RU2446812C1 - Method for making drone larva powder for increasing animal's body resistance and based powder for treating balantidiasis and salmonellosis - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to veterinary science. A method involves collection and homogenisation of drone larvae. Before the homogenization, drone larvae are frozen at temperature (-4; -5°C) for 12-14 hours, then thawed for 3-5 minutes to +18°C and packaged. Additionally, before the homogenisation and after the first freezing and thawing, the second freezing follows at temperature (-18)-(-20)°C for 60-72 hours accompanied by thawing at room temperature, drying at warm air flow at temperature (+55)-(+60)°C to remove liquid from a larva surface completely, to dry completely and sterilise at temperature (+80)-(+85)°C for 3.5-4.0 hours. Dry drone larvae are homogenised for 1-2 minutes, then packaged in vacuum packings. The prepared drone larva powder is added with a tylosin powder and a dimetridazole powder in the following proportions, g/kg. tylosin powder - 0.090-0.100, dimetridazole powder - 0.200-0.225, drone larva powder - the rest. The produced preparation can be stored up to two years.

EFFECT: group of inventions improves the biochemical blood values in animals, increases red blood cell count and total resistance.

3 cl, 4 tbl, 4 ex

Description

FIELD OF THE INVENTION

The invention relates to veterinary medicine, in particular to a method for producing powder from drones larvae to increase the resistance of animals and powder based on it for the treatment of balantidiosis and salmonellosis, and can be used to increase the general and specific stimulation of the animal organism in the treatment of balantidiosis and salmonellosis.

State of the art

There is a method of preparation of the Bilar powder from the biomass of drone, uterine larvae and larvae of working bees by freeze-drying, while the Bilar powder is non-toxic, non-pathogenic, does not cause side effects and allergies (see "Biological and nutritional value of powders "BILAR", A.I. Cherkasov, I.A. Prokhod, S.K. Melnikov, journal Beekeeping, No. 2, 2005, p. 58-59).

The disadvantage of this method is the high cost of obtaining a therapeutic product.

A known method of producing an alcoholic extract of the larvae of the large wax moth, including the collection of larvae, their homogenization, with the addition of a stabilizing medium (see "New life of the old medicine", A. K. Rachkov, M. N. Konrashova, N. A. Spiridonov, journal Beekeeping No. 5, 2000, p. 58-59).

The disadvantage of this method is the short storage time of the drug.

The closest in technical essence and the achieved positive effect and accepted by the authors for the prototype is a method of preparing a preparation for stimulating the organism of animals from drones larvae, including collecting drones larvae, homogenizing them with the addition of a stabilizing medium, and drones are frozen before homogenization at a temperature of -4 ; -5 ° C) for 12-14 hours, then thawed for 3-5 minutes to + 18 ° C, while a 5% glucose solution in a ratio of 1:10 s is added as a stabilizing medium a 5% solution of chloroform or 2% salicylic acid, followed by sublimation, moreover, sublimation is carried out in a vacuum chamber at a temperature of shelf heating to 30-45 ° С, while when the drug reaches a temperature of 20-22 ° С, the shelf temperature is reduced to 25 ° С and produce drying out within 22-24 hours (see US Pat. RU No. 2258522, IPC A61K 35/64, A61P 37/04, publ. 20.08.2005).

The disadvantage of this method of obtaining the drug is its low shelf life and the effectiveness of increasing the general and specific stimulation of the animal organism in the treatment of balantidiosis and salmonellosis.

Disclosure of invention

The objective of the invention is to develop a method of producing a powder from drones larvae to increase the resistance of animals and powder based on it for the treatment of balantidiosis and salmonellosis, which has a long shelf life, increase the overall resistance of the body, increase the number of red blood cells, hemoglobin and biochemical parameters of animal blood in the treatment of balantidiosis and salmonellosis, as well as obtaining a cheaper and more affordable drug in powder form.

The technical result that can be achieved using the present invention is reduced to long-term storage of up to 2 years, an increase in overall resistance, an increase in the number of red blood cells, hemoglobin and biochemical parameters of animal blood, and the production of a cheaper and more affordable drug.

