RU2289398C1 - Method for prophylaxis and treatment of hepatosis in minks - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: claimed method includes single administration intramuscularly to minks 2 ml mixture of 0.1 % sodium selenite aqueous solution and 0.05 %-0.1 % hydroquinone aqueous solution in ratio of 1:1. Mother mink females are treated for 20-24 h before coupling.

EFFECT: effective method for prophylaxis and treatment of hepatosis in minks.

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Description

The invention relates to agriculture, namely to veterinary medicine, i.e. to the problem of prevention and treatment of hepatosis in minks.

At the current level of development of cellular animal husbandry, based on the use of feeds that are not characteristic of a predatory, anthropoecological impact, animals develop a state of maladaptation to altered living conditions, which leads to the development of stress that weakens the natural resistance of their body and reduces immune reactivity. This is manifested by a high incidence of fur animals. The most common metabolic pathology is hepatosis. Since animals receive inadequate rations in quality (rancid food) and unbalanced in protein content, especially of essential amino acids, as well as vitamins and other lipotropic factors. The most vulnerable period is the pregnancy of animals.

In adult females, the disease is accompanied by the death of the embryo, abortion and the birth of non-viable puppies. Failure in the system "mother - fetus" and the newborn leads to impaired postnatal development of puppies. The implementation of effective treatment for hepatosis in minks should be comprehensive and include lipotropic drugs: essential amino acids, vitamins (groups B, K, PP, C, E, etc.) and antioxidants. In treating it as an antioxidant, it is practiced by intramuscular injection of a 0.1% aqueous solution of sodium selenite. But when introduced into the body, aqueous solutions of sodium selenite are very quickly destroyed and excreted from the body, and therefore the effectiveness of its use depends on the frequency of administration. Several drugs have been proposed to prolong the therapeutic and antioxidant effects of sodium selenite.

A known method of producing selenium-containing preparation and its use on farm animals (as USSR AS No. 1684983, IPC 61 K 33/04, C 08 B 37/02, 09/01/89).

It is proposed to use the product of the interaction of sodium selenite with isoleucine at a weight ratio of 1: 2 as a compound of sodium selenite, and after mixing it with an iron-dextran complex, the drug is filtered and sterilized.

The tests were carried out on sucking pigs using the drug in different doses with its single and double administration. The optimal is the introduction of 1.5-2.0 ml of the drug on 3-5 days of life of piglets, due to which the live weight of experimental animals increased at weaning at 26 days of age by 8-12%, and the safety by 2-4% compared with control, in addition, the incidence of animals decreased by 15-26%.

The disadvantage of this method is that the proposed drug does not have a prolonging effect on the necessary period for the treatment and prevention of metabolic pathology in animals, therefore, it is necessary to repeat the injection.

A known method for the prevention of toxic hepatodystrophy of pigs (AS USSR No. 1674848, IPC A 61 K 33/04, 1987), including a single parenteral administration of sows to farrowing and administration of sodium selenite to piglets, while the introduction of sodium selenite to piglets is carried out at the age of 7 -8 days once in the form of a mixture of its 0.1% aqueous solution with ferroglucin in a ratio of 1:10 at a dose of 1.7-2.2 mg / kg and methylmethionine sulfonyl chloride is fed daily for 15-20 days after birth dose of 0.5-0.8 mg / kg at the age of 30-35 days and before weaning is administered 0 , 1% solution of sodium selenite at a dose of 0.1-0.2 mg / kg body weight.

The disadvantage of this method is that the proposed drug does not have a prolonging effect on the required period in the treatment and prevention of metabolic pathology in animals.

The objective of the invention is to increase the effectiveness of the prevention and treatment of hepatosis in minks, as well as liver diseases of mink puppies by correcting the development of the fetus in the womb and prolonging the action of the drug.

The technical result is achieved due to the fact that the method includes a single intramuscular injection of sodium selenite, moreover, a mixture of 0.1% aqueous solution of sodium selenite and 0.05% -0.1% aqueous solution of hydroquinone in a ratio of 1: 1, respectively, then 2 ml this mixture is administered once intramuscularly to healthy minks, hepatosis minks in conjunction with standard treatment, as well as uterine female minks 20-24 hours before rutting.

