RU2599499C1 - Method of treating hepatosis of dairy cows in conditions of technogenic provinces with excess lead, nickel and cadmium - Google Patents

Abstract

FIELD: veterinary science.

SUBSTANCE: invention relates to veterinary science and aims at treating hepatosis of dairy cows in conditions of technogenic provinces. Method involves double intramuscular administration of Gabivit-Se preparation in a dose of 15-20 ml every 6-8 days. Method includes additionally introducing into diet natural mineral vermiculite of Potaninskoye deposit in amount of 0.10-0.15 g/kg of live body weight twice a day for 14-15 days every 14-15 days, for 85-90 days of administration.

EFFECT: method possesses pronounced effect in treating hepatosis of cows.

1 cl, 3 tbl, 1 ex

Description

The invention relates to veterinary medicine and can be used in the treatment of hepatosis of highly productive cows 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 causes (protein overfeeding, low-quality succulent feed, physical inactivity) contribute to the development of hepatosis. Non-communicable pathology in the southern Urals is widespread. According to research A.M. Gertman et al. [2014; 6] it was found that in the farms of the Chelyabinsk region, liver diseases account for 14-23% of the total number of all internal non-communicable animal diseases.

It is known that toxic elements migrate along the chain “soil-forage crops - animal organism” and contribute to a change in the course of all metabolic processes. According to A.M. Ezhkovoy, A.Kh. Yapparova, M.S. Ezhkovoy [2011; 8], I.A. Shkuratova [2001; 21] the main organs - “targets” in the body are the liver and kidneys, in which changes of both non-inflammatory and inflammatory nature can occur. That is why in dairy cattle breeding in areas of ecological distress in animals, hepatosis is often recorded. Particularly alarming is the fact that those animals whose productivity exceeds 4.5 thousand kg of milk per lactation are more susceptible to the disease.

Fatty hepatosis is a liver disease accompanied by dystrophic changes in the hepatic parenchyma of a non-inflammatory nature. It is characterized by the accumulation of triglycerides in hepatocytes and impaired function of the organ as a whole. All types of animals get sick, especially with their intensive use [G.G. Shcherbakov, A.V. Korobov, 2009; four].

A rather large number of works has been devoted to the treatment of cows with hepatosis [I.A. Shkuratova et al., 2005 [2]; I.A. Nikulin, 2006 [/ 6]; I.I. Kalyuzhny et al., 2007 [11]; B.V. Usha et al., 2011 [19]]. However, clear and therapeutically effective schemes, especially for the conditions of natural-technogenic provinces, have not yet been developed. In this regard, veterinary practice does not have the opportunity to carry out treatment and preventive measures under conditions of technogenic pressure, which is accompanied by culling of a significant number of animals due to the noted pathology and large economic losses.

In the works of SM. Suleymanova, BC Slobodyanik, AM Samotin et al. [2004; 18] it was proposed the use of a biologically active drug of plant origin - guvitan. This drug in its composition contains a number of biologically active substances, among which are salts of humic acids, humatomelanic and sulfonic acids, amino acids, peptides, trace elements and vitamins (B ₁ , B ₂ , B ₃ , B ₆ , Β ₁₂ , C, PP, folic acid, pantothenic acid, biotin), amylase and catalase. An experimental group of bulls for fattening at the age of 10-12 months received the drug at the rate of 0.45 L of guvitan extract per 100 kg of body weight for 4 months. This method is low-tech and time-consuming due to the inconvenience of dosing and introduction into the diet.

I.A. Shkuratova et al. [2005; 2] the use of Nutril-Se® was proposed, which is a combination of 12 vitamins (A, C, D, E, K, group B), 3 essential amino acids (tryptophan, lysine, methionine) and selenium. The choice of the drug is due to the fact that selenium has a high detoxification activity, which is associated with its ability to react with heavy metals. It restores disulfide bonds with proteins and SH-groups well capture heavy metals. Selenium is also an antioxidant, preventing the activation of lipid peroxidation. The protective effect of selenium is supplemented and enhanced by vitamins that are part of the drug. Cows of the experimental group were fed Nutril-Se® at a dose of 10 g per head per day for five days. The drug was given in powder form mixed with concentrates. This method of application in large industrial enterprises will provide the desired effect, but it does not reduce the content of toxic substances in the animal's body.

The closest analogue is a method for treating cattle suffering from hepatosis according to the scheme, which includes the introduction of a 20% solution of the herbal medicine Lucevit obtained from alfalfa by extraction and subsequent concentration of the mixture, at a dose of 25 mg / kg of body weight intramuscularly 1 time per day within three days, three times with an interval of three days [I.F. Khazimukhametova, P.P. Idrisova, 2008; twenty].

