RU2677475C1 - Method of treating calf gastroenteritis in conditions of technogenic provinces with excess lead, nickel and cadmium - Google Patents

Abstract

FIELD: pharmaceutical industry.

SUBSTANCE: invention relates to the pharmaceutical industry and veterinary medicine and is a method for the treatment of gastroenteritis of calves in conditions of man-made provinces with an excess of lead, nickel and cadmium, which consists in symptomatic therapy, by subcutaneous administration of caffeine sodium benzoate and 5 % glucose solution, as well as by intramuscular injection once, 4–5 days Baytril in a dose of 2.6–2.7 ml and the additional introduction into the diet of the mineral gastrointestinal adsorbent of vermiculite of the Potaninsk deposit at the rate of 0.11–0.15 g per 1 kg of live weight once, daily 12–14 days with a duration of treatment of 12–14 days.

EFFECT: invention provides a more effective method of treating gastroenteritis in calves in ecologically unfavorable areas against the background of excessive content of lead, nickel and cadmium salts in environmental objects.

1 cl, 1 ex, 3 tbl

Description

The invention relates to veterinary medicine and can be used in the treatment of calf gastroenteritis in technogenic provinces, where environmental objects contain a high level of salts of nickel, lead and cadmium.

The saturation of animal feed rations with toxic elements in conjunction with other reasons (a sharp transition to a dairy-free type of feeding, low-quality feed) contribute to the development of gastroenteritis. Under conditions of high technogenic loads, not all animals adequately respond to changes in the natural background, a number of animals remain resistant to the influence of an unfavorable factor, while others exhibit clinical signs characteristic of non-infectious pathology. One of the most common forms of pathology among young cattle kept on the territory of ecological distress is gastroenteritis.

A high level of toxic elements, migrating along the trophic chain in the composition of feed rations, enters the body of animals, accumulate in it and lead to a change in the course of all metabolic processes, a decrease in non-specific defense factors, and a change in the antioxidant system [A.P. Zhukov, 1998 [10]; A.M. Gertman, M.I. Rabinovich, 2002 [6]; L.I. Drozdova et al., 2003 [9]; THEM. Donnik, I.A. Shkuratova, 2008 [8], E.M. Rulikova, 2010 [16].

Gastroenteritis - a disease characterized by inflammation of the abomasum and small intestine, accompanied by functional disorders, as well as structural (morphological) disorders of the abomasum and small intestine to varying degrees [G. Shcherbakov, A.V. Korobov, 2002; 5].

Scientists V.A. made a significant contribution to the treatment and prevention of gastroenteritis. Antipov, A.G. Shakhov [1979; 3], V.I. Prodanov [1983; 14], G.G. Taran, A.A. Kosarev [1987; 18], V.I. Fedyuk [1988; 20], I.I. Kalyuzhny et al. [2007; eleven].

In veterinary practice, a sufficiently large number of methods for treating gastroenteritis is recommended, however, their use in technologically contaminated areas has a low therapeutic effect.

A.A. Blokhin, V.V. Isaev, T.D. Khrisanfova, O.V. Korobova, A.A. Rodionov [2011; 12] proposed a method for treating calf gastroenteritis, which includes feeding calves the Baikal EM-1 EM preparation mixed with phytobar infusion in a ratio of 1: 1. At the same time, phyto-collection includes, based on 100 ml of water, 0.5 g of perforated St. John’s wort grass, 0.5 g of common meadowsweet grass, 0.35 g of common yarrow grass, 0.35 g of dicotyledonous grass, 0.2 g of common foliage rhizomes, 0.2 g of the roots and rhizomes of the marsh cinquefoil and 0.15 g of needles of pine needles. The mixture is evaporated according to the scheme: 1 day - twice in doses of 30 ml and 50 ml; 2 day - three times in a dose of 100 ml; in the following days - five times in a dose of 100 ml until clinical recovery. This method is low-tech and time-consuming due to the inconvenience of dosing and introducing a large number of young animals. Also, it is possible that the preparation itself contains salts of heavy metals, which are found in excess in soils where medicinal plants grow.

Scientists V.A. Chkhenkeli, A.Yu. Martynova, L.G. Chkhenkeli, N.A. Goryaeva [2011; 15] the drug Levan-2 was proposed for sick calves. Under its action, the general condition of the animals improves, the increase in live weight increases, the safety of the livestock is 100%. The preparation includes a sterile culture fluid obtained by cultivating the fungus Trametes pubescens (strain 0663) on standard solid and liquid nutrient media with microcrystalline cellulose additionally included in them. The drug is added to milk for evaporation at a dose of 1.5-2.5 ml per 1 kg of live weight of the animal 1 time per day for 4-5 days. This method allows you to normalize the microflora of the gastrointestinal tract, but does not reduce the content of toxic substances in the body of the animal.

