RU2739028C2 - Method for correction of metabolic processes in dogs - Google Patents

Abstract

FIELD: veterinary medicine.

SUBSTANCE: invention relates to veterinary industry, namely to a method of correction of metabolic processes in dogs. Method for correction of metabolic processes in dogs involves feeding fodder additives into the diet. Animal is introduced phytomineral fodder additive (PMFA) consisting of mineral component BSh-VIT and vegetal - powder of sea-buckthorn berries in a certain amount per kg of live weight daily once day for 21 days with fodder by stirring.

EFFECT: above described method is effective in correction of metabolic processes in dogs.

1 cl, 4 tbl, 1 ex

Description

The invention relates to the field of cynology, veterinary medicine, in particular for non-drug correction of metabolic processes and the prevention of anemic syndrome in dogs.

Unbalanced and irregular nutrition of animals often causes the development of various non-infectious pathologies, a decrease in the body's resistance and an increase in susceptibility to various infections, which can lead to the development of persistent pathology, and sometimes to the generalization of the process in relation to infectious diseases. In addition, in the conditions of modern cities, the number of homeless animals is becoming more and more, which can be a reservoir of dangerous infectious diseases of dogs, as well as anthropozoonotic infections. Reducing nonspecific resistance directly depends on metabolic disorders in the body of animals, and the restoration of physiological metabolism is the main task in the prevention of any disease.

To improve the quality of life of dogs and their owners, along with improving the quality of feed and rations, and optimizing the conditions for keeping animals, various feed additives that are metabolism regulators are widely used.

A known method for the prevention of anemia in animals using (see Patent No. 2193565 - A method of producing an iron-containing drug for the treatment and prevention of iron deficiency anemia in animals / Panina OP, Kasimova LV, Zhilyakova TP Published: 27.11.2002 Bulletin No. 33). The method of obtaining an iron-containing preparation consists in the interaction of organic acids with hemo-stimulating properties and an iron compound with the formation of water-soluble complexes, and humic and (or) fulvic acids isolated from peat extracts are used as organic acids with hemo-stimulating properties, and water-soluble salts of bivalent iron are used as an iron compound , which are taken in an amount equivalent to the content of carboxyl groups of humic and (or) fulvic acids. Depending on the processing conditions of peat extracts, various water-soluble iron-containing preparations can be obtained. The ferrohumate complex is obtained by the interaction of humic acid isolated from peat extract by treating it with a solution of hydrochloric acid at pH 1-2, with sea salt. The complex - ferrofulvate is obtained from peat extract after isolation and removal of humic acids from it by interaction with Mohr's salt. The complex - ferrofulvogumate is obtained by direct action on the peat extract with Mohr's salt. The method makes it possible to obtain preparations with higher hemo-stimulating properties from natural ecologically safe raw materials (peat) in very mild and safe conditions.

A known method of treatment and prevention of iron deficiency anemia in farm animals (see patent No. 2188022 Method of treatment and prevention of iron deficiency anemia in farm animals / Zakiev A.R., Minakova V.I., Bolotsky I.A., Vasiliev V.F., Romanova I.A., Sementsov V.I., Druzhina K.V., Golenko N.A., Shilova S.N. Publ .: 27.08.2002 Bul. No. 24). The method consists in the fact that to increase the immune status of iron deficiency anemia in farm animals, the animal is given 0.5-4 ml per 1 kg of live weight of the preparation of complex compounds of zinc and iron with raw cane sugar. For the treatment of one-month-old animals, the drug is administered once a day for 10-15 days until the hemoglobin norm is restored. The method allows to increase the immune status by restoring metabolism and to reduce the cost of treating animals. The method has been tested for the treatment of iron deficiency anemia in calves and piglets and has not been tested in the correction of metabolic processes and the prevention of anemia in dogs.

The objective of the invention is to develop a method for correcting metabolic processes in dogs while expanding the range of domestic drugs used from local raw materials and components.