The drug contains a number of biologically active substances (sterols, vitamins, amino acids, sugars, macro- and microelements), which are involved in the neutralization of food toxins in the liver and small intestine, regulate metabolic processes, increase the body's natural resistance, normalize the intestinal microflora, have hepatoprotective and choleretic action. However, this method of treating hepatosis is not technological, since it requires an individual approach to the animal and does not solve the problem of detoxification of the body from toxic elements, does not exclude the content of heavy metals in the preparation itself, which are found in excess in the soils where alfalfa is grown.

So, C. B. Vasilyeva [2011; 1] it is proposed to introduce into the diet of cows a vitamin-mineral premix containing vitamins of groups B, A, D, E, H, as well as macro- (calcium, phosphorus, magnesium, sulfur) and trace elements (copper, zinc, cobalt, iodine, selenium ) At the same time, the cows of the experimental group were administered the proposed complex daily at a rate of 100 g per head per day for two months before calving. The long period of use of the premix, the costs of a large amount of the drug, as well as the absence of a detoxifying effect, do not allow recommending this composition for animals in the zone of ecological distress.

A.A. Kontsevova [2014; 13] offers a new way to correct liver failure in dogs by applying a complex of methods and tools based on dynamic electroneurostimulation (DENS) to biologically active points and nanosuspensions of cluster silver with the addition of cattle bile as part of the Fargentum-G preparation. The drug is administered orally after feeding 2 times a day with an interval of 12 hours; the dose of the drug for animals is prescribed at the rate of 1 ml / kg body weight. The course of use of the drug in chronic liver failure is 19 days. A session of dynamic electroneurostimulation is carried out 2 times a day after drinking Fargentum-G. The session lasts 10 minutes. The impact is exerted on biologically active points, which are used in the diagnosis of the functional state of the liver. They are located on the ventral side of the body and belong to the meridians of the liver, stomach and spleen — the pancreas and the anterior median. This method requires significant time for the procedure, the availability of devices for DENS. In addition, the type of dog food is very different from that of highly productive ruminants.

A.M. Savelov, A.G. Khisamutdinov, A.Z. Ravilov et al. [2014; 17] obtained positive results when using the weathered Vivaton extract in broiler poultry farming with a number of pathologies. Including with toxic dystrophy of the liver. Vivaton extract is a pharmacopoeial drug of plant origin, obtained by extraction of various herbs (up to 28) containing balanced biological components. About 200 active medicinal ingredients are identified in it, which are contained directly in the herbal collection or are formed during the hydrolysis of the starting components during the extraction process. Vivaton extract in its composition contains organic acids, amino acids, including essential, vitamins, phytoncides. Glucosides, saponins, essential oils and others. In addition, it contains iron, calcium, potassium, magnesium, sodium, cobalt, manganese, copper, manganese, chromium, zinc, nickel, cadmium, lead, and mercury. 1 liter of Vivaton extract contains the largest amount of potassium and magnesium, and the content of mercury, lead and cadmium does not exceed the maximum permissible concentration, according to the requirements of SanPiN. It was used in a dose of 2 ml per 1 kg of the mass of chickens with drinking water. Prior to use, the ammonia used as a preservative was removed (weathering) from the composition of the extract. The drug was used during the period of poultry growth and starting fattening (1-24th day of rearing) and during the period of intensive fattening (30-35th day) with interruptions in vaccination. In our opinion, the use of this extract under conditions of intense technogenic stress is unreasonable, as it will contribute to a greater accumulation of salts of heavy metals in the body, as well as products obtained from these animals.

A number of authors [E.V. Zinchenko, 2000 [9]; B. Kaloev, 2003 [10]] proposes to use herbal remedies for hepatopathies, which most often contain extract of milk thistle flavonoids. They protect the membranes of liver cells from the penetration of toxins into them. Due to the phenolic structure, they are able to bind radicals and interrupt the processes of lipid peroxidation in hepatocytes. Milk thistle flavonoids also stimulate the antioxidant defense system, increase the content of reduced glutathione in the liver, as well as protein synthesis; accelerate the regeneration of damaged hepatocytes. The use of drugs of this group for liver diseases may also be appropriate when combining viral liver damage with toxic. The difficulty is that to date there are no clear instructions on the method, dose, frequency and duration of treatment of hepatopathies in animals. The reference of a number of authors to the harmlessness of the drug does not allow the extract to be widely used in veterinary medicine.

L.E. Kolkunova [2013; 12] recommends using Ovsar at a dose of 0.5 g / kg of body weight daily for 28 days (until the end of feeding) for pharmacological correction of toxic hepatosis in broiler broilers, and feeding Ovsar at a dose of 0.3 for pharmacological correction of toxic hepatosis g / kg body weight for 12 days (until the end of fattening). It is possible to use Ovsar in farms at the rate of 3-5% of the dry matter of the feed.