The technical result is achieved using the method of obtaining a powder to increase the resistance of the animal organism, including the collection of drones larvae, their homogenization, while before homogenizing the drones larvae are frozen at a temperature of (-4; -5 ° C) for 12-14 hours, then thawed 3-5 minutes to + 18 ° C and packaged, with additionally, before homogenization, after the first freezing and thawing, a second freezing is carried out at a temperature of (-18) - (- 20) ° C for 60-72 hours, followed by thawing at room temperaturetemperature, drying under a stream of warm air at a temperature of (+55) - (+ 60) ° С until the liquid completely disappears from the surface of the larvae, drying and disinfection at a temperature of (+80) - (+ 85) ° С for 3.5- 4.0 hours, while the homogenization of dry drones larvae is carried out for 1-2 minutes, and the packaging is carried out in vacuum packaging.

In the method, the collection of drones larvae is carried out at 10-12 days of age together with drone milk.

The technical result is achieved using a powder for the treatment of animal balantidiosis and salmonellosis, including a powder of drones larvae of 10-12 days of age together with drone milk, while it additionally contains tylosin and dimetridazole powder in the following ratio of components, g / kg:

tylosin powder 0.090-0.010 dimetridazole powder 0,200-0,225 drones larvae powder rest

Thus, the introduction of a method of producing powder from drones larvae to increase the resistance of animals to repeated freezing makes it possible to obtain a more homogeneous structure with a smaller particle size during homogenization, from which powder is then obtained, the latter being better absorbed and excreted by the animal body in a short time and the addition of tylosin and dimetridazole powder to the powder from drones larvae, together, makes it possible to reduce losses in gains in the treatment of balantidiosis and salmonellosis, and yes ie high therapeutic effect.

The essence of the method of producing powder from drones larvae to increase the resistance of animals and powder based on it for the treatment of balantidiosis and salmonellosis is as follows.

Drone larvae are collected at 10-12 days of age together with drone milk, then they are homogenized, and before homogenization, drones larvae are frozen at a temperature of (-4; -5 ° C) for 12-14 hours, then thawed for 3 -5 minutes to + 18 ° C and packaged, in addition, before homogenization, after the first freezing and thawing, a second freezing is carried out at a temperature of (-18) - (- 20) ° C for 60-72 hours, followed by thawing at room temperature, drying under a stream of warm air at a temperature of (+5 5) - (+ 60) ° С until the liquid completely disappears from the surface of the larvae, drying and disinfecting at a temperature of (+80) - (+ 85) ° С for 3.5-4.0 hours, while homogenizing dry drones larvae lead within 1-2 minutes, and the packaging is carried out in vacuum packaging.

The powder of tylosin and dimetridazole is added and mixed to the obtained powder from drones larvae of 10-12 days of age, together with drone milk, in the following ratio of components, g / kg:

tylosin powder 0,090-0,100 dimetridazole powder 0,200-0,225 drones larvae powder rest

The implementation of the invention

Examples of a specific implementation of the method of producing powder from drones larvae to increase the resistance of the animal organism and powder based on it for the treatment of animal balantidiosis and salmonellosis.

Example 1. In an apiary, 10-12 days old drones larvae are collected together with drone milk, then, before homogenization, they are frozen at -4 ° C, kept for 12 hours and thawed for 3-5 minutes at room temperature (+18 -20 ° C), then after thawing before homogenization, drones larvae are again frozen for 24 hours (-5 ° C) and thawed again for 8-10 hours, then they are dried under a stream of warm air at a temperature of 25-30 ° C and drying in a thermostat at a temperature of 120-125 ° C for 48-50 hours, When this dry material homogenized for 30-60 seconds.

Result: a homogeneous powder of red-brown color is seeded, seeded with microflora, with a burning smell, a specific unpleasant odor and poorly wettable.