So, E.M. Bashirov [2011; 4] developed a pharmacocorrection scheme with the use of ecosil in a dose of 0.6 g per 1 kg of live weight in acute digestive disorders. Ecosil is a white powder, consisting of microgranules, does not dust, mixes more evenly with food, which eliminates the possibility of membrane digestion. It consists of 95% silica and 1% raw milk sugar. Due to the very small particle size, not more than 0.09 mm, the maximum contact of the ecosil with the feed occurs. It is designed to bind a wide range of mycotoxins in feed and increase the productivity of animals and birds. As a result, the treatment period for calves is reduced by two days compared to antibiotic therapy. However, this method of treating gastroenteritis is not technologically advanced, as it requires an individual approach to the animal and does not solve the problem of detoxification of the body from toxic elements.

A known method of treating calves of patients with gastroenteritis, which proposed S.Yu. Smolentsev [2010; 17]. To weaken toxicosis and stop diarrhea, it is effective to prescribe adsorbents (alumina hydrate, activated carbon, white clay, lignin, cuticle powder of the muscular stomach of birds, etc.) and astringents (decoctions of oak bark, preparations of tannin, bismuth) in the accepted doses. To improve nutrition and relieve general toxicosis, use intravenous glucose solutions, hemodesis, polyglucin, amidopeptide, hydrolysin, lipofundin and other plasma-replacing solutions.

Adsorbents are highly dispersed natural or artificial materials with a large specific surface on which the adsorption of substances from gases or liquids in contact with it occurs. They may include vitamins, minerals, macro- and microelements.

Astringents, when applied to the mucous membrane of the gastrointestinal tract, cause partial coagulation of the proteins in the mucus and form a film that protects the sensitive nerve endings from the effects of irritating factors.

Plasma substituting solutions are solutions that are similar in composition to blood plasma, administered in large quantities. These solutions are able to maintain the body's vital functions for some time.

The use of such drugs for lesions of the gastrointestinal tract may be appropriate, but it should be noted that in the inflammatory process, as a rule, in the small intestine with marked pathology, conditionally pathogenic microflora is present and without the use of special antibiotic therapy, a high therapeutic effect will not be observed. In this regard, it is necessary to use modern antimicrobial agents with a wide spectrum of action.

A.S. Tarnuev [2015; 19] experiments were conducted to study the bioelectrical activity of abomasum, rumen and duodenum of yaks. The experiments were conducted on clinically healthy yaks 9-10 months of age. For the study of bioelectric activity, needle electrodes were used. After that, data were recorded using an EGS-4M electrogastrograph. A total of 120 electrogastrograms were received. Also, in these studies on yaks, a suprapleural novocaine blockade was used. We studied the indicators of the initial data and after its implementation. After applying novocaine blockade for 3 hours, the abomasum, scar and duodenum data are reduced, respectively, by 9.8; 2 and 4.7%. By three o'clock, these indicators recovered to their original level and did not change for 10 days. Thus, when applying the method of electrogastrography, it is possible to catch digestive disorders earlier than the clinical manifestation of the disease, to prescribe the optimal dose for treatment. This method requires considerable time for the procedure, the availability of a device for electrogastrography.

A number of authors P.C. Ardington [1977; 1], S.S. Abramov V.V. Petrov [1999; 2], A.N. Panin, N.I. Malik, O.S. Ilayev [2012; 13], they recommend the effective use of probiotics to restore microbial processes in the intestine, as well as feed additives with a probiotic component, in order to increase the efficiency of feeding and normalize the microflora of the gastrointestinal tract. Probiotics are living microorganisms that are normal flora of the intestinal tract of animals. These are non-pathogenic bacteria, yeast, which have a counteraction against opportunistic or pathogenic microorganisms. A long period of use of probiotic drugs is economically disadvantageous. A large amount of the drug is spent, and the lack of a detoxifying effect does not allow us to recommend this method for animals in the zone of ecological distress.

The closest analogue is the method for treating calves of patients with gastroenteritis, proposed by P.G. Filippov [2012; 21] who used vitartil in combination with nitamine for calf gastroenteritis in the Bredinsky district of the Chelyabinsk region. The author of the work carried out treatment of calves suffering from gastroenteritis for 25-30 days by applying Vitartil at a dose of 0.2-0.4 g / kg of live weight per day per head, additionally used the vitamin drug intramuscularly intramuscularly, at a dose of 0.5 ml in per 10 kg of live weight, according to the manual. However, this method of treatment does not reduce the inflammatory process in the gastrointestinal tract, and, accordingly, does not have a detrimental effect on the conditionally pathogenic microflora.