Ovsar is a multicomponent pharmacological agent for the pharmacocorrection of toxic hepatoses and increase the productivity of poultry. Contains milk thistle, germinated oat grains and phosphogypsum in its composition. Phosphogypsum is a complex of calcium dehydrate sulfate (at least 92%), alkaline metal silicofluorides (sodium, potassium), calcium fluorides, iron and aluminum phosphates, calcium fluoroappatite, nepheline, iron and aluminum silicates.

Milk thistle cake is obtained by cold pressing oil from ground seeds of milk thistle and belongs to the group of plant hepatoprotectors, which have a protective and regenerative effect on the liver. The active active ingredients of milk thistle are silymarin and silybin. Milk Thistle seeds contain fatty oil (up to 32%), essential oil (0.08%), resins, mucus, biogenic amines (tyramine, histamine), flavononollignans (2.8-3.8%), silybin, silymarin, macrocells (9.2 mg of potassium, 16.6 - calcium, 4.2 - magnesium, 0.08 mg / kg - iron), trace elements (0.1 μg manganese, 1.16 - copper, 0.71 - zinc, 0 , 15 - chromium, 22.9 - selenium, 0.09 - iodine, 22.4 μg / kg of boron, etc.). Concentrate copper and selenium. Silymarin effectively protects the liver from toxic substances, restoring the drainage function of the biliary tract, contributing to the production and enhancement of bile excretion, the optimal amount of which ensures complete digestion of fats and the necessary absorption of fat-soluble vitamins. Silymarin activates intestinal motility and thereby contributes to the timely removal of its contents. The inhibitory effect of silymarin on the enzyme, accelerating the process of peroxidation in the cells of the body, which is a powerful means of protecting the liver from the negative effects of toxins entering the body, was noted. Silymarin is able to neutralize reactive oxygen species and terminate chain free radical reactions, breaking chains. It undergoes free radical transformations in the liver, translating them into less toxic forms. Silymarin inhibits the destruction of liver cell membranes; It has an immunomodulatory effect, as it contributes to the normal functioning of the liver, supports the entire immune system of the body. With the participation of silymarin, the antitoxic function of the liver is normalized, which is disturbed when the lipid layer of the cell membranes is destroyed by drugs of various pharmacological groups, toxins, including fungal origin.

The second thistle flavonoid, silybin, promotes the production of glutathione by the liver cells, one of the body's own strongest antioxidants. Silybin promotes the formation of new hepatocytes, restoring liver cells affected by toxins and viruses, stimulating the synthesis of RNA, proteins and phospholipids, which activate cell growth. The condition of animals with liver diseases is stabilizing, blood counts are normalizing: the activity of transaminases, γ-glutamyl transferase, alkaline phosphatase and bilirubin level are reduced; cholesterol content in bile is reduced.

The composition of the Ovsar preparation includes germinated oat grains, which in many ways surpass the seedlings of other cereal crops. Germinated oat grains are characterized by an optimal ratio of proteins (9-20%), fats (11%), carbohydrates (40%) and B vitamins. Oats contain soluble fiber, vitamins Ε and K, calcium, magnesium, sulfur, iron, silicon, chromium, zinc, fluorine, iodine. Oat seedlings have an enveloping, choleretic and diuretic effect. They activate the elimination of toxins. Often oat seedlings are used as a tonic, restorative, anti-inflammatory and antihypoxic agent.

ON. Kochueva [2007; 14] offers patients with hepatosis to minks to use the domestic homeopathic preparation Liarsin® (Helvet LLC, Moscow), which effectively regulates the metabolism in animals and has a hepatotropic effect. The composition of this drug includes three main components, each of which is widely used in homeopathic practice: Licopodium (D30 dilution), Arsenicum album (D8 dilution), Phosphorus (DI 2 dilution). The drug was administered intramuscularly at a dose of 0.5 ml twice with an interval of 7 days. The use of this method of treatment of cows with hepatosis is unacceptable, since the basis of the diet of ruminants is feed of plant origin and the genesis of the pathology is somewhat different from that of carnivores.

According to G.A. Vostroilova [2004; 3] such original drugs as lipotone and aminotone obtained by cryogenic sublimation are effective hepatoprotectors that exceed Sirepar and Essentiale reference agents in the degree of beneficial effect on the structural and metabolic parameters of the liver during experimental hepatosis. Studies were conducted on white outbred rats. The animals of the experimental group intramuscularly used tissue preparations: lipoton at a dose of 0.05 and 0.005 ml / kg, aminoton - 0.1 ml / kg of body weight.