For research, a 0.1% aqueous solution of sodium selenite and aqueous solutions of hydroquinone of various concentrations (0.03%, 0.05% and 0.1%) are prepared immediately before use, then they are mixed in a ratio of 1: 1, respectively, the resulting mixture used in experiments.

Experiments were conducted on healthy minks and minks with signs of hepatosis at the age of 8-12 months on the basis of the production farm of the Bogotolskoye fur farm in the Bogotolsky district, Krasnoyarsk Territory. The experimental design is presented in table 1.

In the experiment, mink of a standard color (dark brown) was used. To conduct scientific and production experiments, minks of the main herd were selected according to the principle of analogues contained in standard sheds. The content and feeding of animals of all groups is the same, typical for the farm. The parameters of climatic conditions for all groups of minks were the same during all experiments. Before the experiments and at the end of the experiment, i.e. after 60 days, immunobiological status was determined in all minks (Tables 2, 3).

An analysis of the results of the experiments shows that the use of a 0.05% -0.1% aqueous solution of hydroquinone as a prolongator of sodium selenite normalizes and increases the level of total protein, humoral and cellular factors of immunobiological protection of minks of all experimental groups.

In experiments on healthy minks, which used pure sodium selenite and with various concentrations of hydroquinone, significantly positive changes in the content of total protein, albumin, protein fractions, hemoglobin, erythrocytes, humoral and cellular resistance factors were noted in comparison with the control. But the most effective was the introduction of 2 ml of a mixture of 0.1% aqueous solution of sodium selenite with 0.05-0.1% aqueous solution of hydroquinone in a ratio of 1: 1, respectively (4th and 5th groups).

After 60 days from the start of the experiment, in the 4th and 5th experimental groups there was a significant increase in the amount of hemoglobin compared with the control and with the 2nd experimental group, where sodium selenite was used without a prolongator, in the 4th experimental group, respectively, by 7, 0 g / l and 4.3 g / l; in the 5th experimental group, respectively, 2.6 g / l; erythrocytes in the 4th experimental group respectively at 4.1 · 10 ¹² / l and 2.75 · 10 ¹² / l. In the 4th and 5th experimental groups, there was an increase in the intensity of protein metabolism in the blood of minks, as indicated by a significant increase compared with the control level of albumin, β- and γ-globulins (Table 2). The number of alpha globulins in this experimental group is significantly reduced throughout the experiment, i.e. redistribution of globulin protein fractions occurs. In the second experimental group, where sodium selenite was used in its pure form, during the entire experiment, significant changes in the content of total protein in the blood serum of minks were not found. The use of a 0.05-0.1% aqueous solution of hydroquinone as a sodium selenite prolongator has a positive effect on the nonspecific cellular protective mechanisms of minks of the 4th and 5th experimental groups. So, after 60 days from the start of the experiment, a significant increase in the FAN of serum mink of this group of minks was noted compared with the control and the second experimental group, respectively, by 0.4% and 0.16%. The bactericidal activity of mink blood serum in the 4th and 5th experimental groups also significantly increased by 3.2% and 2.1%, respectively.

Therefore, in order to prevent hepatosis, it is recommended that healthy minks at the age of 8-12 months introduce 2 ml of a mixture of a 0.1% aqueous solution of sodium selenite with 0.05% -0.1% aqueous hydroquinone in a ratio of 1: 1, respectively.