The aim of the present invention is to develop a more effective method of treating calves' gastroenteritis in ecologically disadvantaged zones against the background of excessive levels of lead, nickel and cadmium salts in environmental objects (soil, water sources, fodder crops) by introducing vermiculite mineral enterosorbent in combination with the chemotherapeutic drug Baytril .

This goal is achieved by the fact that calves suffering from gastroenteritis in the technogenic provinces are injected intramuscularly with the chemotherapeutic drug Baytril once for 4-5 days (1st, 2nd, 3rd, 4th and 5th day) at a dose of 2, 5-2.6 ml per head. At the same time, vermiculite of the Potanensky deposit was introduced into the feed ration in a mixture with concentrates at the rate of 0.10-0.15 g / kg of body weight daily for 12-14 days. The duration of treatment was 12-14 days. Vermiculite provides detoxification therapy by eliminating calf salts of lead, nickel and cadmium from the body through the gastrointestinal tract, and Baytril normalizes the functional state of the gastrointestinal tract by antimicrobial action on the replication of cells of conditionally pathogenic microflora.

A comparative analysis of the claimed solution with the prototype shows that this method differs from the known one in that the treatment of calves suffering from gastroenteritis uses a combination of the chemotherapeutic drug Baytril and the mineral enterosorbent of vermiculite of the Potanensky deposit in the Chelyabinsk region, which is introduced into the diet of young cattle mixed with concentrates daily according to the above scheme for 12-14 days. Instead of vitartil, the mineral enterosorbent vermiculite was used, and instead of nitamine, Baytril.

The analysis of the prototype and other methods of therapy in this field of veterinary medicine did not reveal signs similar to the claimed solution, which allows us to conclude that the method meets the criterion of "novelty."

The claimed method meets the criteria of the invention of "inventive step", as it clearly does not follow from the prior art.

The invention is industrially applicable, as it can be used in veterinary medicine, in particular in the treatment of calves with gastroenteritis.

Execution example. The method is implemented as follows. Vermiculite is introduced into the diet at a dose of 0.1 g / kg of body weight daily for 14 days, for 14 days.

Vermiculite is a natural mineral of the Potanensky deposit in the Chelyabinsk region from the class of hydromica, the structure of which consists of alternating mica sheets, separated by double layers of water. It consists of compounds of silicon, aluminum, iron, manganese, magnesium, calcium and potassium, which allows you to make up for the lack of essential elements in the body of the animal. Expanded vermiculite used in veterinary medicine is a light porous mineral with sorption, catalytic and ion-exchange properties. Due to its high adsorption properties, vermiculite provides the excretion of heavy metal salts from the body of animals. At the same time, macro- and microelements contained in vermiculite under the influence of digestive juices enter into metabolism and are absorbed by the intestinal wall.

Baytril 10% is a broad-spectrum antimicrobial drug. The active substance is enrofloxacin, which has antimicrobial activity against gram-positive and gram-negative bacteria and mycoplasmas. It inhibits bacterial DNA kinase, thereby disrupting the DNA replication process, as a result of which microorganisms cannot multiply. Enrofloxacin is rapidly absorbed into the bloodstream and penetrates into all organs and tissues of the body. The maximum concentration in the blood is reached after 1.5 - hours and lasts for 6 hours, and the therapeutic concentration - for 24 hours. For therapeutic purposes, young cattle should be administered intramuscularly once for 5 days at a dose of 2.5 ml.

The rationale for the selected dose of vermiculite served as a series of scientific experiments. At the first stage, during preliminary research, it was experimentally established that the dose of the mineral is 0.2; 0.3; 0.4; 0.5 g / kg of live weight, applied twice a day for 30 days without a break, cause a violation of the processes of cicatricial digestion in ruminants. The higher the dose of the mineral, the faster the signs of partial hypotension of the pancreas were detected.

Along with this, a study of samples of cicatricial content was conducted. So, on the 15th day of the experiment with a maximum dose of vermiculite 0.5 g / kg body weight twice a day, the total number of ciliates decreased by 16.0%, the content of acetic acid - by 14.7%, propionic acid - by 12, 1%, the active acidity of the medium increased to 7.5 units (at normal pH to 7.3). On the 30th day of research in experimental animals, a decrease in the number of scar reduction to 2 in 2 'was detected, while the norm in clinically healthy animals was 4 in 2'. The contractions were irregular, incomplete, listless. In addition, lengthening of the inter-ruminant periods has been established.

The revealed changes on the part of cicatricial digestion served as the basis for the conclusion that, with the additional introduction of natural minerals into the diet of ruminants, it is necessary to take breaks.

With the additional introduction of vermiculite of the Potanensky field at a dose of 0.10-0.15 g / kg of body weight twice a day for 30 days, the following results were obtained. On the 15th day of the experiment, the total number of ciliates increased in cicatricial fluid by 9.4%, the concentration of acetic acid - by 10.3%, propionic acid - by 7.1% at a pH of 7.2 units.