The problem is solved by the fact that for the correction of metabolic processes in dogs, a new phytomineral feed additive (FMKD) is used, consisting of two main components: mineral - a mineral feed additive under the trade name BSh-VIT, mass composition. %: Al ₂ O ₃ -20-30; SiO ₂ -20-25; Fe ₂ O ₃ -10-15; CaO-8-12; Na ₂ O-12-15; SO3-3-5; K ₂ O-0.3-0.5; KJ-0.2; and herbal phytocomponent - in the form of sea buckthorn berries powder in equal volumetric proportions. The plant component of FMKD contains: 100 g of sea buckthorn contains vitamins - vitamins - A - retinol, B1 - thiamine, B2 - riboflavin, B5 - pantothenic acid, B6 - pyridoxine, B9 - folic acid, C - ascorbic acid, E - tocopherol. In significant quantities, sea buckthorn fruits contain macronutrients: potassium, magnesium, calcium, phosphorus, sodium, iron. Trace elements: chromium, boron, vanadium, manganese, rubidium, iron, copper, molybdenum, silicon nickel. The berry contains glucose, organic acids, tannins, nitrogen-containing elements, bioflavonoids. (Lipnitskiy S.S., Piluy A.F., Lappo L.V. Green pharmacy in veterinary medicine - Minsk .: Uradzhai, 1987 - p. 166-168). In this case, the preparation BSh-VIT is administered at a dose of 0.3 g per 1 kg of live weight, mixed with vegetable at a dose of 0.15 g per kg of live weight, in a total dose of FMKD - 0.45 g per kg of live weight. FMKD is fed to dogs for 21 days once a day, while in the process of feeding they use BSh-VIT manufactured by Sorbent-K LLC, Karpinsk, and a plant phytocomponent produced by Diana LLC, Karpinsk. FMKD is used dry, introducing into the feed by mixing.

The basis of the feed mineral additive "BSh-VIT" - BSh is produced in accordance with the patent of the Russian Federation No. 2473230, A23K 1/16, Publ. 01/27/2013, Bul. No. 3 and is a finely ground powder of light brown color. Previously, BSh was used without additives for the prevention of mycotoxicosis when growing broilers (see RF Patent No. 2555354, A61K 33/06, Publ. 10.07.2015. Bull. No. 19). A feed additive is produced according to TU 2160-001-62028061-2014. Certificate of Conformity ROSS RU. HP24. BO2220 dated 23.12.2008 Certificate of state registration Registration series: 46-2-36.18 // 03455. Accounting series: 46-2-26.18-7641. Recommended area of application: To normalize metabolism, increase the productivity and safety of farm animals, including birds.

Previously, the sea buckthorn berry powder produced by Diana LLC in Karpinsk was used in baking bakery products (cookies, buns).

In the instructions for the use of the drug "BSh-VIT" in a mixture with dry powder of sea buckthorn berries (a source of plant fibers, carotenoids and bioflavonoids) was not previously used and was not used as a drug to correct metabolic processes in dogs, which is a complex application of known drugs in a new way appointment.

The novelty of the method is that the powder of sea buckthorn berries together with the preparation "BSh-VIT" is used for a new purpose to correct metabolic processes in dogs, CMD BSh-VIT in a dose of 0.3 g per 1 kg of live weight, and the powder of sea buckthorn berries - 0 , 15 g, in a total dose of FMKD - 0.45 g per kg of live weight daily 1 time per day for 21 days.

In connection with the above, the purpose of the experiments was to practically study the effectiveness of the use of phytomineral feed additives (PMDC) for the correction of metabolic processes in dogs.

For the first time, the domestic feed mineral additive BSh-VIT was used in a mixture with sea buckthorn berry powder to correct metabolic (biochemical) processes and hematological parameters as a prophylactic agent in dogs in order to prevent anemia.

Experiment 1. To conduct the experiment in the "Animal Rehabilitation Center" at the Ural State Agrarian University, the entire population of dogs (50 animals in total) was clinically investigated in order to identify sick and clinically healthy, but with some signs of anemic syndrome (anemicity of visible mucous membranes: conjunctiva, oral mucosa, vaginal mucosa; slight ruffle of the coat, the coat is hard, in some it is brittle). The groups of dogs were selected and divided into control and 3 experimental groups according to the principle of analogs. In accordance with the weight of each animal from the experimental groups, the required dose of the complex preparation was selected. To control the condition of the animals, blood was taken at the beginning and at the end of the experiment. According to the results of the study, the effectiveness of the use of PMDC was assessed.

The studies were carried out at the "Animal Rehabilitation Center" at the Ural State Agrarian University and at the Department of Infectious and Non-infectious Pathology, the composition of which is shown in Table 1.

The dogs of the control group were fed with ready-made feeds according to the diets adopted at the Animal Rehabilitation Center, and the animals of the experimental groups, in addition to the diet, received a phytomineral feed supplement (FMCD) with the feed once a day in the morning at a total dose of 0.45 g per kg of live weight. All animals of the experimental group were mixed with phytomineral feed additive (PMKD) with ready-made feed for adult animals of premium class for dogs from Royal Canin.