Lipoton is a preparation of phospholipids, aminotone contains amino acids. According to the author, the lipotone is the most pronounced hepatoprotective property - the lipophilic fraction of cryosublimated placental tissues obtained by the method of chladone extraction. The composition of the lipotone includes myonositis, which has lipotropic properties and is embedded in the phosphatidylinositol of cell membranes. Phosphatidylinositol (one of the active substances of the lipotone) is the most important component of cell membranes and lipoproteins that have a membrane protective effect. One of the effects of the polyunsaturated phosphatidylcholine, which is part of the drug, is the activation of collagenases in lipocytes, which produce collagen in the tissues of the liver. Thus, lipotone prevents the onset of fibrosis and cirrhosis of the liver. The mechanism of the hepatoprotective effect of the aminotone and lipotone preparations is due to their antioxidant properties, restoration of the normal spectrum of membrane phospholipids, and improvement of the antitoxic function of the liver. But the massive use of these drugs is problematic because of their possible side effects, the presence of contraindications, insufficient information on the dosage of the drug and the duration of the course of treatment.

As a prototype of the claimed method used the treatment method proposed by the team led by A.M. Gertman [5]. For 85-90 days, cows with hepatosis are treated with the complex application of vermiculite of the Potanensky field at a dose of 0.1 g / kg of body weight twice a day, for 14 days with an interval of 14 days and a selenium-containing preparation Depolen at a dose of 2 ml per calculation per 100 kg of body weight once for the entire period of treatment. However, this method does not ensure the normalization of the state of antioxidant protection of the body of lactating animals, which does not allow to restore clinical, hematological and productive qualities.

The aim of the present invention is to develop a more effective method for the treatment of hepatosis of dairy cows in ecologically disadvantaged areas 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 selenium-containing preparation into the feed ration. Gabivit-Se.

This goal is achieved by the fact that dairy cows of patients with hepatosis in technogenic provinces are injected intramuscularly with the selenium-containing preparation Gabivit-Se twice with an interval of 6-8 days (1st and 7th-9th days) at a dose of 15-20 ml per head. At the same time, vermiculite of the Potanensky field was fed into the feed ration in a mixture with concentrates at the rate of 0.10-0.15 g / kg of body weight twice a day for 14-15 days with a subsequent interval of 14-15 days. The duration of treatment was 85-90 days. Vermiculite provides detoxification therapy by eliminating cows of lead, nickel and cadmium salts from the body through the gastrointestinal tract, and Gabivit-Se activates the antioxidant defense of the body and normalizes the functional state of the liver.

A comparative analysis of the claimed solution with the prototype shows that this method differs from the known one in that for the treatment of cows with hepatosis, a combination of selenium-containing preparation and mineral enterosorbent of vermiculite of the Potanensky field of the Chelyabinsk region is used, which are introduced into the diet of lactating cows in a mixture with concentrates twice per day according to a certain pattern for 85-90 days. Instead of the selenium-containing drug Depolen, Gabivit-Se is used twice.

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 lactating cows with hepatosis.

Execution example. The method is implemented as follows. Vermiculite is introduced into the diet at a dose of 0.10 g / kg of body weight 2 times a day for 15 days with interruptions of 15 days, for 90 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.

Gabivit-Se is a preparation containing fat-and water-soluble vitamins as active ingredients (vitamin A, D ₃ , E, B ₁ , B ₂ , B ₅ , B ₁₂ , pantothenic acid, nicotinamide, inositol, choline citrate), sodium selenite , trace elements (copper, cobalt, zinc, manganese), protein hydrolyzate (lactoalbumin), as well as nipagin (preservative) and water for injection (solvent). For therapeutic purposes, it is recommended to administer it to cattle intramuscularly twice with an interval of 7 days at a dose of 15-20 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 data obtained 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 animals.

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. Studies have convincingly shown that the recommended dose and frequency of administration of mineral enterosorbent can be used in the diet of ruminants.

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

According to the literature and the results of our own research, it was established that the territory of the Verkhneuralskiy district is a technogenic province of natural and anthropogenic origin. Iron and ammonium ores and industrial gold are mined in the region, and reserves of nickel ores are explored. Not far from the border of the region is a giant of ferrous and non-ferrous metallurgy - Magnitogorsk Iron and Steel Works.

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 (iron, nickel, cadmium) in quantities exceeding the maximum permissible concentration (MPC). Forage crops such as boneless bonfire, corn, barley, oats, and wheat grow on these fields. In addition, in the soils where annual herbs are grown, a high level of lead was detected, which was higher by 22.0%. At the same time, a decrease in the content of essential trace elements in soils was revealed. The deficit of copper, zinc and cobalt in soil samples on which hay crops were grown was 87.0%, 34.0 and 84.0%, respectively, relative to the MPC values. In soil samples where the boneless bonfire grew, silage and grain crops, the copper deficit, respectively, amounted to 86.0%; 86.0% and 85.0%, zinc - 33.0%, 35.0 and 37.0%, cobalt - 90.0%, 87.0 and 83.0%.