To obtain a powder for the treatment of animal balantidiosis and salmonellosis, on the basis of a method for producing powder from drones larvae, to increase the resistance of animals, the powder is taken from drones larvae of 10-12 days of age together with drone milk and tylosin and dimetridazole powder is additionally added to it in the following ratio of components g / kg:

tylosin powder 0,050 dimetridazole powder 0.150 drones larvae powder rest

Result: a lot of powder from drones was spent to create a therapeutic dose in the animal’s body, and with the required dose of powder from drones, the therapeutic dose of antibiotics was not reached.

Example 2. Carried out analogously to example 1, but before homogenization, the larvae of drones are frozen at -5 ° C, kept for 14 hours and thawed for 3-5 minutes at room temperature (+ 18-20 ° C), then after thawing before homogenization drones larvae are re-frozen for 60 hours (-18 ° C) and thawed again for 4.0-5.0 hours, then dried under a stream of warm air at 55 ° C until the liquid completely disappears from the surface of the larvae and dried thermostat at a temperature of 80 ° C for 3.5-4.0 hours owls, while the dry material is homogenized for 30-60 s.

Result: a homogeneous powder of red-brown color is obtained, without microflora, with a pleasant specific smell and well wettable.

The preparation of the powder for the treatment of animal balantidiosis and salmonellosis based on the method of producing powder from drones to increase the resistance of animals is carried out analogously to example 1, but they take the powder from drones larvae of 10-12 days old together with drone milk and additionally add tylosin powder and dimetridazole in the following ratio of components, g / kg:

tylosin powder 0.09 dimetridazole powder 0.20 drones larvae powder rest

Result: in the task of the powder, the necessary concentrations of all active substances were achieved in the right proportions. All the necessary therapeutic effects were clearly manifested.

Example 3. Carried out analogously to example 1, but the secondary freezing is carried out for 72 hours at a temperature (-20 ° C), then thawed for 4.0-5.0 hours, carry out drying under a stream of warm air at a temperature of 60 ° C to complete disappearance of liquid from the surface of the larvae and drying in a thermostat at a temperature of 85 ° C for 3.5-4.0 hours, while the dry material is homogenized for 30-60 s.

Result: a homogeneous powder of red-brown color is obtained, without microflora, with a pleasant specific smell and well wettable.

The preparation of the powder for the treatment of animal balantidiosis and salmonellosis based on the method of producing powder from drones to increase the resistance of animals is carried out analogously to example 1, but they take the powder from drones larvae of 10-12 days old together with drone milk and additionally add tylosin powder and dimetridazole in the following ratio of components, g / kg:

tylosin powder 0,100 dimetridazole powder 0.225 drones larvae powder rest

Result: in the task of the powder, the necessary concentrations of all active substances were achieved in the right proportions. All the necessary therapeutic effects were clearly manifested.

Example 4. Carried out analogously to example 1, but the secondary freezing is carried out for 75 hours at a temperature (-20 ° C), then thawed for 4-5 hours, drying is carried out under a stream of warm air at a temperature of 65 ° C until the liquid disappears completely the surface of the larvae and drying in a thermostat at a temperature of 90 ° C for 3.5-4.0 hours, while the dry material is homogenized for 30-60 s.

Result: a homogeneous powder of red-brown color is obtained, without microflora, with a pleasant specific smell and well wettable.

The preparation of the powder for the treatment of animal balantidiosis and salmonellosis based on the method of producing powder from drones to increase the resistance of animals is carried out analogously to example 1, but they take the powder from drones larvae of 10-12 days old together with drone milk and additionally add tylosin powder and dimetridazole in the following ratio of components, g / kg:

tylosin powder 0,200 dimetridazole powder 0,300 drones larvae powder rest

Result: in the task of the powder, the necessary concentrations of all active substances were achieved in the right proportions. The therapeutic effects in digital terms were manifested similarly to examples 2 and 3, however, there was an increase in the cost of the finished drug - powder.

Thus, the most optimal is the method of obtaining powder from drones larvae to increase the resistance of animals and a powder based on it for the treatment of balantidiosis and salmonellosis according to examples 2 and 3.

Table 1 gives the chemical composition of the raw material and the finished drug powder, as well as its toxicity. As studies of the chemical composition show, there is no loss of amino acids and BEV in the finished powder after preparation. The powder is not toxic.