Phytomineral feed additive (FMCD) is a mixture of two powdered substances. One component - mineral - sorbent and source of minerals. The second phytocomponent and source of vitamins and bioflavonoids was sea buckthorn berry powder. The ratio of the mineral and phytocomponent for each group was the same and was dosed in equal volumetric units. First, the mineral component was hung at the rate of 0.3 g per kg of live weight of the dog, then the powder of sea buckthorn berries was added in an equal volume, with a total weight of 0.45 g per 1 kg of live weight. Both ingredients of the additive were thoroughly mixed together, then the finished mixture was added to the feed. For maximum consumption of the dose of the complex preparation, it was well mixed with food. The obtained food with FMKD was given to dogs. Evaluated: the appetite of the animals, the speed of eating the food, the thoroughness of chewing, the amount of additive not eaten. FMKD animals were fed for 21 days. Then repeated blood sampling was performed to determine changes in the hematological and biochemical status of the animals.

In animals of the control and experimental groups, blood was taken twice before the start of the experiment and after its completion to determine the hematological and biochemical status. A general blood test was performed according to generally accepted methods, biochemical studies were carried out on an automatic biochemical and ELISA analyzer ChemWell 2910 (Combi) from Awareness technology, Inc. USA, using methods recommended by the International Federation of Clinical Chemistry (IFCC) on reagents from Dialab (Austria).

For three weeks, the animals were monitored daily, feed intake was monitored, and the method of feeding the animals with PMCD was adjusted. The main part of the experimental animals willingly ate FMKD mixed with food. However, two dogs had to be fed PMKD with wet food due to the dogs' taste habits.

After the end of the experiment and repeated blood sampling, the analysis of the results obtained was carried out. The average data for the groups are shown in Table 2. At the beginning of the experiment, all animals had anemic syndrome, a decrease in the level of hemoglobin and the number of erythrocytes. The result of calculating the color indicator testified to the development of normochromic anemia in all animals.

In addition, there was a slight increase in the blood of young neutrophils and basophils. After the end of the experiment in the animals of the experimental groups, all hematological parameters were within the reference values, and in the animals of the control group, signs of anemia remained.

From the data in Table 2, it can be seen that in young animals of the 1st experimental group, as a result of feeding with PMKD, the amount of hemoglobin increased by 20.1%, ESR more than doubled, the number of erythrocytes by 32.1%, leukocytes by 14.2%, compared with background indicators.

* P <0.05, ** P <0.001

In old dogs from experimental group 2, hemoglobin increased by 11.5%, ESR doubled, the number of erythrocytes by 27.2%, and leukocytes by 32.5%, compared with background values.

In middle-aged dogs from the 3 experimental group, hemoglobin increased by 12%, ESR - almost 4 times, the number of erythrocytes by 33.7%, and leukocytes by 31.5% in comparison with the background values.

In dogs of the control group, hemoglobin increased insignificantly by 5.1%, ESR by 4.5 times, the number of erythrocytes by 5.1%, and the number of leukocytes increased by more than 2.5 times.

A sharp rise in leukocytes may indicate the development of an inflammatory process.

The analysis of the obtained data testified to the activation of hematopoiesis and the disappearance of the clinical and hematological signs of anemia.

Average indicators of biochemical changes in the blood serum of dogs are shown in tables 3, 4.

* P <0.05, ** P <0.001

Table 3 shows that in young dogs of the 1st experimental group, the indicators of albumin increased by 30%, urea by 8.1%, total bilirubin by 60.7%, alpha-amylase by 38%, decreased ALT (alanine aminotransferase) by 35, 6%, AcAT (aspartate aminotransferase) by 24.5%, glucose by 7.3%, creatinine by 26.2%, total protein by 12.6%, alkaline phosphatase by 42.8%, GGT (gamma glutamyltransferase) by 67.6 % compared to background indicators. In old animals from the 2nd experimental group, an increase in albumin by 21.6%, urea by 29.1%, alpha-amylase by 8.3% and a decrease in ALT by 49.2%, AST by 19.6%, glucose by 12.4%, creatinine by 21.4%, total protein by 18.1%, alkaline phosphatase by 45.2%, GGT by 15.6% compared to background values. In the third group of middle-aged animals, there was an increase in albumin by 10.6%, and alpha-amylase by 20.4% compared to background values and a decrease in ALT by 22.6%, AST by 28.6%, glucose by 11.2 %, creatinine by 21.1%, urea by 15.3%, total protein by 4.3%, total bilirubin by 23.6%, alkaline phosphatase by 38.2%, and GGT by 74%, compared to background ...

