RU2688475C1 - Metabolic management method in pregnant sows - Google Patents

Abstract

FIELD: cattle breeding.SUBSTANCE: invention relates to a method for correction of metabolic processes in pregnant sows. Method is characterized by that it envisages feeding animals with a feedstuff containing maize, oat, wheat offal, soya extraction cake, linsea cake, alfalfa herb flour, fish meal, fodder yeast, dicalcium phosphate, chalk, salt, cellobacterin, KS-1 premix. Feedstuff is diluted with water at ratio of 1:(2.5–3) and introduced from 33- to 112-day period of pregnancy 2 times a day in amount of 2.3–2.5 kg/head.EFFECT: use of the invention enables normalization of metabolic processes in the organism of pregnant sows.1 cl, 4 tbl, 2 ex

Description

The invention relates to animal husbandry. It can be used in veterinary medicine for the correction of metabolic processes in pregnant sows.

In industrial pig breeding, there are a number of objectively unavoidable factors under which the physiological capabilities of an organism of pigs cannot satisfy the requirements imposed on animals that are exploited under industrial technology. The most significant factor is the state of metabolism of pregnant sows, associated with changes in acid-base balance - an increase in ketone bodies in the blood, the development of acidosis and ketosis. The main etiological reason is a high-concentration type of feeding with a high level of exchange energy with limited mobility of pregnant sows.

There are pharmacological ways to solve this problem through the use of immunostimulants. There is a method of immunobiochemical correction of homeostasis of piglets with the drug suiferrovit, which includes inactivated normal serum with the addition of a complex of trace elements and vitamins (Modern medicinal substances in veterinary medicine. - Rostov-on-Don: Phoenix, 2001. - P. 266). Known drug "metallosuccinate" and a method for its use in metabolic disorders and microelementosis (RF Patent No. 2351323, 04/10/2009).

However, the known pharmacological methods, with the complexity of their implementation, are ambiguous and do not ensure the normalization of the immunobiochemical status of homeostasis in pregnant sows, affecting individual physiological parameters, not taking into account the etiological factors of metabolic processes and the physiological state of pregnant sows. In this regard, the use of feed additives is of particular relevance.

Known drug "Vitasol", which contains macro - and micronutrients, as well as a complex of fat-soluble vitamins (2), but its composition does not contain probiotic agents and components that affect the protein-carbohydrate metabolism.

Pro-Stor biologically active additive is well-known, developed in LLC “STC BIO” in cooperation with the Institute of Ecology and Evolution named after A.N. Severtsova RAS (Certificate of Conformity № ROSS RU АЯ Н05354). Pro-Store has probiotic, antibacterial, antiviral and anti-mycotic properties, provides an increase in feed digestibility, stimulates metabolic and immune processes, increases the efficiency of feed diets. Pro-Stor is done through a unique biotechnology contains immobilized on phytosorbents (adsorbed) living cells bacilli and metabolites: strains of Bacillus subtillis (three strains), Bacillus licheniformis, a complex of lactic acid bacteria and their metabolic products - a set of the most important enzymes - cellulase, endoglucanase, amylase, protease, lipase, organic acids, biologically active substances, vitamins and amino acids. However, this biological additive has difficulty in preparation and high cost.

A known method of using enzymatic probiotic preparation "BAZELL" (RF patent №2280464 from 07.27.06). The preparation contains live strains of microorganisms Bacillus sb., Ruminococcus al., Lactobacillus pl. and their metabolites - multienzyme complex of proteolytic enzymes, amylolytic and cellulolytic action enzymes; probiotic factors hindering the development of pathogenic microflora. However, the complexity of cultivation of uterine cultures limits the use of the drug.

The optimal solution to the problem of the normalization of acid-base balance in the body of pregnant sows, are feeding factors. Known feed SK-1 (GOST 50257-92), used when feeding pregnant sows, having the following composition,%:

Corn 45.0 Oats 6.0 Wheat bran 25.0 Soybean meal 6.5 Linen meal 3.0 Grass meal 6.0 Fish flour 4.5 Nutrient Yeast 1.0 Dicalcium phosphate 1.1 a piece of chalk 0.5 Salt 0.4 Premix KS-1 1.0

However, the level of exchange energy in it is 11.1 MJ / kg, which is excessive and leads to negative changes in metabolic processes in the body of pregnant sows.

The objective of the invention is the normalization of metabolic processes in the body of sows in the second half of gestation. To solve this problem, it is proposed to introduce into the structure of the SK-1 compound feed used for feeding pregnant sows, an increased amount of grass meal of alfalfa due to adequate nutritional value, partial replacement of corn and the addition of the enzymatic probiotic Cellobacterin.

The novelty of the development is determined by the fact that partial replacement of corn by 25% -35% of alfalfa grass meal reduces the level of energy supply of the new composition to 10.0 MJ / kg and 9.1 MJ / kg of exchange energy, increases fiber content to 8.0% and 9.56% and increases the crude protein content to 176.3 g / kg and 185.8 g / kg. It has been established (5) that fiber, due to its spatial structure, representing complex carbohydrates-polysaccharides, is able to adsorb toxic compounds on its surface in the form of mycotoxins, which enter the body with concentrates, and excrete them through the gastrointestinal tract. Due to the special organization of the enzyme complex Cellobacterin, with high cellulolytic activity and the ability to produce organic acids, fiber absorption is effectively increased. At the same time, it contributes to the formation of normal microflora in the digestive tract (1).