Amino acids are indispensable structural elements of the protein of organs and tissues of an animal, while individual amino acids have specific functions of regulators of the normal state of the body and its metabolism, and therefore are necessary for the formation of "protective" substances (antibodies, etc.). Amino acids are part of the secretions of the glands of internal and external secretion, in particular hormones, enzymes and other metabolic regulators and contribute to the regulation of osmotic pressure and reactive characteristics of cells and tissues, help regulate the body's water balance, participate in the transport of numerous groups of substances - lipids, hormones, mineral substances, vitamins, metabolic waste, etc. (see E. Crasemann, 1995; A.V. Arkhipov, L.V. Toporova, 1984; N.G. Grigoriev et al., 1989; I.S. Popov et al., 1975).

Table 1 The chemical composition of the raw material and the finished product, toxicity Indicators Drones larvae raw Finished product Moisture(%) 78.9 7.74 Crude protein (%) 7.78 33.98 Crude Fat (%) 4.43 19.36 BEV (%) 8.15 35.71 Aminokis-
lots,% Aspartic acid 0.682 2,983 Threonine 0.291 1,271 Series 0,308 1,348 Glutamine 1,076 4,708 Proline 0.532 2,327 Glycine 0.323 1,415 Alanya 0.392 1,714 Valine 0.395 1,728 Isoleucine 0.383 1,674 Leucine 0.592 2,588 Tyrosine 0.369 1,614 Phenylalanine 0.322 1,408 Histidine 0.229 1.002 Lysine 0.266 1,165 Arginine 0.393 1,718 Cystine 0.135 0.589 Methionine 0.255 1; 116 Toxicity Sample with water extract Nontoxic Nontoxic Sample with acetone extract Nontoxic Nontoxic

Aspartic acid - is present in the brain and enhances neurological activity, also helps to convert carbohydrates into muscle energy, while it builds immunoglobulins and antibodies, reduces ammonia levels after physical exertion, helps the liver remove residual products of drugs and chemicals from the body, improves performance and plays an important role in the absorption of certain minerals: calcium asparagine, potassium asparagine and magnesium asparagine.

Threonine - is an important component of many proteins that are in the body. It is necessary for the formation of protein of tooth enamel, elastin and collagen, while taking threonine leads to a weakening of muscle tone, it also neutralizes toxins, helps prevent the accumulation of fat in the liver and is an important component of collagen, and together with cysteine, lysine, alanine and aspartic acid strengthens the immune system. Threonine is necessary for the health of the thymus gland, which largely determines the state of the body's immune system. Threonine also acts as a lipotropic substance that controls the accumulation of fat in the liver, and in the case of a deficiency of choline, another amino acid, this function of threonine becomes more important.

Serine is necessary for the normal metabolism of fats and fatty acids, the growth of muscle tissue and the maintenance of a normal state of the immune system.

Glutamic acid is an amino acid necessary for the profile of muscle loss, as well as in the treatment of arthritis and connective tissue diseases. Glutamic acid maintains a normal acid-base balance in the body.

Proline is the main component of collagen, which in combination with vitamin C helps strengthen connective tissue and heal wounds, is important for the restoration and good functioning of the cartilage surfaces of joints, strengthens tendons and ligaments, and is involved in the formation of biologically important peptides. During the oxidation of proline and lysine radicals, two amino acids are formed inside the collagen molecule that are practically not found in other proteins - oxyproline and oxylysine, which are responsible for the strength of collagen. Violation of the normal course of the oxidation process leads to the formation of loose collagen, which leads to a decrease in the strength of the skin, ligaments, and cartilage.

Glycine is a synthesized amino acid. It slows down the degeneration of muscle tissue, as it is a source of creatine, which is necessary for the restoration of damaged tissues, for the central nervous system. An adequate amount of glycine in the body provides it with energy, lowers the acidity of the gastric environment, and enhances bone growth.

Alanine is present in the muscles and is one of several amino acids that are converted into glucose, which the body uses as an energy source, participates in the production of lymphocytes, regulates blood sugar and adrenal glands, and is the main component of connective tissues.

