RU2251267C1 - Insecticidal composition for controlling gadffly's larvae - Google Patents

Abstract

FIELD: veterinary science, animal science, reindeer breeding.

SUBSTANCE: the suggested composition for controlling gadfly's larvae includes an active substance and filler. As an active substance it contains echinocea and hyaluronic acid, zinc acetate, sodium chloride and water at a certain ratio of components. The composition suggested is not toxic.

EFFECT: higher efficiency of pest control.

5 ex, 2 tbl

Description

The invention relates to the field of agriculture, in particular veterinary medicine, and can be used in reindeer and livestock farms to combat gadfly larvae.

Known insecticidal composition for controlling gadfly larvae, including the active substance and excipient, and ivermectin (22,23-dihydroavermectin B ₁ ) is used as the active substance, and an organic solvent is used as the excipient (Guidance on the use of Novomek against pathogens of parasitic animal diseases No. 13 -4-2 / 2124 of 08/07/2000, approved by the Department of Veterinary Medicine of the Ministry of Agriculture of the Russian Federation). However, the disadvantage of the known agent is its high toxicity to warm-blooded animals (it cannot be used on dairy animals due to prolonged excretion with milk - in the animal organism the known agent remains for 28-45 days, which also limits the period of slaughter / A.A. Nepoklonov Improvement of herds of cattle from hypodermatosis g. Veterinary Medicine, No. 11, 2002, p.3) and relatively low specific activity. In addition, gadfly larvae for pupation do not fall out of the animal’s body at the same time and invade animals from July to September. And this means that the larvae from the first winged gadfly by September, when the treatments (early chemotherapy) are carried out, will make fistulas in the skin of the animals, cover with a capsule and, thus, will not be exposed to the drug, which means that it is not initially 100% effective.

The task of the invention is to increase the effectiveness of the composition.

The technical result is achieved in an insecticidal composition for controlling gadfly larvae, which includes the active substance and filler, in that it contains extract of echinocia and hyaluronic acid as the active substance, and ascorbic acid, zinc acetate, sodium chloride and water as a filler, in the following ratio components, in wt.%:

Echinacea Extract - 4.0-12.0

Ascorbic acid - 5.0-15.0

Hyaluronic acid - 5.0-10.0

Zinc acetate - 0.9-2.0

Sodium Chloride - 0.5-2.0

Water is the rest.

Echinacea extract - is used in the form of tincture for recurrent infectious and inflammatory diseases of the respiratory tract (Vidal Handbook - Medicinal Products in Russia, B-631-632, 2000).

Ascorbic acid is involved in redox processes, carbohydrate metabolism, blood coagulation, in tissue regeneration, etc. (Mashkovsky M.D. Medicines, part 2, publishing house “Medicine”, M., 1972, p. 28-30.

Hyaluronic acid - a mucopolysaccharide, is part of the tissues and fluids of the animal body (the vitreous body of the eye, skin, connective tissue, joint fluid, umbilical cord). (T.T. Berezov, B.F. Korovkin. Book: Biological chemistry, M., publishing house “Medicine”, p. 715-726, 1982).

Zinc acetate - Zn (O ₂ C ₂ H ₃ ) ₂ . An aqueous solution of zinc acetate is used as an antifungal agent in medicine (“Chemical Encyclopedic Dictionary”, publishing house “Soviet Encyclopedia”, M., 1983, p. 792 / edited by I.L. Knutyants /).

In the patent and scientific and technical literature, technical solutions are not known containing features similar to those declared, i.e. the proposal meets the criterion of “novelty”.

All components of the composition are manufactured by domestic industry, i.e. the proposal is “industrially applicable”.

We first found that the use of hyaluronic acid in certain combinations with zinc increases the efficiency of protecting mammalian animals from gadfly larvae / up to 100% /, i.e. the proposal meets the criterion of "inventive step".

We found that an important factor of the “movement” of gadfly larvae inside the animal’s body is strepto-staphylococcal hyaluronidase secreted by the larvae. Only thanks to this enzyme is the migration of larvae of stage 1 gadflies. Therefore, to block the action of the enzyme hyaluronidase, we introduce into the proposed composition the natural substrate of this enzyme - hyaluronic acid. Hyaluronic acid increases viscosity and blocks hyaluronidase. Also blocks the hyaluronidase extract of echinocia, increasing the viscosity of the main substance. Ascorbic acid, increasing the natural immunity of the animal’s body, stimulates the formation of its own hyaluronic acid, which also increases the blockade of hyaluronidase. Zinc acetate in the claimed composition has an anti-inflammatory effect when stopping (death) of migrating larvae of gadflies: subcutaneous - in the fascia of muscles and subcutaneous tissue; nasopharyngeal - in the mucus of the nasal passages. Without breaking their way in viscous hyaluronic acid, the larvae die or begin to become covered with a capsule. As our studies have shown, it is the claimed component ratios that are effectively absorbed by the animal’s body, combining with each other, exerting a detrimental effect on the gadfly larvae.

The invention is illustrated by the following examples.

Get the claimed composition as follows.

Example 1. Get the composition 1 by mixing 4.0 kg of extract of echinocia, 5.0 kg of ascorbic acid, 5.0 kg of hyaluronic acid, 0.9 kg of zinc acetate, 0.5 kg of sodium chloride and 84.6 kg of water, t .e. get composition 1 containing components in the following ratio, in wt.%:

Echinacea Extract - 4.0

Ascorbic acid - 5.0

Hyaluronic Acid - 5.0

Zinc Acetate - 0.9

Sodium Chloride - 0.5

Water is the rest.