Example 1

In the control group used standard feed. To prepare 100, 0 kg of new feed in the second group (1-variant), 45 kg of corn were replaced by 25.9 kg, and the content of alfalfa grass meal was increased to 25 kg and 100.0 g of cellobacterin was added. In the second variant (group 3), a similar replacement of 45 kg of corn by 15.9 kg was made, and the content of grass meal of alfalfa was increased to 35 kg and 100.0 g of cellobacterin was added. All components of the feed before mixing were ground on DKU-1 (universal feed crusher). Preparation of new formulations of feed produced by mixing in the mixer components listed in Table 1.

Example 2

The study of the effect of new formulations on the correction of metabolic disorders in pregnant sows was carried out on sows with a 33-day period of gestation, formed in three groups of 12 heads. The maintenance and feeding of sows was group.

Animals of the first group received compound feed SC-1 with a level of exchange energy of 11.1 MJ / kg, the second - a new composition with a level of exchange energy of 10.0 MJ / kg, the third - 9.1 MJ / kg. Feed was fed 2 times a day at a rate of 2.3-2.5 kg / goal. when diluted with water 1: 2.5-3 from a 33-day period of gestation to a 112-day period of gestation.

In the analysis of proteinograms of the blood serum of sows on day 95 of gestation, an increase in total protein in the experimental groups compared to the control was found at 3.1 g / l and 5.0 g / l (table 2).

The fraction of albumin was also higher in the experimental animals, 43.7% and 44.3%, whereas in the control animals it was 41.3%. The same pattern was also noted for the globulin fraction: α-globulins in sows of the second and third groups exceeded the control animals by 1.6-3%, β-globulins - by 2.6-3.6%, the γ-globulin fraction participating in the formation of non-specific factors of humoral immunity - by 0.4-1.0%. An increase in the indicators of the alkaline reserve of sows in the experimental groups by 7.4-10.1% and a decrease in ketone bodies within 39.4-42.3%, indicating a normalization of metabolism.

An increase in the concentration of glucose in the blood of animals of the second and third groups, respectively, by 1.2 mM / l and 1.6 mM / l relative to the control group indicates a stable course of carbohydrate metabolism, which is important in the prevention of acidosis (Table 3).

VFAs differed significantly in experienced sows: 0.92 ± 0.08 mM / L and 0.84 ± 0.09 mm / L versus 0.46 ± 0.05 mmM / L in the first group (P <0.05 ). The NEFA level exceeded the control indicators by 2.66-2.68 mg%.

Thus, the new formulations provide a pronounced stimulation of metabolic processes, which had a positive effect on the productivity of sows (Table 4).

Information sources

1. Kislyuk S., Novikova N., Laptev G. Enzymatic probiotic cellobacterin - the answer to many questions // Agrarian Expert. - 2008. - №1. - p. 26-27.

2. Musaev F.A., Torzhkov N.I., Blagov D.A. The influence of the feed additive Vita-salt on metabolism and hematological parameters in highly productive cows // Fundamental research. - 2014. - №9. - Part 12. - P. 2718-2724.

3. RF patent №2393848, 07/10/2010

4. RF patent №2351323, 04/10/2009

5. Popov B.C., Vorobiova N.V. The influence of grass meal on the metabolic status of pregnant sows // Pig breeding. - 2012. - №1. - pp. 76-78.

6. Popov B.C., Samburov N.V., Vorobyeva N.V. Correction of metabolism in pigs with the use of immunometabolic drugs and feedstuffs: monograph [Text]. - Kursk: Publishing house Kursk, state. S.-H. Ac., 2014. - 200 p.

Note: NEFA - unesterified fatty acids; VFA — volatile fatty acids; * - at Р≤0.05, the significance of differences compared with the control

Claims (1)

The method of correction of metabolic processes in pregnant sows, characterized in that it provides for the feeding of animals with feed made of corn - 15.9 wt. %; oats - 6.0 wt. %; wheat bran - 25.0 wt. %; soybean meal - 6.5 wt. %; flaxseed meal - 3.0 wt. %; Alfalfa Herbal Flour - 35.0 wt. %; fish meal - 4.5 wt. %; feed yeast - 1.0 wt. %; dicalcium phosphate - 1.0 wt. %; chalk - 0.5 wt. %; salts - 0.5 wt. %; cellobacterin - 0.1 wt. %; premix KS-1 - 1.0 wt. % or corn - 25.9 wt. %; oats - 6.0 wt. %; wheat bran - 25.0 wt. %; soybean meal - 6.5 wt. %; flaxseed meal - 3.0 wt. %; Alfalfa Herbal Flour - 25.0 wt. %; fish meal - 4.5 wt. %; feed yeast 1.0 wt. %; dicalcium phosphate - 1.0 wt. %; chalk - 0.5 wt. %; salts - 0.5 wt. %; cellobacterin - 0.1 wt. %; premix KS-1 - 1.0 wt. %, and the feed diluted with water in a ratio of 1: (2.5-3) and is administered from the 33- to the 112-day period of gestation, 2 times a day in the amount of 2.3-2.5 kg / goal.