The main mediator in the glucose-alanine cycle, which allows muscles and other tissues to receive energy from amino acids, strengthens the immune system.

Valine, isoleucine and leucine are of particular importance to the skin, muscles, bones and ligaments. Acting together, these amino acids protect muscle tissue from destruction, being a building material for the synthesis of proteins of the musculoskeletal system, as well as a source of energy, especially necessary in the recovery period after injuries and operations.

Tyrosine is a good treatment for depression and anxiety, tyrosine is also important for metabolic processes. The body produces it from another amino acid - phenylalanine, as an acid - an antidepressant, it is useful to reduce anxiety and increase overall tone. This amino acid has a moderate antioxidant effect, binds free radicals (unstable molecules), which can harm cells and tissues.

Phenylalanine is an essential amino acid, participates in the synthesis of collagen and connective tissue, improves the functioning of the circulatory network, and promotes the formation of insulin.

Histidine is an essential amino acid. It promotes the growth and restoration of tissues, is part of the myelin sheaths that protect nerve cells, is necessary for the formation of red and white blood cells, protects the body from radiation, promotes the excretion of heavy metals, is necessary to maintain immunity.

Lysine is an essential amino acid. It is a component of almost all proteins, it is necessary for normal nitrogen metabolism and growth, it helps to assimilate calcium and maintain normal nitrogen metabolism in adults, it is involved in the creation of antibodies, hormones, enzymes, collagen formation and tissue repair.

Arginine is an essential amino acid, an essential component of muscle tissue metabolism, helps maintain optimal nitrogen balance in the body, has the ability to slow down tumor growth, stimulates the immune system, improves skin condition, participates in the restoration of cartilage surfaces of joints, strengthens ligaments and heart muscle. Arginine is called the "substance of youth", because he "manages" the synthesis of many hormones and stimulates the production of insulin. When arginine is not delivered, the body rapidly ages.

Cystine is an important amino acid containing sulfur, while cystine is a powerful antioxidant that the liver uses to neutralize destructive free radicals, strengthens connective tissues and enhances antioxidant processes in the body, promotes healing processes, stimulates the activity of white blood cells, and helps reduce pain during inflammation. , a very important acid for the skin and hair, this amino acid is also necessary to protect against chemical toxins. Cystine plays an important role in the daily work of the body to restore liver cells.

Methionine is an essential amino acid necessary for normalizing liver function, is involved in the processing of fats, reduces muscle weakness, reduces the severity of chemical allergies, inactivates free radicals, is involved in the synthesis of nucleic acids, collagen and many other proteins, and prevents hair loss.

The results of the study of the powder for the treatment of balantidiosis and salmonellosis of animals from drone larvae in laboratory rats are given in tables 2 and 3.

Laboratory experiments

The drug is a powder from drones larvae obtained according to the invention, was tested on laboratory rats at a dose of 0.75 g / kg body weight. The drug was given orally 2 times a day for 12 days. Animals are weighed before and after the experiment; hematological parameters of rat blood are studied immediately after the experiment on day 14. To control the result, a control group of animals is used, the number of red blood cells, hemoglobin, platelets, white blood cells, hematocrit, the average volume of the red blood cell, and the average hemoglobin content in the red blood cell are determined in the blood.

The research results are presented in tables 2,3.

table 2 The dynamics of the body weight of laboratory rats Group number The number of animals in the group (goals) The drug dose (mg / kg) Doses (mg / kg) The average body weight of animals, (g) to experience after experience 1 experience 3 Drones Larvae 750 253 293 2 control 3 - - 273 280

Table 3 The average hematological parameters in rats Hematological indicators Groups experience the control Hemoglobin, g / l 136 85 Erythrocytes, m / ul 7.19 4.97 Hematocrit% 41.76 38 White blood cells, k / ul 3.72 6.7 The average hemoglobin content in the red blood cell, pg 18.9 17.1 The average volume of the red blood cell, fl 58.2 55.2 Platelets 961 691

Analyzing the results, it should be noted that in the experimental group, body weight increased by 13.7%, and in the control group only by 2.5%. Also in the experimental group, compared with the control group, increased: the amount of hemoglobin by 37.5%, the number of red blood cells by 30.9%, the hematocrit by 9%, the average hemoglobin content in the red blood cell by 9.6%, the average volume of the red blood cell by 5.2%, the number of platelets by 28.1%.