In experiments on mink patients with hepatosis, the best results were obtained in the 10th and 11th experimental group (Table 3). So in the 10th experimental group (2 ml of a mixture of a 0.1% aqueous solution of sodium selenite with a 0.05% aqueous solution of hydroquinone in a ratio of 1: 1, respectively), the total protein level by the 60th day of the experiment increased to a physiological norm and amounted to 74.9 g / l In the 11th experimental group (2 ml of a mixture of a 0.1% aqueous solution of sodium selenite with a 0.1% aqueous solution of hydroquinone in a ratio of 1: 1, respectively), the total protein level for this study period was 72.6 g / l. In the control group (Table 3) throughout the experiment, the content of total protein in blood serum increases 102.0 g / l. The most characteristic for hepatoses is a decrease in serum albumin and an increase in the number of β-globulins and especially γ-globulins. When using 0.05-0.1% aqueous solutions of hydroquinone as a sodium selenite prolongator, there is a tendency to increase the albumin content in the 10th and 11th experimental groups. After 60 days from the start of the experiment, the content of albumin in these groups reaches the maximum physiological value, respectively 57.55 g / l and 55.87 g / l. In the minks of the control group throughout the experiment, as the disease develops, hypoalbuminemia from 47.3 g / l to 38.9 g / l is observed (Table 3). Throughout the experiment, the level of β- and γ-globulins in the blood serum of sick minks of the 10th and 11th experimental groups significantly decreased and by the 60th day from the beginning of the experiment corresponded to the physiological norm: β-globulins in the 10th group of 13.75 g / l; in the 11th group, 14.34 g / l; γ-globulins, respectively - 16.74 g / l and 14.12 g / l. In the control group, throughout the entire experiment, the level of beta and gamma globulin fractions of the mink serum protein increased: beta globulins from 15.4 to 17.3 g / l (12.2%), gamma globulins from 23 to 26, 7 g / l (16%) (Table 3). The phagocytic activity of neutrophils (FAN) increases in the tenth group by 13.8%, at P <0.05, in the eleventh group by 12.6%, at P <0.05, compared with the control. An increase in the protein-synthetic function of the liver and lymphoid organs causes an increase in the concentration of humoral factors, which are mediated through the bactericidal activity of blood serum. The bactericidal activity of blood serum is an integral factor in the natural resistance of the humoral type, indicating the ability of blood to self-purify, which is most indicative of minks of the 10th and 11th experimental groups.

Therefore, it is optimal for the prevention of healthy minks and for the treatment of sick minks a single intramuscular injection of 2 ml of a mixture of 0.1% aqueous solution of sodium selenite and 0.05% -0.1% aqueous solution of hydroquinone in a ratio of 1: 1, respectively.

For healthy minks, 2 ml of the mixture is administered at the age of 8-12 months, and for sick minks at the first signs of hepatosis, in addition to standard treatment, 2 ml of a mixture of 0.1% aqueous solution of sodium selenite and 0.05% -0.1% aqueous solution of hydroquinone in a ratio of 1: 1, respectively.

Sodium selenite has an antioxidant effect, and hydroquinone prolongs this effect in the animal. Hydroquinone has not previously been used as a prolongator in the treatment and prevention of hepatosis. These changes are in accordance with the clinical manifestations and confirm the increase in natural resistance in minks of the experimental groups compared with minks of the control groups. Minks in the experimental groups throughout the entire period of the study showed an adequate reaction of animals to external stimuli, good appetite. Seasonal molting and full maturation of the fur were faster on average by 3-6 days compared to the control. The mink fur of the experimental groups had a healthy shine, and the color was uniform throughout the body, this was not observed in the control.

In order to increase the effectiveness of the prevention of liver diseases in mink puppies by correcting the development of the fetus in the womb, a second experiment was performed, the experimental scheme is presented in Table 4. Studies were conducted on healthy uterine mink females and uterine mink females with signs of liver disease. In the second experiment, drugs were administered to uterine female minks healthy and sick 20-24 hours before rutting. During the experiments, clinical observations of the animals were carried out, the results of puppy minks, the dynamics of live weight growth and the relative growth rate of the resulting puppies were taken into account. Blood in adult minks was examined after the second coating of females and on day 30, since the period of intensive growth of the fetus in minks is about 30 days.

The content and feeding of animals of all groups is the same, typical for the farm. The parameters of climatic conditions for all groups of minks were the same during all experiments. Before the experiments, all minks were identified immunobiological status.