On the 30th day of the research, the total number of ciliates in the rumen content relative to the data of the previous period (15th day) decreased by 4.3%, remaining higher than the average normative data by 5.3%. The active reaction of the environment of the content of the rumen was within 7.3 units, against the background of an unreliable insignificant decrease in the concentration of acetic and propionic acids. The obtained data once again confirmed the conclusion that it is necessary to take a break when ruminant natural minerals are introduced into the diet, which is associated with digestion in the multi-chamber stomach of ruminants.

At the second stage, the effectiveness of the dose and the frequency of application of vermiculite of the Potanensky field were checked. The mineral was used at a dose of 0.10-0.15 g / kg of live weight twice a day for 15 days with an interval of 15 days.

So, on the 15th day of studies, an increase in the total number of ciliates, the concentration of acetic and propionic acids was revealed. It should be noted that on the 30th day of research the number of ciliates in the cicatricial fluid increased by 21.9%, the concentration of acetic acid - by 29.4%, propionic - by 26.1%.

Thus, the proposed method of introducing vermiculite with an interval of 15 days contributes to the activation of cicatricial digestion. The studies conducted convincingly indicate that the recommended dose and frequency of administration of the mineral enterosorbent can be used in the diet of ruminants [A.M. Gertman, 2004 [7].

To implement the proposed method, all scientific research was carried out on the basis of Zaozerny LLC Varna district of Chelyabinsk region.

According to the literature and the results of our own research, it was established that the territory of the Varna region is a technogenic province of natural and anthropogenic origin. The Mikheevskoye copper deposit is located in the district. The Varna region is bordered by Kartalinsky, where gold is mined; south of the Kartalinsky district, Bredinsky is located, on the territory of which an excess of strontium, nickel and a deficiency of cobalt and manganese were revealed in environmental objects.

In the study of soil samples for land use, it was found that in the surface arable layer (0-20 cm), all samples contained salts of heavy metals (nickel, lead, cadmium and iron) in quantities exceeding the maximum permissible concentration (MPC). Forage crops such as boneless bonfire, vetch-oats, oats, barley and wheat grow on these fields. In addition, in the soils where annual herbs are grown, a high level of nickel is revealed, which was 38.5% higher than the values. At the same time, a decrease in the content of essential trace elements in soils was revealed. The deficiency of copper, zinc, cobalt and manganese in soil samples on which hay crops were grown was 40.0%, 59.2%, 59.5% and 68.2%, respectively, relative to the MPC values. In the soil samples where the bezostopy fire, oats, barley and wheat were grown, the copper deficit, respectively, was 37.6%; 41.34%, 43.2% and 40.56%, zinc - 62.4%, 62.72%, 63.5% and 62.76%, cobalt - 64.04%, 73.68% 63, 84% and 67.24%.

In the study of feed samples, it was found that all of them contain nickel, lead, cadmium and iron in high concentrations. Studies have established that the nickel content in the haylage was 5.33% higher than the MDL, 23.66% in the forage (oats + barley), and 22.0% in the bones of hay. The level of lead in grain fodder was 3.4% higher than MDL, bonfire hay - 2.2%, haylage - 1.0%. The highest levels of cadmium were found in samples of feed such as grain fodder. The toxicant content in the indicated feed samples was higher than the MDL values by 64.0%, respectively. The content of iron in hayfire was higher than the maximum permissible level (MDL) by 20.72%, grain fodder by 30.1%, and silage by 12.8%. The level of essential trace elements (copper, zinc, cobalt and manganese) in all feed samples was significantly lower than the MPA.

In samples of water taken from drinkers of the livestock building, as well as from natural reservoirs, an increased content of nickel, lead, cadmium and iron was found relative to the MPC values.

Thus, the monitoring of the objects of the external environment of the economy (soil, water, feed) convincingly indicates that the land use territory of Zaozerny LLC in the Varna region of the Chelyabinsk region is a biogeochemical province with a pronounced deficiency of essential (copper, zinc, cobalt and manganese) and excess toxic (nickel, lead, cadmium and iron) elements. The constant contamination of the animal organism with toxicants has a negative effect on all organs and systems in general.

In the economy, gastroenteritis is widespread among young cattle, which is confirmed by the results of a comprehensive clinical examination of the herd.