The results of a study of the powder from drones, tylosin and demetridazole larvae for the treatment of animal balantidiosis and salmonellosis.

The drug from the larvae of drones, tylosin and demetridazole obtained by the proposed method was tested on laboratory rats at a dose of 7.82 g per 10 kg of body weight. The drug is given orally 2 times a day for 12 days. Animals are weighed before and after the experiment; hematological parameters of rat blood are studied immediately after the experiment on day 14. To control the result, a control group of animals is used. The research results are presented in table 4. Analyzing the results, it should be noted that in the 1st experimental group, body weight increased by 0.7%, in the second experimental group decreased by 11.9%, and in the control group increased by 2.5%, hence to conclude that the combined use of tylosin and dimetridazole with powder from drones larvae reduces by 11.9% the loss in weight gain in the treatment of animal balantidiosis and salmonellosis.

Table 4 The dynamics of the body weight of laboratory rats Group number The number of animals in the group (goals) A drug Doses (mg / kg) The average body weight of animals, (g) to experience after experience 1 experience 3 The drug from the larvae of drones, tylosin and dimetridazole 782 298 300 2 experience 3 Tylosin + dimetridazole 100 + 225 respectively 350 313 3 control 3 - - 273 280

Tylosin is a bacteriostatic active antibiotic designed specifically for use by animals. Tylosin acts on gram-positive and some gram-negative bacteria, including: E. coli, Bacillus anthracis, Pasteurella spp., Haemophilus spp., Leptospira spp., Stapylococcus spp., Streptococcus spp., Erysipelothrix spp., Corynema spppopium ., Chlamydia spp., Treponema spp. (Brachispira), etc. (see instructions).

Dimetridazole - is detrimental to many protozoa: trichomonads, balantidia, amoebas, histomonads. The drug has activity against anaerobic bacteria (spore-and non-spore-forming). Not effective against aerobic bacteria. Dimetridazole is well absorbed from the digestive tract and reaches a maximum concentration in the blood after 1-2 hours. Penetrates into organs and tissues, passes through the placenta, the blood-brain barrier, accumulates in the liver. The drug is low toxic (see instructions).

The invention in comparison with the prototype and other known solutions has the following advantages:

- long shelf life, up to 2 years,

- increased body resistance,

- has a low cost,

- easy to manufacture,

- reduction in weight loss.

Claims (3)

1. A method of producing powder from drones larvae to increase the resistance of animals in the treatment of balantidiosis and salmonellosis, including the collection of drones larvae, their homogenization, while before homogenizing drones are frozen at a temperature of (-4; -5 ° C) for 12-14 h, then thawed for 3-5 min to + 18 ° C and packaged, characterized in that in addition to homogenization after the first freezing and thawing, a second freezing is carried out at a temperature of (-18) - (- 20) ° C for 60- 72 h followed by defrosting at room temperature, drying under a stream of warm air at a temperature of (+55) - (+ 60) ° С until the liquid completely disappears from the surface of the larvae, drying and disinfecting at a temperature of (+80) - (+ 85) ° С for 3 , 5-4.0 hours, while the homogenization of dry drones larvae is carried out for 1-2 minutes, and the packaging is carried out in vacuum packaging. 2. The method according to claim 1, characterized in that the collection of drones larvae is carried out at 10-12 days of age together with drone milk. 3. A powder to increase the resistance of the animal organism in the treatment of balantidiosis and salmonellosis, including a powder from drones larvae, characterized in that it contains a powder from drones larvae obtained according to any one of claims 1 and 2, tylosin powder and dimetridazole powder in the following ratio of components g / kg:
tylosin powder 0,090-0,100 dimetridazole powder 0,200-0,225 drones larvae powder rest