In the study of feed samples, it was found that they all contain iron, lead, nickel and cadmium in high concentrations. So, in the kosteretsovy hay, the iron content was higher than the maximum permissible level (MDL) by 45.4%, grain fodder - by 20.2, barley straw - by 19.7, haylage - by 8.3%. Studies have shown that the lead content in grain fodder was 13.2% higher than the MPL, bonfire hay - 6.0%, haylage - 5.6%, barley straw - 5.6%. Nickel in the silage was 2.2 times higher than the MDL, in grain fodder (oats + barley) - by 58.7%, barley straw - by 42.0%, bonfire hay - by 35.3%. The highest levels of cadmium were found in samples of feed such as haylage and sacral hay. The toxicant content in the indicated feeds was higher than the MPL values by 88.0 and 48.0%, respectively.

The level of essential trace elements (copper, cobalt, zinc, 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 iron, lead, nickel and cadmium 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 area of Khlebinka LLC in the Verkhneuralsk district of the Chelyabinsk region is a biogeochemical province with a pronounced deficiency of essential (copper, cobalt, manganese, zinc) and excess toxic (iron, lead, nickel, cadmium) elements. The constant contamination of animals with toxicants has a negative effect on all organs and systems in general, and on liver cells in particular.

On the farm, hepatosis is widespread among lactating cows, 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 of 10.3% of the total nutritional value are roughage (hay), 50.2% - succulent (haylage, silage) and 39.5 - concentrated (pulp of cereal grains). Type of feeding - concentrate silage-silage. The diet revealed a deficiency of simple easily digestible carbohydrates, carotene, fiber, excess - raw and digestible protein, metabolic energy and dry matter. The diet revealed a deficiency of such important minerals as calcium, magnesium, zinc and manganese. The calcium content in the diet was lower than the norm recommended by VIZh, by 41.6%, magnesium - by 8.5%, zinc - by 58.9%, manganese - by 30.8%. More 3.8 times more iron, 2.4 times more copper, 5 times more cobalt, came into the gastrointestinal tract of animals with feed. The total intake of an animal (on average) was 214.0 mg of lead, 217.8 mg of nickel, 23.3 mg of cadmium.

Thus, an analysis of the diet of hepatosis patients with cows convincingly indicates that the combination of a deficiency of simple carbohydrates, an excess of raw and digestible protein, an imbalance in the mineral composition of feed and the presence of salts of heavy metals in significant quantities is the main etiological factor in liver diseases (hepatosis) on technologically contaminated territory.

Clinical examination of 296 animals in 53 (17.9%) cows revealed symptoms of hepatosis: loss of appetite, impaired chewing and belching, partial hypotension of the stomach (scar movement - DR - 2 in 2 ′), weakening of intestinal motility, increased percussion borders the liver. In some of them, pain in the area of hepatic dullness was observed, and the visible mucous membranes were slightly icteric. It should be noted that all cows with hepatosis had average and above average fatness.

The clinical manifestations of hepatosis were confirmed by pathological examination and histological studies of liver samples obtained from culled animals due to loss of productivity. Macroscopically, the liver of patients with hepatosis of cows is enlarged in volume, flabby, with a different kind of color: either a uniform clay-yellow color, or mottled with alternating yellowish background of red sections of different sizes. In a histological examination, the dominant pathological changes were fat decomposition and simple obesity of hepatocytes. In addition, granular dystrophy of hepatocytes, foci of necrosis, hemodynamic disorders and proliferative changes were noted. Extensive alterative changes in the liver during fatty and toxic hepatosis caused by the action of heavy metal salts and endogenous toxins cause the development of chronic inflammation, which is confirmed by the presence of vascular and proliferative reactions in the liver of some animals. That is, in this group of cows there is not only hepatosis, but a chronic course of the inflammatory process. The presence of a large number of eosinophils in the cell infiltrate suggests that an autoimmune reaction plays a role in the genesis of hepatosis, along with other factors.

In the study of the chemical composition of the blood of patients with hepatosis of cows, it was found that the level of iron, lead, nickel and cadmium exceeded the normative data by 53.3; 27.0; 38.0 and 52.5%, respectively. The content of copper, zinc and cobalt was lower by 55.5; 58.4 and 77.5% of the norm.