Example 2. Get the composition 1 by mixing 8.0 kg of extract of echinocia, 10.0 kg of ascorbic acid, 7.5 kg of hyaluronic acid, 1.4 kg of zinc acetate, 1.25 kg of sodium chloride and 71.85 kg of water, t .e. get composition 2 containing components in the following ratio, in wt.%:

Echinacea Extract - 8.0

Ascorbic acid - 10.0

Hyaluronic Acid - 7.5

Zinc Acetate - 1.4

Sodium Chloride - 1.25

Water is the rest.

Example 3. Get the composition 1 by mixing 12.0 kg of extract of echinocia, 15.0 kg of ascorbic acid, 10.0 kg of hyaluronic acid, 2.0 kg of zinc acetate, 2.0 kg of sodium chloride and 59.0 kg of water, t .e. get composition 2 containing components in the following ratio, in wt.%:

Echinacea Extract - 8.0

Ascorbic acid - 10.0

Hyaluronic Acid - 10.0

Zinc Acetate - 2.0

Sodium Chloride - 2.0

Water is the rest.

Example 4. Use compositions 1-3, obtained according to examples 1-3, as follows. In each experimental and control groups, there were 25 reindeer, selected on the basis of analogues. Both experimental and control groups of animals were injected intramuscularly.

In group (I), the proposed composition 1 was administered at a dose of 12 mg / kg of the animal’s body weight (reindeer).

In group (II), the proposed composition 2 was administered at a dose of 15 mg / kg of the animal’s body.

In group (III), the proposed composition 3 was administered at a dose of 13 mg / kg of the animal’s body.

In group (IV) / control 1 /, Novomek was administered at a dose of 15 mg / kg of the animal’s body.

In group (V) / control 2 / - the animals were untreated.

Before and after the treatment, the abundance and state of gadfly larvae in animals were recorded.

The processing results of the experimental and control groups of animals with the developed composition and prototype are presented in table 1.

Table 1 Test Composition Death of larvae Subcutaneous gadfly Nasopharyngeal gadfly EE,% IE,% EE,% IE,% 1 98.2 ± 0.8 p * <0.001 98.7 ± 0.9 p <0.001 95.5 ± 0.7 p <0.001 96.1 ± 0.9 p <0.001 2 98.8 ± 0.7 p <0.001 99.0 ± 1.1 p <0.001 97.3 ± 0.6 p <0.001 97.9 ± 0.8 p <0.001 3 99.6 ± 0.9 p <0.001 99.8 ± 0.8 p <0.001 98.6 ± 0.9 p <0.001 99.1 ± 0.8 p <0.001 Control 1 92.4 ± 1.3 93.7 ± 1.1 86.1 ± 1.3 88.9 ± 1.7 Control 2 (number of larvae / animal) 164-207 136-153 Note to the table: EE - extensibility (percentage of damage by larvae to the total number of animals, IE - intensity (percentage of intensity of damage per animal); * - statistical confidence indicator “p” is calculated in relation to control 1.

Example 4. Use compositions 1-3, obtained according to examples 1-3, as follows. In each experimental and control groups there were 25 heads of cattle, selected on the basis of analogues. Both experimental and control groups of animals were injected intramuscularly.

In group (I), the proposed composition 1 was administered at a dose of 0.2 mg / kg body weight of the animal (cattle).

In group (II), the proposed composition 2 was administered at a dose of 0.25 mg / kg of the animal’s body weight.

In group (III), the proposed composition 3 was administered at a dose of 0.23 mg / kg of the animal’s body weight.

In group (IV) / control I / was administered at a dose of 0.25 mg per 1 animal composition “Novomek”.

In group (V) / control 2 / - the animals were untreated.

Before and after treatment, the abundance and condition of gadfly larvae in animals was recorded.

The processing results of the experimental and control groups of animals with the developed composition and prototype are presented in table 2.

table 2 Test Composition Death of larvae Subcutaneous gadfly EE,% IE,% 1 97.3 ± 0.8 p * <0.001 98.4 ± 0.7 p <0.001 2 98.8 ± 1.1 p <0.001 99.3 ± 0.9 p <0.001 3 99.4 ± 0.9 p <0.001 99.8 ± 0.6 p <0.001 Control 1 92.7 ± 1.5 93.1 ± 1.2 Control 2 (number of larvae / animal) 42-78 Note to the table: EE - extensibility (percentage of damage by larvae to the total number of animals, IE - intensity (percentage of intensity of damage per animal); * - statistical confidence indicator “p” is calculated in relation to control 1.

Thus, the claimed composition allows to increase the effectiveness of the means of combating gadfly larvae on animals by 6-12.5% (up to 98-100%). In addition, the proposed composition is not toxic to warm-blooded animals and can be used in the milking herd and does not require exposure of animals before slaughter, as when using a known composition.

Claims (1)

An insecticidal composition for controlling gadfly larvae, comprising the active substance and an excipient, characterized in that the active substance contains echinacea extract and hyaluronic acid, and ascorbic acid, zinc acetate, sodium chloride and water as a filler in the following ratio of components, wt .%: Echinacea Extract 4.0-12.0 Ascorbic acid 5.0-15.0 Hyaluronic Acid 5.0-10.0 Zinc acetate 0.9-2.0 Sodium Chloride 0.5-2.0 Water rest