RU2650640C1 - Energometabolic composition for the prevention and treatment of rumen acidosis, metabolic acidosis in neonatal cows - Google Patents

Abstract

FIELD: veterinary.

SUBSTANCE: invention relates to veterinary medicine and can be used in a system of measures for the prevention and treatment of rumen acidosis, metabolic acidosis in novice cows in the early lactation period. Energometabolic composition includes, as an alkalizing agent and for neutralizing the acid reaction of the composition, sodium bicarbonate, a flavor improver, metabolite and preservative – sodium chloride, improvement of cicatricial digestion – cyanocobalamin with the following ratio of components for a single dacha: sodium bicarbonate – 50 g, succinic acid – 20 g, beet molasses – 250 g, sodium chloride – 40 grams, cobalt chloride – 0.5 g, drinking water – 500–1000 ml, while the composition is used for the prevention and treatment of rumen acidosis, metabolic acidosis with a multiplicity of times every 5 days in the first month of the lactation period.

EFFECT: invention provides an energometabolic composition suitable for a rapid course of use for relieving the symptoms of rumen acidosis and correcting pathobiochemical processes in the metabolic acidosis of neonatal cows.

1 cl, 3 tbl, 2 ex

Description

The invention relates to veterinary medicine and can be used in a system of measures for the prevention and treatment of scar acidosis, metabolic acidosis in calving cows in the early lactation period.

In modern dairy farming, the bulk of highly productive cows are discarded immediately after calving or in the first month of lactation (V. Mishchenko. Analysis of the causes of diseases of highly productive cows // Vestnik Orel GAU, 2008. No. 2.- P. 21-24). The leading cause is a lack of energy to ensure postpartum rehabilitation and secretion of milk (Izmailov E. The energy crisis or where sugar deficiency leads // Journal "Niva Zauralye" No. 6 (117), July 2014). Numerous clinical observations indicate that no feed factors can overcome the deficit of physiologically useful energy of newly-born highly productive cows. Moreover, the inclusion of high-calorie concentrates in the diet raises another problem. Concentrates contain a lot of starch. Under the influence of amylolytic microflora of the rumen, volatile fatty acids (VFA) and, to a greater extent, lactic acid (lactate) are synthesized from starch. VFAs formed in the rumen act as the main sources of glucose production in the liver. However, during the microbial synthesis of significant volumes of lactic acid from starch concentrates, as well as when feeding in large quantities of acidic feed (silage, haylage), scar oxidation (scar acidosis) naturally occurs. The acid-base balance of the contents of the scar drops to 6.0 and below. Normal pH of the rumen is 6.2-6.9.

Acidic environment is unfavorable for the multiplication of cicatricial microflora utilizing lactic acid. However, it is favorable for the reproduction of lactobacilli producing lactate (lactic acid). As a result, it begins to accumulate in cicatricial fluid. Absorbed in the blood, it enters the liver. When the pH in the rumen decreases to 5.5, a more severe form of violation of the acid-base state of the body develops - metabolic acidosis. Metabolic acidosis is the acidification of all body fluids. The danger of developing metabolic acidosis lies in the fact that it causes a wide variety of changes in the activity of organs and systems of the body and is accompanied by interdependent dysfunctions of the blood, blood circulation, respiration, liver, kidneys, metabolic disintegration. When the body is acidified, vital trace elements are poorly absorbed, and some of them, such as Ca, Na, K, Mg, Fe, are intensely excreted. The concentration of hemoglobin decreases. The transfer of oxygen to organs and tissues is deteriorating. A state of hypoxia develops.

In an attempt to compensate for the lack of energy, fat reserves of one's own body are involved in energy metabolism. The danger is that the body of highly dairy cows can use a large amount of fat. In such cases, the liver cannot cope with their use. Fat begins to be deposited in the liver cells. With an increase in fatty infiltration in the liver, the neutralization of feed endotoxins is weakened, which can lead to shock and death of cows (Mishchenko V.A. et al. Analysis of metabolic disorders in highly dairy cows // Veterinary Medicine of Kuban. 2012. No. 6).

For the prevention of energy-deficient conditions in cows during the lactation period, a rather large arsenal of very expensive energy additives is proposed (Review of the Russian market of energy feed additives. Internet source: SoyaNew 01/26/2015). For the most part, these are very expensive multicomponent compositions. The high cost of the final product, in particular a single dose of additives exceeds 1000 rubles, makes their mass use unprofitable.

A known composition for stimulating energy and metabolic processes and a method for the prevention of birth pathologies and postpartum diseases of cows, including the use of succinic acid and beet molasses as an energy stimulator (RF Patent No. 2553360 of 05/18/2015). This composition is technologically simple, environmentally friendly and effective, which distinguishes it from all of the above energy additives. However, in the course of clinical trials it turned out that for a quick relief of symptoms of scar acidosis, this composition is not optimal. In addition, the increased acidity of the composition limits the possibility of its increased use.