In the study of blood parameters characterizing various types of metabolism in cows, it was found that the main metabolic processes are impaired. So, the blood glucose level of cows is reduced by 37.3% relative to the average normative data. Also, dysproteinemia was noted in the blood serum of sick animals: against the background of a decrease in the level of albumin and α-globulins by 21.4 and 40.0%, respectively, the concentration of β- and γ-globulins was increased by 45.4 and 37.0%. At the same time, high activity of the main transamination enzymes (AcAT, AlAT) was recorded in cows, the excess of which was 56.9 and 29.3%, 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 32.5%, total bilirubin - by 55.1%, total lipids - by 22.7%. All this was accompanied by excessive formation and accumulation of malondialdehyde, a product of lipid peroxidation, against the background of a decrease in the antioxidant defense of the body (using the example of a low concentration of ceruloplasmin in blood serum).

Thus, the conducted studies convincingly indicate that hepatosis is widespread among lactating highly productive cows. The main causes of the disease are a high level of toxic elements in animal feed and diet, protein overfeeding. The diagnosis of the studied pathology was made comprehensively on the basis of anamnestic data, characteristic symptoms of the disease, the results of laboratory blood tests, as well as pathological examination and examination of liver samples of sick animals.

It should be noted that there is no comprehensive treatment for cows with hepatosis in this farm. In advanced cases, symptomatic treatment is carried out by intravenous administration of a 10-20% glucose solution in a dose of 250-300 ml, a 10% calcium chloride solution in a dose of 100-150 ml. However, this treatment does not always give positive results and does not allow to restore the productive qualities of animals.

In experimental studies on the effectiveness of vermiculite in combination with Gabivit-Se in the treatment of patients with hepatosis of cows, 30 animals of black-motley breed, live weight of 500-550 kg in the second or third month of lactation with an average daily milk yield of 15.0-15.9 kg were included milk. 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 pathogenetic therapy for hepatosis patients, 100-150 ml of 10% glucose solution and 100-150 ml of 10% calcium chloride solution were intravenously administered to cows. Marked therapy was performed 1 time in 15 days.

In addition to the diet, the cows of the second group were injected with the natural mineral vermiculite of the Potanensky deposit at the rate of 0.10-0.15 g / kg body weight twice a day in a mixture with concentrated feed according to the scheme for 15 days with an interval of 15 days. Also, animals of the second group received symptomatic treatment: intravenously, 10% glucose solution in a dose of 100-150 ml and 10% calcium chloride solution in a dose of 100-150 ml. Marked therapy was performed 1 time in 15 days. At the same time, selenium-containing drug Gabivit-Se was administered intramuscularly at a dose of 15-20 ml twice with an interval of 7 days for the entire treatment period.

In addition to the diet, cows of the third group were supplemented with the natural mineral vermiculite of the Potanensky deposit at the rate of 0.10-0.15 g / kg of body weight twice a day. Vermiculite was fed in a mixture with concentrates for 15 days with an interval of 15 days. Also, animals of the third group received symptomatic treatment: intravenously 10% glucose solution in a dose of 100-150 ml and 10% calcium chloride solution in a dose of 100-150 ml. Marked therapy was performed 1 time in 15 days. Animals of this group were once injected with the selenium-containing drug Depolen at a dose of 2 ml per 100 kg of body weight for the entire treatment period. This method of treating cows with hepatosis was taken as a prototype of the claimed.

The total duration of the experiment was 90 days.

Biochemical blood tests of experimental cows were carried out in dynamics on the 30th, 60th and 90th days 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 [75].

Biochemical studies were based on data characterizing the level of toxic elements (lead, nickel and cadmium) in the blood, the exchange of protein compounds and the functional state of the liver, and antioxidant protection of the animal organism. The content of heavy metals in the blood of cows with hepatosis in the dynamics of treatment are presented in table 1.

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

In the blood of cows of the control group that received only symptomatic treatment (glucose, calcium chloride), the level of lead on the 30th day of treatment decreased by 4.1%, on the 60th - by 6.9% relative to the background results. At the end of the experiment, it was above the norm by 18.8%. The combined use of vermiculite and Gabivit-Se was accompanied by a decrease in the concentration of lead in the blood of animals throughout the experiment. So, on the 30th day, the content of the toxic element decreased by 9.2%, on the 60th - by 16.8%, and by the end of treatment - by 21.3% relative to the background values. In the final result, the level of lead was 0.247 ± 0.003 mg / l, which corresponded to the average standard level. The blood lead content in the cows of the third experimental group was also reduced against the background of the combined use of vermiculite and Depolen. So, on the 30th day of the experiment, the level of lead decreased by 6.9%, on the 60th - by 10.4, on the 90th - by 17.0% relative to the initial level.

Thus, the use of vermiculite provides a decrease in the level of lead in the blood of cows, but most significantly when using the selenium-containing preparation Gabivit-Se.

During the experiment, changes were detected in the nickel content in the blood of experimental animals. In animals of the control group, the level of toxic element in the blood tended to increase and by the end of the experiment was higher than the baseline by 3.7%, regulatory data - by 64.2%.