In the control group, indicators of liver damage increased ALT by 20.1%, albumin by 27.62%, alkaline phosphatase by 24.1%, amylase by 1.1%, the rest of the indicators decreased ASAT by 6.7%, glucose by 15, 2%, creatinine by 8.2%, urea by 5.4%, total protein by 6.8%, total bilirubin by 47.6%, GGT by 17.2% compared to baseline values7, which confirms their disease and the need for treatment.

According to the results of biochemical blood analysis (Table 3, 4) of control animals at the end of the experiment in dogs of the control group, an excess of the physiological norms of alanine aminotransferase (ALT), aspartate aminotransferase (AST) and alkaline phosphatase was observed, which indicates liver damage in dogs. In animals of the experimental group, after the end of the study, an increase in only aspartate aminotransferase (ASAT) was noted, while in all animals a decrease in this indicator and its approaching the upper limit of the standard interval was noted. The rest of the parameters related to the hepatic profile remained within the standard range.

* P <0.05, ** P <0.001

Table 4 shows that in young dogs of the 1st experimental group, an increase in the level of iron by 44.8%, potassium by 3%, calcium by 53%, chlorides by 5.5%, bicarbonates by 36.1% was noted, the level of magnesium decreased. by 14.7%, compared with background indicators.

In the second experimental group of old animals, the level of iron increased by 18.4%, calcium by 38.9%, phosphorus by 6%, chloride by 3.7%, bicarbonate by 33.3%, and the level of potassium decreased by 2.5%. , magnesium by 30.2%, compared with background values.

In the third experimental group of middle-aged dogs, the level of iron increased by 59.8%, calcium by 36.3%, chloride by 5%, bicarbonate by 40.2%, and the level of potassium decreased by 0.9%, magnesium by 26.4%, phosphorus by 11%, compared with background values.

In the control group of animals, the level of calcium increased by 6.2%, bicarbonates by 15.7%, and the level of iron decreased by 35.5%, potassium by 5.3%, magnesium by 19.4%, phosphorus by 38.2%. , chlorides by 1.2%, compared with background values.

According to the table, the level of bicarbonates increased in all experimental groups, which is a sign of the restoration of the blood buffer system, but in the control group this indicator is close to the lower critical limit, beyond which metabolic acidosis develops.

According to the data presented, it can be seen that in the control groups the mineral composition of the blood of the experimental animals approached the physiological values and even if the calcium values were increased, the ratio of phosphorus to calcium was in a physiological ratio. The level of iron was also increased in the experimental groups, but at the same time the amount of hemoglobin and the number of erythrocytes increased, which indicates the activation of hematopoiesis.

After analyzing the results obtained, the following conclusions can be drawn:

1. The use of a complex phytomineral feed additive (PMKD) in dog food according to the proposed method, which includes mineral and plant components, significantly increases hematopoiesis in all age groups of dogs: the number of erythrocytes and hemoglobin increases.

2. After three weeks (21 days) feeding with FMKD, hematopoiesis was activated in the animals, which influenced the improvement of the clinical condition: the visible mucous membranes (conjunctiva, oral mucosa, vaginal mucosa) were pale pink, the coat became soft, elastic, shiny.

3. Complex use of phytomineral feed additive is an optimal combination of vitamins, macro- and microelements, bioflavonoids and other biologically active substances and has a pronounced effect of normalization of metabolic processes in dogs and can be used as a prophylactic and therapeutic agent, as a mono- and complex therapy ...

Claims (2)

1. A method for correcting metabolic processes in dogs, including the introduction of feed additives and premixes into the diet of dogs, characterized in that the animals are injected with a phytomineral feed additive (FMCD), consisting of the mineral component BSh-VIT at 0.3 g per 1 kg of live weight and vegetable - sea buckthorn berry powder - 0.15 g per kg of live weight in a total dose of 0.45 g per kg of live weight once a day for 21 days with food by mixing. 2. A method for correcting metabolic processes in dogs according to claim 1, characterized in that FMKD consists of a mineral component - additive BSh-VIT manufactured by Sorbent-K LLC, Karpinsk, and a plant component - sea buckthorn berry powder, produced by LLC Diana ", Karpinsk.