The objective of the present invention is to obtain an energy-metabolic composition suitable for a frequent course of use for the relief of symptoms of scar acidosis and correction of pathobiochemical processes in metabolic acidosis of newborn cows.

The technical result of the invention is achieved by the fact that in the known composition for stimulating energy and metabolic processes in cows, sodium bicarbonate, taste improver, metabolic and preservative sodium chloride, as well as cicanobalamin (vitamin B12) are improved as a means of alkalizing and neutralizing the acid reaction of the composition. ) in the following ratio of components based on a single summer residence: sodium bicarbonate - 50 g, succinic acid - 20 g, beet molasses - 250 g, sodium chloride - 40 g, coba chloride chloride - 0.5 g, drinking water - 500-1000 ml.

This allowed us to qualitatively improve the metabolic activity of the composition. The proposed energy-metabolic composition is suitable for a quickened course, including daily use, which allows you to more effectively neutralize the symptoms of scar acidosis, restore cicatricial digestion and conduct correction of pathobiochemical processes in metabolic acidosis.

The inclusion of sodium bicarbonate in the energy-metabolic composition is due not only to its alkalizing activity in case of rumen acidosis, but also for the conversion of succinic acid to sodium succinate (succinic acid salt). Succinic acid salt has the same properties as succinic acid itself. The final product does not have an acidic reaction, but a neutral one. If necessary, this makes it possible to increase the frequency, including the daily course, of applying the composition for the rapid relief of symptoms of acute scar acidosis.

Sodium chloride (table salt) is an essential part of the diet of cows. Sodium chloride is the most important electrolyte in living cells. The metabolism of sodium chloride is closely associated with the regulation of acid-base balance in the body, with the activation of many digestive enzymes and biochemical processes. Sodium chloride in combination with ammonia forms sodium carbonate, which is very important to neutralize high acidity during acidification of the contents of the rumen.

The inclusion of sodium chloride in the amount of 40-50 g provides a risk of reducing fermentation processes during long-term storage. In a hermetically sealed plastic container, the shelf life at room temperature is at least 12 months.

Taking into account the need to restore cicatricial digestion, it is possible to include cobalt chloride or cyancobalamin in an amount of 0.4-0.5 g.

Cobalt chloride is prescribed to improve the enzymatic processes in the ruminants of the ruminants, with hypocobaltosis, accompanied by metabolic disorders, anemia, distortion and loss of appetite, progressive exhaustion and a change in the coat. Cobalt is involved in the synthesis of blood hemoglobin, nucleic acids, vitamin B12, activates the action of many enzymes and metabolism in animals. It is part of the enzymatic systems that regulate protein, carbohydrate and mineral metabolism. Cobalt deficiency (hypocobaltosis) causes a violation of growth, development and reproductive function, reduces the productivity of animals.

In the preparation of the composition used the following sequence, illustrated by example.

Example. Based on one dose. In a separate container - a glass flask, 300 ml of drinking water were poured and weighed out 20 g of succinic acid and 40 g of sodium chloride. When heated to 70 ° C, dissolution was carried out. A portion of 50 g of sodium bicarbonate was added to the cooled solution. During the chemical reaction, a solution of sodium succinate was obtained. 250 g of beet molasses was added to the sodium succinate solution. The final product had a pH of 9.0.

In clinical trials on bulls with a pronounced energy-deficient state (blood glucose level is 20-25% lower than the physiological norm), it was found that the use of beet molasses in the amount of 250-300 g provides the effect of short-term normalization of the content level for 3-5 hours blood glucose. With a single supply of the above amount of beet molasses, together with 15 -20 g of succinic acid, the effect of normalizing the glucose value is maintained for 3-7 days. This is achieved through a qualitative improvement in metabolic processes in the liver.

To confirm the compliance of the proposed composition with the conditions of patentability of the invention, the applicant conducted controlled clinical trials.

For clinical trials, a prototype of the test composition was prepared, including in a single dose: sodium bicarbonate - 50 g, succinic acid - 20 g, beet molasses - 250 g, sodium chloride - 40 g, cobalt chloride - 0.5 g, drinking water - up to a volume of 1000 ml.

As a comparison, we used a well-known composition for stimulating energy and metabolic processes and a method for the prevention of birth pathologies and postpartum diseases of cows (RF Patent No. 2553360 dated 05/18/2015), namely succinic acid - 15 g, beet molasses - 500 g, drinking water - up to 1 l

An aqueous solution of molasses (250 g molasses diluted with drinking water to a volume of 1 liter) was used as a control.

