory diseases, compared with the prototype (with the same modes and technology of aerosol treatments), the safety of animals increases by 1.1-1.3 times, and the cost of the drug is reduced by 3 times. The results of comparative tests are presented in table 1, based on 10,000 processed birds. The average data of three experiments performed on an infected livestock with aspergillosis, infectious laryngotracheitis, infectious bronchitis are presented. The economic effect is determined in the prices for the period of experiments.

 The results of comparative tests of a new drug and prototype in the form of aerosols against aspergillosis, infectious laryngotracheitis, infectious bronchitis of birds (comparative data of 3 experiments, per 10,000 treated heads).

 The tests were carried out on a meat breed of chicken broiler birds, which most often fall ill with these diseases. Preventive treatments were carried out from 10-12 days old, and treatment from 18-20 days of age (the period of manifestation of obvious signs of the disease) and up to 43-46 days of age. Similar tests were carried out on calves with bronchitis and bronchopneumonia, where almost the same economic effect was obtained as on broiler birds. For both types of tests, there are acts of production tests confirming economic efficiency.

 Laboratory tests have shown the promise of the new drug and for other diseases of different animal species it is effective against pathogens of colibacteriosis that affects all types of birds (chickens, ducks, geese), calves, piglets, lambs, and against pathogens of mycoplasmosis, bird pullorosis, and against calf rhinotracheitis pathogens. At the moment, we don’t have the actual results of production tests for these diseases.

Claims (1)

 A preparation for the aerosol treatment and prevention of respiratory diseases of animals, including iodine, potassium iodide or sodium iodide, triethylene glycol, characterized in that it additionally contains hydrochloric acid, potassium iodate, or sodium iodate, or potassium iodate, or sodium iodate in the following ratio of components, wt. Iodine 2.0 4.5
Potassium iodide or sodium iodide 0.7 0.9
Potassium iodate, or sodium iodate, or potassium iodide, or sodium iodate 1.3 1.6
Hydrochloric acid 8 9
Triethylene glycol

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