The use of a intramuscular injection of 2 ml of a mixture of a 0.1% aqueous solution of sodium selenite with 0.05% -0.1% aqueous solution of hydroquinone in the ratio of components 1: 1, respectively, 20–24 hours before the rut, activates redox processes and stimulates females the activity of nonspecific and specific mechanisms for protecting the body of pregnant minks (Tables 5, 6), which makes it possible to get healthier puppies from them in comparison with minks, control groups and significantly more by 2 puppies in healthy and 3 puppies in sick minks.

As pregnancy develops, a decrease in the level of total protein and albumin is noted in all experimental and control groups. But in the 3rd experimental group of conditionally healthy minks, in which a 0.1% aqueous solution of sodium selenite was used with 0.05-0.1% hydroquinone once intramuscularly 20-24 hours before the rut, this decrease was not so intense compared to control group. So, the level of total protein by the 30th day of pregnancy in the 3 experimental group decreased by 3%, and in the control by 9%, the level of albumin decreased by 0.7%, respectively, and in the control by 2.3%. The concentration of alpha globulins by the 30th day of pregnancy in the 3 experimental group significantly decreased by 1%, in the control, respectively, by 2.1%. The number of beta-globulins in the blood serum of minks of this experimental group is increasing, but is within the physiological norm, which indicates the normalization of the accumulation of beta-globulins in this group, in the control there is a downward trend in this indicator. The level of gamma globulins in the blood serum of minks of the experimental group 3 is reduced by 4.5%, because the use of antioxidants reduces the amount of free radicals in the body, quenching them. And thereby reduces the irritation of cells of immunocompetent organs. Whereas in the control, the concentration of gamma globulins increases by 12.2%, since free radicals accumulate, which lead to irritation of the cells of RES and thereby increase the level of gamma globulins.

In minks of the 3 experimental group, which were injected with 2 ml of a mixture of a 0.1% aqueous solution of sodium selenite with 0.05-0.1% aqueous solution of hydroquinone in a ratio of 1: 1, respectively, once, intramuscularly 20-24 hours before rutting, an increase was noted in the blood of red blood cells by 13.5%; hemoglobin content by 41% compared with status.

As a result of the treatments, minks improved their viability. Females were more prepared for childbirth. In the 3rd experimental group and in the control, 86.6% of minks were born. But the safety of the puppies at the time of mating from their mothers in the 3rd experimental group was significantly higher than in the control by 20.9%.

The experiments showed that the introduction of a 2 ml mixture of a 0.1% aqueous solution of sodium selenite with 0.05-0.1% aqueous hydroquinone in a ratio of 1: 1, respectively (experimental group 6) significantly stimulates the liver and endocrine glands in mink patients . This is evidenced by a significant increase in the blood of sick pregnant minks of the 6th experimental group, relative to the status of total protein in 8.11 g / l, albumin 6.9 g / l. The level of beta and gamma globulin fractions of blood serum of minks of the experimental group 6 relative to the status, which was significantly higher than the physiological norm, significantly decreases until the end of the experiment and reaches the physiological limit of 16.3 g / l. As a result, plastic material appears in the body for intensive synthesis of hemoglobin, which serves as a buffer system. So in the 6th experimental group, compared with the control, the number of red blood cells increases by 32.5% and the hemoglobin level increases by 28.7%.

In minks with signs of hepatosis, when applying a 2 ml mixture of a 0.1% aqueous solution of sodium selenite with 0.05-0.1% aqueous solution of hydroquinone in a ratio of 1: 1, respectively, the phagocytic activity of neutrophils increased significantly compared to the control by 4.6% at P <0.05; and bactericidal activity of blood serum by 19.8%.

In the 6th experimental group the best pupping results were obtained. So in the 6th experimental group 93.3% of minks were born. In the control group, by the time of whelping, 10 animals were still alive, that is, 66.7% of the mink's heads had become brisk.

Special studies conducted by us on the effect on newborn puppies obtained from sick minks with a single intramuscular injection of 2 ml of a mixture of a 0.1% aqueous solution of sodium selenite with 0.05-0.1% aqueous hydroquinone in a ratio of 1: 1, respectively showed that their clinical and biological status was significantly better than that of the controls. So, in puppies of minks of the 6th experimental group, toxic dyspepsia was completely absent or rare (in 9% of those born). Puppies of the experimental groups were born with a higher weight than in the control (Tables 7, 8); they were more active and throughout the experiment had the best average daily gain in live weight. So the average daily gain in body weight of puppies of the 6th experimental group averaged 4.3-5 g (1-20 days) and 10.2-10.6 g (20-45 days). The safety of puppies in the 6th experimental group of minks was 92.2%, which is 44.4% more than in the 4th control group.