Example 1

Therapeutic efficacy of the claimed energy-metabolic composition. The place of experiments is the Lgov Experimental Breeding Station of the Russian Academy of Agricultural Sciences. The object for the conduct was the bull-calf 7-8 months. age. The diet was based on concentrates and beet pulp. The selection of animals of the experimental group was carried out according to clinical signs characteristic of the disease with rumen acidosis. The initial state. Animals are oppressed. Some have a blank look. Weak activity on external stimuli. Chewing gum is rare, most lack it. The course of use of the composition is frequent, with an interval of 24 hours, for 5 days. Monitoring changes in metabolism was carried out before use (background state), on the 5th day and 5 days after the cessation of the composition.

Clinical observation. Signs of marked improvement in the clinical condition began to appear in the gobies of the first experimental group an hour later, while in animals of the second group a similar effect developed after 1.5-2 hours. On the second day, chewing gum became more active. On 3-4 days a more pronounced improvement in the clinical condition was observed in gobies, which were fed the claimed energy-metabolic composition, against individuals of the compared group (known composition). For clarity, in table 1 we present the dynamics of the clinical condition of experimental animals during the experiment.

Table 1 shows the clinical condition of the gobies when drinking energy-metabolic compounds.

Biochemical studies. The initial state. Low rates of reserve alkalinity, in the range of 15-17 mmol / l, indicated acidification of the body.

When conducting repeated biochemical studies (on day 5), marked changes in the metabolism in animals of both experimental groups were noted. First, the normalization of the acid-base state of the body took place. The reserve alkalinity increased to average physiological values. This indicated an improvement in all types of metabolism. The total protein content increased to the level of average physiological values. A similar result was achieved by normalizing the level of glucose in the blood.

5 days after the cessation of the drinking of energy-metabolic compounds, the following changes were noted. In gobies, which were fed the claimed composition, there was a less pronounced decrease in metabolic processes.

Thus, the claimed energy-metabolic composition based on beet molasses and sodium succinate in clinical trials on gobies with a background clinic of rumen acidosis and metabolic acidosis provided both a more pronounced correction of pathobiochemical processes and their longer stability.

Table 2 shows the biochemical blood parameters of gobies when drinking energy-metabolic compounds.

Example 2

The prophylactic effectiveness of the claimed energy-metabolic composition. The place of experiments is the Lgov Experimental Breeding Station of the Russian Academy of Agricultural Sciences. The experimental groups were formed from the number of calving cows 3-4 days after calving. The first group was fed with the claimed energy-metabolic composition, the second group - the known composition, the third - an aqueous solution of molasses (500 g of molasses in a dilution with drinking water up to 1 l). The compositions were evaporated with a frequency of once every 5 days for 38-40 days. The presence of molasses provided a willing drink. During the test, water rehydration was replaced by feed irrigation. The cows eagerly ate it. The clinical condition of the experimental animals was evaluated on days 30 and 45. The results of clinical observations and the condition of the animals are presented in table 3.

Cases of scar acidosis in cows of the first experimental group were diagnosed in the period from 35 to 45 days in 4 (4.2%) individuals. In contrast, in the second experimental group, symptoms of scar acidosis were diagnosed on day 30 in 12 (14.5%) cows, including 3 (3.6%) - metabolic acidosis. In group 3, on day 30, symptoms of scar acidosis were detected in 36 (46.2%), including 12 (15.4%) - metabolic acidosis.

On day 45, symptoms of metabolic acidosis in the cows of the first group were not detected. In the second group, rumen acidosis was diagnosed in 23 (28.0%) cows, including 6 (7.3%) - metabolic acidosis. In the third group, scar acidosis was diagnosed in 42 (51.0%) cows, including metabolic acidosis in 14 (17.9%).

Thus, during clinical trials it was found that the claimed composition has a pronounced ability to stop the symptoms of scar acidosis, to correct pathobiochemical processes in metabolic acidosis. These qualities ensured high prophylactic efficacy of the composition when tested on new-calf cows.

Note: the top line is the background indicators; middle row - indicators for 6 days; bottom line - indicators for 10 days.

Note: the top line is the number of clinically healthy animals; middle row - got sick with acidosis; bottom line is the number of patients with metabolic acidosis.

Claims (1)

An energy-metabolic composition for the prevention and treatment of scar acidosis, metabolic acidosis in newborn cows, including sodium bicarbonate as an alkalizing agent, succinic acid, an easily digestible carbohydrate and taste enhancer - beet molasses, a preservative - sodium chloride, a scar microflora stimulator - cyanocobal the following ratio of components based on a single summer residence, g / l: sodium bicarbonate - 50 g, succinic acid - 20 g, beet molasses - 250 g, sodium chloride - 40 g, qi nkobalamin - 0.5 g, potable water - to a volume of 500-1000 ml, wherein the composition is used for prevention and treatment of rumen acidosis, metabolic acidosis multiplicity every 5 days in the first month of lactation.