As part of the clinical examination, a thorough analysis of the diet was carried out. It was found that in the structure 31.4% is coarse feed, 28.6% is succulent and 40.0% is concentrated. Type of feeding - concentrate. Animals receive an insufficient amount of digestible protein, crude fat, sugar and carotene, which leads to disruption of the processes of cicatricial digestion and an imbalance of microorganisms in the gastrointestinal tract, a change in the metabolism of protein compounds and a decrease in the body's ability to absorb fat-soluble vitamins. With a deficiency of carotene in the body of calves, the production of lysozyme decreases, which leads to a decrease in the protective function of the mucous membranes and overall resistance, energy and dry matter. The diet revealed a deficiency of such important minerals as calcium, phosphorus, cobalt and zinc. The calcium content in the diet was 8.1% lower than the norm recommended by VIZh, 5.9% phosphorus, 21.6% cobalt, and 35.7% zinc. More copper - by 35.6%, nickel - by 15.5%, lead - by 18.2% and iron - by 2.5 times entered the gastrointestinal tract of animals with feed.

Thus, an analysis of the diet of calves with gastroenteritis patients convincingly indicates that a combination of deficient digestible protein, crude fat, sugar, carotene, an imbalance in the mineral composition of feed and the presence of heavy metal salts in significant quantities is the main etiological factor in diseases of the gastrointestinal tract (gastroenteritis) in technologically polluted territory.

Clinical examination of 124 animals in 40 (32%) calves revealed symptoms of gastroenteritis: decreased appetite, slight depression after feeding, the presence of gray-white plaque on the root of the tongue, weakness and emaciation of the animal, decreased skin turgor, and icterous mucous membranes. With percussion of the abomasum, soreness and tension of the abdominal wall were noted. During auscultation of the intestinal region, rumbling noises, diarrhea, and fetid odor due to the development of putrefactive processes in individual animals with an admixture of undigested particles of food, mucus, and sometimes blood were noted. In addition, samples of blood, urine and feces were taken from patients with gastroenteritis. The clinical manifestation of gastroenteritis was confirmed by pathological examination obtained from the fallen animal.

The liver is slightly enlarged, red-brown in color, flabby texture. On a section - red-brown, moderately moist. The gall bladder is enlarged, filled with thick, viscous dark green bile. The mucous membrane is velvety, yellowish-green in color. Portal lymph nodes are not enlarged, grayish pink, moderately moist, the pattern is well defined.

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In the study of the chemical composition of the blood of calves with gastroenteritis patients, it was found that the levels of nickel, lead, cadmium and iron exceeded the standard data by 91.6, 12.0, 26.0 and 16.7%, respectively. The content of copper, zinc, cobalt and manganese was lower by 50.0, 97.4, 50.0 and 40.0% of the norm.

Analysis of morphobiochemical parameters of blood indicates an increase in the total number of red blood cells, white blood cells, hemoglobin and erythrocyte sedimentation rate (ESR) by 19.5, 31.4, 24.2% and 2.5 times. The leukogram shows eosinophilia, neutrophilia, lymphopenia, monocytosis.

It was found that indicators characterizing the different types of metabolism in calves were violated. So, dysproteinemia was observed in the blood serum of sick animals: against the background of a decrease in the level of albumin and α-globulins by 16.6 and 9.9%, respectively, the concentration of β- and γ-globulins was increased by 20.8 and 1.9%. At the same time, high activity of the main transamination enzymes (AsAT, AlAT) was recorded in calves, the excess of which was 80.9 and 24.8%, relative to the average regulatory data.

The main indicators characterizing lipid metabolism (cholesterol, total bilirubin, total lipids) significantly exceeded the normative data. So, the cholesterol content was higher than normal by 8.0%, total bilirubin - by 16.9%, total lipids - by 5,%.

Thus, the conducted studies convincingly indicate that gastroenteritis is widespread among young cattle. The main causes of the disease are a high level of toxic elements in animal feed and diet, a sharp transition to a dairy-free type of feeding. The diagnosis of the studied pathology was made comprehensively on the basis of anamnestic data, characteristic symptoms of the disease, the results of laboratory tests of blood, feces and urine, as well as pathological examination.

It should be noted that there is no comprehensive treatment for calves with gastroenteritis in this farm. In advanced cases, intramuscular injection of tetracycline hydrochloride at a dose of 7 mg / kg, twice a day. However, this treatment is long-term and does not always give positive results.

In experimental studies on the effectiveness of vermiculite in combination with Baitril in the treatment of calves with gastroenteritis patients, 30 heifers of black-motley breed with a live weight of 120 kg, at the age of 5 months, were included. Animals according to the principle of balanced groups were divided into 3 groups of 10 animals each.

The first group of animals served as a control and received the main diet. As a therapy for patients with gastroenteritis, calves were intramuscularly injected with 7 mg / kg of tetracycline hydrochloride (the treatment regimen was accepted at the farm). Marked therapy was carried out 2 times a day for 14 days.