Puppies of the experimental groups were born with a higher weight than in the control (Tables 7, 8); they were more active and throughout the experiment had the best average daily gain in live weight. Clinical observations of puppies of the 4th (control) group showed that the presence of hepatosis in pregnant (uterine females) minks adversely affected the general condition of the new generation in the control group. In this group, puppies were born in a state of "physiological immaturity" with low weight, impaired thermoregulation, sluggish, adinomic. Over the course of the experiment, they had gastrointestinal tract disorders, the puppies did not eat well and as a result of all, they had very low average daily gain in live weight and safety.

From the results of the experiments, it is optimal for uterine females to administer once intramuscularly 2 ml of a mixture of a 0.1% aqueous solution of sodium selenite with 0.05% -0.1% aqueous solution of hydroquinone in a ratio of 1: 1, respectively, 20-24 hours before rutting .

As a result of the research work, the following conclusions can be drawn:

1. In order to increase the effectiveness of prevention and treatment in healthy and sick minks, a single intramuscular injection of 2 ml of a mixture of 0.1% aqueous solution of sodium selenite and 0.05% -0.1% aqueous solution of hydroquinone in a ratio of 1: 1, respectively, should be carried out in healthy minks during the period of 8-12 months of life and in sick minks from the moment the first signs of the disease appear.

2. In order to increase the effectiveness of the prevention of liver diseases of mink puppies 20-24 hours before rutting, female mink females should be administered intramuscularly once with 2 ml of a mixture of 0.1% aqueous solution of sodium selenite with 0.05% -0.1% aqueous solution of hydroquinone in a ratio of components of 1: 1, respectively.

Thus, the use of these drugs improves metabolic processes in pregnant minks, reducing the stressful effect of hepatoses, which contributes to the formation of a physiologically mature fetus, as indicated by a high level of their viability throughout the study period.

A method for the prevention and treatment of hepatosis in minks can be easily implemented in agricultural production.

Table 1
Test Pattern 1 groups Name of drugs amount 1 control Healthy mink without drug administration 15 goals 2 experienced Healthy minks - the introduction of a 0.1% aqueous solution of sodium selenite (1 ml) without hydroquinone, intramuscularly, once 15 goals 3 experienced Healthy minks - introduction in a mixture (2 ml) of a 0.1% aqueous solution of sodium selenite with a 0.03% aqueous solution of hydroquinone, intramuscularly, once. 15 goals 4 experienced Healthy minks - introduction in a mixture (2 ml) of a 0.1% aqueous solution of sodium selenite with a 0.05% aqueous solution of hydroquinone, intramuscularly, once. 15 goals 5 experienced Healthy minks - introduction in a mixture (2 ml) of a 0.1% aqueous solution of sodium selenite with a 0.1% aqueous solution of hydroquinone, intramuscularly, once. 15 goals 6 control Sick mink with signs of hepatosis without treatment 15 goals 7 experienced Sick mink - standard treatment (vitamins: B ₁ - 0.5 mg; B ₂ - 0.5 mg; B ₆ - 0.2 mg; B ₁₂ - 15 mg; E - 15 mg; folic acid 0.3 mg) . In the first 6 days, the introduction of drugs daily, then - for 14 days - every other day. 15 goals 8 experienced Sick minks - the introduction of a 0.1% aqueous solution of sodium selenite (1 ml) without hydroquinone, intramuscularly, once. Standard treatment 15 goals 9 experienced Sick minks - introduction in a mixture (2 ml) of a 0.1% aqueous solution of sodium selenite with a 0.03% aqueous solution of hydroquinone, intramuscularly, once. Standard treatment. 15 goals 10 experienced Sick minks - introduction in a mixture (2 ml) of a 0.1% aqueous solution of sodium selenite with a 0.05% aqueous solution of hydroquinone, intramuscularly, once. Standard treatment. 15 goals 11 experienced Sick minks - introduction in a mixture (2 ml) of a 0.1% aqueous solution of sodium selenite with a 0.1% aqueous solution of hydroquinone, intramuscularly, once. Standard treatment. 15 goals