The introduction of the Potanensky field vermiculite into the diet in combination with the selenium-containing preparation Gabivit-Se was accompanied by a decrease in the toxicant content in the blood of animals throughout the treatment. Already on the 30th day, its level decreased to 0.152 ± 0.002 mg / l, which is 20.0% lower than background values. By the end of treatment, the nickel level almost reached the normative data.

Against the background of the combined use of vermiculite and Depolen, cows of the third experimental group also showed a tendency to a decrease in the nickel content in the blood. The most significant results were found on the 90th day of the experiment, when the content of the toxic element in the blood of cows was 14.7% lower than the background.

Thus, more effective results were obtained with the combined use of the mineral enterosorbent vermiculite and Gabivit-Se.

During the treatment, a decrease in the level of the highly toxic cadmium element was recorded in the blood of all experimental cows with hepatosis. So, in the control group of cows, the decrease in the toxicant on the 30th and 60th day was insignificant. At the end of the experiment, its concentration in the blood of animals was 0.0670 ± 0.0002 mg / l, which is 4.3% lower than the background, but 34.0% higher than the average normative data.

The combined use of vermiculite and Gabivit-Se was accompanied by a decrease in the cadmium content in the blood of cows throughout the entire experimental period. So, on the 60th day of treatment, the level of the toxic element decreased by 13.0%, and by the end of the experiment - by 26.1% relative to the background values and amounted to 0.0510 ± 0.0003 mg / l, which is almost normal.

The level of cadmium in the blood of cows of the third experimental group under the influence of the combined use of vermiculite and selenium-containing drug Depolen also decreased. On the 90th day of the experiment, the cadmium content in the blood of cows was 0.0550 ± 0.003 mg / l, which was 10.0% higher than the standard data, but 21.4% lower than the background values. The obtained results confirm the sorption properties of vermiculite in relation to cadmium.

Thus, vermiculite has pronounced sorption properties in relation to salts of heavy metals (lead, nickel, cadmium), especially in combination with the selenium-containing preparation Gabivit-Se.

The studies allow us to conclude that the proposed method for the treatment of cows with hepatosis is more preferable in relation to the control group and the existing prototype (vermiculite and Depolen), since its use allows not only detoxification therapy in relation to salts of heavy metals (lead, nickel, cadmium), but also against this background, intensify the exchange of protein compounds and antioxidant protection in the body of experimental animals.

The treatment of patients with hepatosis shelter had a significant impact on the course of metabolic processes in the body and the functional state of the central organ of metabolism - the liver, as evidenced by the data in table 2.

According to the materials of the table, the imbalance of the diet, the concentrate type of feeding is accompanied by a high content in the blood serum of patients with hepatosis of cows of total protein, the level of which exceeded the average normative data by 12.1-12.7%.

During the treatment, the concentration of total protein in the blood serum of the control group of cows on the 90th day decreased by 2.4%, while in animals of the second group - by 10.2%, of the third group - by 8.0%.

The decrease in the total protein content in the blood serum of experimental cows was accompanied by an increase in the level of albumin transport proteins on the 90th day of treatment relative to background values. So, in the second group, where vermiculite was used in combination with Gabivit-Se, the concentration of albumin increased by 26.4%, in the third, against the background of the combined action of vermiculite and Depolen, by 16.0%. In animals of the control group, at the end of treatment, the content of albumin in the blood serum remained at the same level.

Particular attention should be paid to the content of serum proteins of β- and γ-globulin fractions. Their concentration in the blood serum of all experimental cows with hepatosis before treatment began significantly exceeded the limits of reference values. An increase in the mass fraction of proteins of the noted fractions in the blood serum of the experimental groups indicates fatty degeneration of hepatocytes and a violation of the protein-synthetic function of the liver as a whole. This phenomenon is confirmed by the high activity of aspartate and alanine aminotransferase relative to standard values.

Against the background of the treatment, the level of β-globulins in the blood serum of cows of the control group decreased by 7.4%, the third experimental group, which was injected with vermiculite in combination with selenium-containing drug Depolen, by 17.5%, and the second experimental group, with the use of vermiculite and Gabivit-Se - by 27.0% relative to the original value. In addition, in the blood serum of which the experimental group of cows, a regular decrease in the mass fraction of proteins of the γ-globulin fraction by 27.0% relative to the background values was recorded. This pattern indicates the normalization of the functional state of the liver and is confirmed by a decrease in the activity of AsAT and AlAT by 32.0 and 18.5%, respectively.

In animals of the second experimental group, which used vermiculite in combination with Gabivit-Se, normalization of the urea-forming function of the liver was noted, which is characterized by a decrease in the level of urea in the blood serum by 25.7% relative to the background values.