In addition to the diet, the calves of the second group (the claimed method) were injected with the natural mineral vermiculite of the Potanensky deposit at the rate of 0.1 g / kg body weight, once, daily for 14 days and intramuscularly, a 10% byte solution of 5 days was used according to the manual.

The calves of the third group (prototype) were injected with Vitartil at a dose of 0.2 g / kg of body weight and the vitamin preparation nitamine was intramuscularly administered at a dose of 0.5 ml / 10 kg of live weight, according to the manual.

As symptomatic treatment, the calves of the experimental groups were injected subcutaneously with caffeine sodium benzoate and intravenously 5% glucose solution.

The total duration of the experiment was 14 days.

Biochemical blood tests of experimental calves were carried out in dynamics on the 7th and 14th day of the experiment and compared with indicators obtained before the experiment (1st day, background) and normative data [G.P. Gribovsky, 1996 [7]; I.P. Kondrakhin et al. 2004 [15].

The basis of biochemical studies was data characterizing the level of toxic elements in the blood (lead, nickel and cadmium), the antioxidant system, and non-specific factors of animal body protection. The content of heavy metals in the blood of calves with gastroenteritis in the dynamics of treatment is presented in table 1.

Table 1 - The content of toxic elements in the blood of experimental calves, mg / l (M ± m, n = 10)

Chemical element Group of animals Norm Day treatment 1st (background) 7th 14th Nickel 1st control 0.12 0.64 ± 0.004 0.62 ± 0.002 0.63 ± 0.002 2nd claimed method 0.63 ± 0.003 0.48 ± 0.002 *** 0.22 ± 0.003 *** 3rd
Prototype 0.62 ± 0.002 0.60 ± 0.002 *** 0.57 ± 0.003 *** Lead 1st control 0.12 0.29 ± 0.003 0.27 ± 0.002 0.28 ± 0.005 2nd claimed method 0.29 ± 0.003 0.23 ± 0.003 *** 0.21 ± 0.004 *** 3rd
Prototype 0.28 ± 0.005 0.26 ± 0.002 ** 0.24 ± 0.004 *** Cadmium 1st control 0.05 0.060 ± 0.0003 0.061 ± 0.0002 0.059 ± 0.0005 2nd claimed method 0.060 ± 0.0003 0.058 ± 0.0002 *** 0.055 ± 0.0003 *** 3rd
Prototype 0.060 ± 0.0003 0.059 ± 0.0005 ** 0.056 ± 0.0004 *** Iron 1st control 250.00 290.2 ± 0.06 291.9 ± 0.21 290.1 ± 0.13 2nd claimed method 289.4 ± 0.04 272.2 ± 0.05 *** 256.7 ± 0.03 ***

3rd
Prototype 290.0 ± 0.06 277.3 ± 0.04 *** 260.9 ± 0.11 *** Note hereinafter:
M is the arithmetic mean of the group;
± m is the error of the arithmetic mean;
n is the number of animals in the group;
P - reliability relative to the data of the control group of animals:
* - <0.05; ** - <0.01; *** - <0.001

According to the materials of table 1, it can be seen that the content of toxic elements (nickel, lead, cadmium and iron) in the blood of experimental calves at the beginning of the experiment significantly exceeded the normative data.

In the blood of the calves of the control group who received the main treatment (tetracycline hydrochloride), the nickel level on the 7th day of treatment decreased by 3.1%, the 14th - by 1.5% relative to the background results. The combined use of vermiculite and Baytril was accompanied by a decrease in the concentration of nickel in the blood of animals throughout the experiment. So, on the 7th day, the content of the toxic element decreased by 22.5%, and by the end of treatment - by 65.7%, relative to the control parameters. The nickel content in the blood of calves of the third experimental group against the background of the combined use of vitartil and nitamine also decreased. So, on the 7th and 14th day of the experiment, the nickel level decreased by 3.22 and 9.52%, relative to the control values.

Thus, a decrease in the level of nickel in the blood of calves is most significant in the group with the claimed method of treatment.

During the experiment, changes were detected in the content of lead in the blood of experimental animals. The most pronounced decrease was observed in the group of animals where baytril and vermiculite were used. The treatment was accompanied by a decrease in the toxicant content in the blood of animals throughout the treatment. On the 7th day, its level decreased by 14.81% compared with the control group of animals.

In calves of the experimental group (prototype), against the background of the combined use of vitartil and nitamine, a tendency has been established to reduce the lead content in the blood of calves suffering from gastroenteritis. The most significant results were revealed on the 14th day of the experiment, when the content of the toxic element in the blood of calves was 14.2% lower than the control values.

During treatment in the blood of all experimental calves with gastroenteritis, a decrease in cadmium levels was detected.