Table 6
Effect on the results of puppy mink sodium selenite with optimal doses of hydroquinone, (goals) indicator groups 1 control 2 experienced 3 experienced 4 control 5 experienced 6 experienced goals % goals % goals % goals % goals % goals % Number of females Covered fifteen fifteen fifteen fifteen fifteen fifteen Got a 13 86.6 fourteen 93.3 13 86.6 10 66.7 12 80 fourteen 93.3 Missed 2 13.3 one 6.6 2 13.3 5 33.3 3 twenty one 6.6 Puppies were born Total 101 99 108 83 90 93 Of the dead 2 1.98 5 5.1 one 0.93 fourteen 16.8 four 4.4 3 3.2 Living 99 98 94 95 107 99.1 69 83.1 86 95.5 90 96.8 Departure to registration 24 23.76 6 6.4 2 1.9 36 52,2 10 11.6 7 7.7 Registered 77 76.24 88 93.6 105 97.2 33 47.8 76 88.4 83 92.2 Puppies go to the female Feverish 5.9 6.3 8.0 3.3 6.3 6.0 full-time 5.1 5.8 7.0 2.2 5.1 5.5

Table 7
The growth dynamics of the live weight of puppies obtained from healthy minks and minks with signs of hepatosis, treated with sodium selenite with and without hydroquinone, in grams Days 1 control 2 experience 3 experience 4 control 5 experience 6 experience female male female male female male female male female male female male one 10.1 ± 0.12 10.3 ± 0.10 10.5 ± 0.12 9.6 ± 1.25 10.8 ± 1.20 11.1 ± 1.39 twenty 98 ± 0.47 110 ± 0.21 100 ± 0.92 123 ± 1.0 104 ± 0.85 127 ± 0.13 80 ± 1.59 82 ± 1.23 92 ± 1.42 103 ± 1.26 93 ± 0.84 108 ± 1.14 thirty 160 ± 1.64 173 ± 5.31 162 ± 2.32 175 ± 1.41 170 ± 2,32 183 ± 3.12 150 ± 1.88 162 ± 1.47 157 ± 1.10 170 ± 1.40 168 ± 1.87 181 ± 2.11 45 308 ± 2.14 323 ± 1.74 316 ± 1.76 337 ± 2,30 323 ± 1.98 354 ± 1.96 303 ± 1.44 315 ± 2.11 312 ± 2.01 334 ± 1.85 320 ± 2.14 350 ± 2.23 P <... - - 0.05 0.05 0.05 0.05 - - 0.05 0.05 0.05 0.05

Table 8
Relative growth rate of puppies obtained from healthy minks and with signs of hepatosis Groups Indicators Age days 1-20 20-45 females males females males 1 control C / day.weight, g 4.4 5 8.4 8.4 2 experience C / day.weight, g 4.6 5.8 8.6 8.3 % to control 104.5 116 102,4 98.8 3 experience C / day.weight, g 4.7 6 9.5 9.9 % to control 107 120 113.1 118 4 control C / day.weight, g 3.52 3.62 8.92 9.32 5 experience C / day.weight, g 4.1 4,5 9.2 9.8 % to control 113.6 124.3 103.1 105,2 6 experience C / day.weight, g 4.3 5 10,2 10.6 % to control 122,2 138.1 114.3 113.7

Claims (2)

1. A method for the prevention and treatment of hepatosis in minks, which consists in the fact that minks are injected intramuscularly once with 2 ml of a mixture of a 0.1% aqueous solution of sodium selenite and a 0.05-0.1% aqueous solution of hydroquinone taken in the ratio 1: 1. 2. The method according to claim 1, characterized in that the uterine female mink mixture is administered 20-24 hours before rutting.