A similar tendency was revealed in the blood serum of cows of the third experimental group (vermiculite + Depolen), however, the changes were less pronounced than in the blood of animals of the second experimental group.

Making a general conclusion from the results of the studies, it should be noted that the proposed method for the treatment of cows with hepatosis with the inclusion of vermiculite and selenium-containing drug Gabivit-Se has the most pronounced therapeutic efficacy, which is confirmed by biochemical results characterizing the functional state of the liver.

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 3.

Analysis of the data in table 3 indicates a violation of fatty, pigment metabolism, a decrease in antioxidant protection in patients with hepatosis of cows. So, the content of total lipids in the blood serum of cows of the control group exceeded the normative data by 24.3%. By the end of the experiment on the 90th day, this indicator was 4.445 ± 0.003 g / l, which is 0.6% lower than background values and 23.3% higher than standard values.

In the blood serum of the second experimental group of cows, against the background of the combined use of vermiculite and Gabivit-Se, a significant decrease in the level of total lipids was observed throughout the experiment, most pronounced on the 90th day. During this period, their content was 3.653 ± 0.010 g / l, which is 18.4% lower than background values. A similar biochemical picture was established in cows of the third experimental group. However, the positive trend was less pronounced. Against the background of a decrease in the concentration of total lipids in the blood serum of cows of the experimental groups, a regular decrease in the content of the main fat oxidizing agent, cholesterol, was noted. On the 90th day of treatment in the blood serum of the cows of the second experimental group, where vermiculite was used in combination with Gabivit-Se, the cholesterol level was 26.2% lower than background values, and the third group, against the background of the combined use of vermiculite and Depolen, 8.5% Thus, we can conclude about a more pronounced normalization of fat metabolism in cows of the second group. This fact is consistent with the results of the Postnikov colloid-sedimentary test, which at the end of the experiment in the cows of the second experimental group became negative, the third experimental group was weakly positive, and in the control remained sharply expressed positive.

In the blood serum of cows of the second experimental group, which were injected with vermiculite and Gabivit-Se, there was a decrease in the content of total bilirubin in the blood serum throughout the treatment. However, on the 90th day a more pronounced change was found when the bilirubin level was 33.3% lower than the background values. This fact indicates the normalization of pigment metabolism in animals, the restoration of the neutralizing function of hepatocytes by the addition of glucuronic acid.

In patients with hepatosis of cows, a pronounced violation has antioxidant protection, since the level of malondialdehyde is higher than the reference values by 58.9-64.4%, and the ceruloplasmin content is lower by 40.0-40.5%.

In the blood serum of the cows of the control group, which was used only for symptomatic treatment, a decrease in the antioxidant defense of the body was noted, since the level of malondialdehyde on the 90th day of the experiment was higher than the initial data by 9.1%, the concentration of ceruloplasmin was lower by 28.5%.

Against the background of the use of selenium-containing preparations, normalization of the antioxidant defense indices, the most pronounced at the end of treatment, was noted. So, against the background of combined use of vermiculite and Gabivit-Se cows, the level of malondialdehyde was lower than the background values by 48.6%, and ceruloplasmin was higher by 62.9%, while when using the vermiculite and Depolene complex, they were 32, 2 and 39.1%.

It should be noted that the previously proposed method for the treatment of cows with hepatosis using Depolen [A.M. Gertman et al., 2010 [5]] had an important drawback - the activation of the body's antioxidant defense system was slower, not in full, which suggests an insufficient supply of selenium to animals.

Thus, the proposed method for the treatment of cows with hepatosis by the combined use of vermiculite and selenium-containing preparation Gabivit-Se in relation to the normalization of antioxidant protection is more physiological and therapeutically effective in comparison with others.

Summarizing the obtained data, we can conclude that the claimed method in comparison with the prototype and other methods proposed in this area allows us to recommend the mineral enterosorbent vermiculite of the Potanensky field in the treatment of lactating cows with hepatosis in technogenic provinces with an excess of lead, nickel and cadmium from the calculation of 0 , 10-0.15 g per 1 kg of live weight twice a day for 14-15 days with an interval of 14-15 days in combination with a twofold administration of the selenium-containing drug Gabivit-Se at a dose of 15-20 ml with an interval of 6 -8 days. The duration of treatment is 85-90 days.

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Claims (1)

A method for the treatment of hepatosis of dairy cows in technogenic provinces with an excess of lead, nickel and cadmium, including symptomatic therapy, the introduction of a drug with antioxidant effect, characterized in that Gabivit-Se is administered intramuscularly twice with an interval of 6-8 days at a dose of 15- 20 ml and vermiculite of the Potanensky deposit is additionally added to the diet at the rate of 0.10-0.15 g per 1 kg of live weight twice a day in courses of 14-15 days with an interval of 14-15 days; the duration of treatment is 85-90 days.