The combined use of vermiculite and Baytril was accompanied by a decrease in the content of cadmium in the blood of calves throughout the entire experimental period. So, on the 7th day of treatment, the level of toxic element decreased by 4.9%, and by the end of the experiment - by 6.7% relative to the control values.

The level of cadmium in the blood of calves of the experimental group (prototype) under the combined use of vitartil and nitamine also decreased. On the 7th and 14th day of the experiment, the cadmium content was 3.21 and 5.0%, respectively, lower than in animals of the control group.

It was also noted that a decrease in the level of iron was observed in the blood of experimental animals.

With the combined use of vermiculite and Baytril (the claimed method) on the 14th day, there was a decrease in the concentration of the element by 11.5% in comparison with the control.

In the experimental group of calves (prototype) on the 7th day, the level of iron in the blood was lower than the control values by 5.0%. By the end of the experiment, its concentration in the blood of animals was 10.0% lower than in the blood of the control group of calves.

Thus, studies have established that vermiculite and vitartyl have sorption properties in relation to salts of heavy metals (nickel, lead, cadmium), and ion-exchange properties in relation to iron.

The studies conducted allow us to conclude that the proposed method for the treatment of calves with gastroenteritis is more preferable in relation to the control group and the existing prototype (vitartyl and nitamine), since its use allows more rapid reduction of the level of toxic elements in significant quantities.

Against the background of the therapy, experimental animals noted changes in indicators of fat and pigment metabolism, as well as antioxidant defense of the body. The results are presented in table 2.

Table 2 - Biochemical blood parameters of patients with calf gastroenteritis (M ± m, n = 10)

Indicator Group of animals Norm Day treatment 1st (background) 7th 14th Total lipids, g / l 1st control 3.6 3.75 ± 0.002 3.72 ± 0.003 3.73 ± 0.003 2nd claimed method 3.71 ± 0.004 3.70 ± 0.004 ** 3.61 ± 0.005 ***

3rd
Prototype 3.74 ± 0.003 3.71 ± 0.004 3.66 ± 0.008 * Cholesterol, mmol / L 1st control 2.86 3.0 ± 0.03 2.92 ± 0.005 2.91 ± 0.004 2nd claimed method 3.0 ± 0.04 2.77 ± 0.005 * 2.75 ± 0.005 * 3rd
Prototype 3.0 ± 0.03 2.84 ± 0.002 * 2.80 ± 0.004 * Bilirubin total, μmol / l 1st control 2.65 2.97 ± 0.003 2.91 ± 0.004 2.93 ± 0.004 2nd claimed method 2.94 ± 0.003 2.72 ± 0.004 ** 2.66 ± 0.005 ** 3rd
Prototype 2.95 ± 0.002 2.79 ± 0.008 * 2.72 ± 0.004 * Malondialdehyde, μmol / L 1st control 0.68 1.1 ± 0.02 1.0 ± 0.02 1.0 ± 0.02 2nd claimed method 1.1 ± 0.04 0.87 ± 0.003 ** 0.70 ± 0.003 ** 3rd
Prototype 1.1 ± 0.02 0.94 ± 0.003 ** 0.87 ± 0.003 **

Ceruloplasmin,

1st control 240.0 318.1 ± 0.005 316.0 ± 0.05 316.0 ± 0.05 2nd claimed method 317.9 ± 0.005 266.5 ± 0.03 ** 251.0 ± 0.03 ** 3rd
Prototype 318.1 ± 0.02 283.0 ± 0.02 ** 274.2 ± 0.02 *

Analysis of the data in table 2 shows that the content of total lipids in the blood serum of calves of the control group by the end of the experiment had no significant changes relative to the background indicators.

In the blood serum of the experimental group (the claimed method) calves on the background of complex treatment revealed a significant decrease in the level of total lipids throughout the experiment, but they were most pronounced on the 14th day. During this period, their level decreased by 3.21% compared with the control.

A decrease in the level of total lipids was found in the treatment of calves using vitartil and nitamine, however, a positive tendency to decrease in total lipids was less pronounced.

Against the background of a decrease in the concentration of total lipids in the blood serum of calves of the experimental groups, a regular decrease in their main oxidizing agent, cholesterol, was revealed. On the 14th day of treatment in the blood serum of calves of the experimental group (the claimed method), where vermiculite was used in combination with Baytril, the cholesterol level was 5.4% lower than the control values, and in the experimental group (prototype), against the background of the use of vitartil and nitamine - by 3.7%.

Thus, we can conclude about a more pronounced normalization of indicators of fat metabolism in calves with the claimed method of treatment.

In the blood serum of calves of the second experimental group, which were injected with vermiculite and Baytril, there was a decrease in the total bilirubin content throughout the treatment. On the 14th day, it was found that its level was 9.2% lower in comparison with the control.

In calves of the experimental group (prototype) on the 7th and 14th day of the experiment, the level of total bilirubin was 4.1 and 7.1% lower in comparison with the control group of calves.

Studies have established that with the claimed method of treatment, normalization of lipid metabolism is most pronounced.

When studying indicators of lipid peroxidation and the antioxidant system in patients with gastroenteritis, it was found that in the blood serum of the calves of the control group, no significant changes were detected during treatment.

On the background of the combined use of vermiculite and Baytril calves, the level of malondialdehyde on the 14th day was lower than the control data by 30.0%, and ceruloplasmin - by 20.5%, while when using vitartil and nitamine - by 13.0, respectively and 13.2%. In our opinion, the increased activity of the antioxidant defense of the body in calves of the third experimental group (prototype) is associated with the presence of vitamins A, E, which are powerful antioxidants, in the composition of nitamine. The data obtained indicate that the claimed method is more effective than the prototype.

During the experiment, calves suffering from gastroenteritis noted changes in indicators characterizing non-specific defense factors. The results are presented in table 3.

Table 3 - Indicators of nonspecific resistance of patients with calf gastroenteritis (M ± m, n = 10)

Indicator Group of animals Norm Day treatment 1st (background) 7th 14th White blood cell phagocytic activity 1st control 54,2 31.9 ± 5.2 36.1 ± 0.04 41.0 ± 0.05 2nd claimed method 32.8 ± 4.6 45.2 ± 0.05 *** 53.9 ± 0.04 *** 3rd
Prototype 32.0 ± 0.02 37.5 ± 0.05 ** 46.9 ± 0.04 ** Bactericidal activity of blood serum 1st control 69.3 41.0 ± 4.5 46.6 ± 0.05 48.8 ± 0.04 2nd claimed method 40.6 ± 3.6 54.7 ± 0.05 *** 69.6 ± 0.06 *** 3rd
Prototype 40.8 ± 0.02 48.3 ± 0.06 *** 51.7 ± 0.04 *** Lysozyme activity of blood serum 1st control 28.6 13.70 ± 0.80 14.40 ± 0.007 16.80 ± 0.004 2nd claimed method 13.15 ± 0.90 19.65 ± 0.005 ** 25.40 ± 0.004 *** 3rd
Prototype 13.76 ± 0.003 16.33 ± 0.005 * 19.82 ± 0.005 **

According to the table materials, in the control group of calves, significant changes in the indicators of nonspecific protection for the period of the experiment were not detected.

In the blood of the second experimental group of calves with the combined use of vermiculite and Baytril, on the 14th day of the experiment, it was noted that the phagocytic activity of leukocytes was 31.4%, and the level of bactericidal and lysozyme activity of blood serum was 42.6 and 51.1% respectively above the control values.

In the blood of calves of the third group, where vitartil was used in combination with nitamine, on the 14th day of treatment the level of leukocyte phagocytic activity, serum bactericidal and lysozyme activity was –14.3; 5.9 and 17.9%, respectively, are higher than the control values. Thus, the normalization of indicators of non-specific protection factors in the claimed method of treating calves is most pronounced.

It should be noted that the previously proposed method for the treatment of calves with gastroenteritis using vitartil and nitamine [P.G. Filippov, 2008 [21]] had an important drawback - during treatment, normalization of body temperature in calves with gastroenteritis patients was not detected, which was accordingly accompanied by changes in the recovery period, which was 4-5 days longer than with the claimed method.

Thus, the proposed method for the treatment of calves with gastroenteritis by the combined use of vermiculite and the antimicrobial preparation Baitril can reduce the level of toxic elements in the blood of calves, normalize biochemical parameters, antioxidant protection and non-specific resistance factors. This method is more physiological and therapeutically effective in comparison with other methods.

Summarizing the obtained data, we can conclude that the claimed method, in comparison with the prototype and other methods proposed in this area, allows recommending the mineral enterosorbent vermiculite of the Potanensky field in the treatment of calves suffering from gastroenteritis in technogenic provinces with excess lead, nickel and cadmium based 0.10-0.15 g per 1 kg of live weight once for 12-14 days in combination with the administration of the antimicrobial drug Baytril at a dose of 2.5-2.6 ml once, 4-5 days. The duration of treatment is 12-14 days.

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Claims (1)

A method for the treatment of calf gastroenteritis in technogenic provinces with an excess of lead, nickel and cadmium, consisting of symptomatic therapy, by subcutaneous administration of caffeine sodium benzoate and 5% glucose solution, as well as by intramuscular administration once, 4-5 days Baytril at a dose of 2.6- 2.7 ml and the additional introduction of the mineral enterosorbent of vermiculite of the Potanensky deposit at the rate of 0.11-0.15 g per 1 kg of live weight once, daily 12-14 days with a treatment duration of 12-14 days.