RU2202900C2 - Feed additive for farm bird and method for producing feed additive - Google Patents

Abstract

FIELD: feed production. SUBSTANCE: method involves producing feed additive from crown-bearing sawwort grass, which had been gathered at vegetative or mass bud-formation stage; grinding grass; exposing to triple extraction with ethanol; filtering and boiling down obtained extract; clarifying water residue by filtering through mineral sorbent; treating clarified extract with hexane or petroleum ether; boiling down and drying. EFFECT: increased biological value of produced feed additive, increased bird retention, stable daily weight gain and reduced feed dosage. 3 cl, 5 tbl

Description

 The invention relates to feed production, in particular feed additives, activating the immune system, stimulating the growth and development of poultry.

 Known feed additive for farm animals [A.S. USSR 1771651, class A 23 K 1/16. The method of feeding farm animals / V.I. Filatov, Ferenc Kereshi, Geza Marak, Pershich Kalman], consisting of grass meal from the leaves or roots of the leuzea safflower or alcohol extract of the roots of the plant.

 Its disadvantages are: low content of substances - carriers of biological activity - phioecdysteroids (20-hydroxyecdysone and others), not exceeding 0.1% in terms of absolutely dry raw materials; low shelf life of the feed additive (as a result of bio- and oxidative degradation, the content of phytoecdysteroids in the grass meal of leuzea falls from 0.1 to 0.04% and below in six months).

 The closest adopted for the prototype is a feed additive for farm animals [RF patent 2054267, class. A 23 K 1/16. Feed additive for farm animals / E.D. Goldberg, E.N. Amosova, T. G. Kharina, T. G. Dygay, N.I. Suslov, S.D. Ugai], consisting of crushed grass of the crown-sickle, collected during flowering, and used at a dose of 80 mg / kg live weight.

 The disadvantage of this feed additive is that the plant raw material of crown-sickle, collected during the flowering phase of the plant, is characterized by a low content of 20-hydroxyecdysone - 0.6% in terms of absolutely dry raw materials, which leads to high costs of the feed additive for animal feed - 80 mg / kg of live weight of animals. The disadvantage of this feed additive is that it is also poorly preserved, it is extremely easily affected by fungi - micromycetes and, as a result, accumulates mycotoxins, loses a significant part of phytoecdysteroids due to biodegradation and oxidative processes.

 In addition, the well-known feed additive cannot be used without additional processing for fattening poultry, as it contains anti-nutritional substances, mainly of phenolic nature, which significantly reduce the eatability of feed mixtures with its additive.

A known method of producing herbal remedies [RF patent 2060683. A method of obtaining herbal remedies // P. I. Lavin, A. P. Morozov], selected as a prototype of the proposed method, including grinding vegetable raw materials, preparing an extracting mixture, soaking the crushed raw materials with a cold extracting mixture, which is a solution of inorganic salts, holding the mixture for 20-60 minutes, separating the solid fraction (pulp) from the extract and processing the extract heating to 130-155 ^o C at a pressure of 4.5 • 10 ⁵ -6.5 • 10 ⁵ Pa for 30-35 min, evaporation of the extract in vacuum at a temperature of not more than 100 ^o C.

 The disadvantage of this method is the use of high temperature treatment of the extract, which is accompanied by a partial destruction of biologically active substances.

 The aim of the invention is to increase the biological value of the feed additive by increasing the content of phytoecdysteroids in both plant materials and in the final product, improving the shelf life of 20-hydroxyecdysone in the feed additive during its long-term storage, reducing the consumption of the feed additive, improving the eatability of feed mixtures with the feed additive by poultry.

This goal is achieved by the fact that the raw material for the feed supplement "Metaveron" is crushed grass of the crowned serpent (Serratula coronata L.), but unlike the prototype, grass of the crowned serpent is collected in the vegetation phase or phase of mass budding of the plant, but before flowering (when In this case, the content of 20-hydroxyecdysone in absolutely dry raw materials is at least 0.94%), plant materials are extracted by infusing three times with 12-75% ethanol with a 1: (10-15) hydraulic unit for 24-72 hours at room temperature. The extract is filtered off and ethanol is evaporated in vacuo at a temperature of no more than 55 ^o С. The condensed extract is diluted 2-5 times with distilled water and filtered through a layer of mineral sorbent of the formula M _x O _y • nH ₂ O, (where M = Si or Al, x = 1 or 2, y = 2-3) or a mixture of these sorbents. The filtrate is treated with hexane or petroleum ether to remove traces of non-polar related substances, evaporated and dried in vacuum at a temperature of not more than 55 ^o C and crushed.

 The feed additive "Metaveron" is a fraction of extractives from the aerial mass of the crown-bearing serpent plant. The main carrier of biological activity in it is 20-hydroxyecdysone, the content of which in the feed additive is not lower than 4.7%. In addition to 20-hydroxyecdysone in the feed additive are present from phytoecdysteroids: inocosterone - 0.6-0.8%, α-ecdysone 0.4-0.6%, as well as flavonoids, sugars and amino acids inherent in extractive substances from the aerial mass of crowned serpent . In appearance, “Metaveron” is a yellow, hygroscopic, water-soluble powder or granules with a specific honey smell and a bitter-sweet taste.

 The advantages of the proposed feed supplement "Metaveron" compared with that described as a prototype were shown in experiments on broiler chickens. Eatability of the feed mixture with the feed additive "Metaveron" in comparison with the prototype was tested in experiments on broiler chickens cross "Smena-2". There were formed 3 experimental groups (1-3) of 15 chickens who were fed with the addition of grass flour crowned cherries (according to the prototype), 3 groups (4-6) of 15 chickens who were fed with the feed mixture "Metaveron" and 1 group of chickens (15 goals) - control. Serpaha grass meal containing 1.04% of 20-hydroxyecdysone was given in a dosage of 80 mg / kg body weight (in terms of 20-hydroxyecdysone - 0.8 mg / kg body weight). The dose of the Metaveron feed additive in the feed mixture for chickens is 15.4 mg / kg (in terms of 20-hydroxyecdysone - 0.8 mg / kg of live weight of chickens). The control of the eatability of the feed mixture with the additive was determined 1 hour after daily feeding of the chickens. The results are shown in table 1.

The production method of the feed additive "Metaveron" is specified by the following examples:
Example 1. Obtaining plant materials. The aerial mass of Crowned Serpa, introduced into the culture, was mowed at two to four year old plants in the vegetation phase - mass budding, but before flowering began. The plant material was dried and ground in a mill into grass meal. As a result of the analysis of the average sample of plant materials, it was found that the mass fraction of 20-hydroxyecdysone is 1.04%, inocosterone - 0.22% and α-ecdysone - 0.14%.

Example 2. The crushed plant material containing 1.3% of 20-hydroxyecdysone in an amount of 4 kg was extracted by infusion with 70% ethanol at room temperature with three repetitions. The hydraulic module of the process is 1: 10. The extract was filtered using a submersible suction filter and ethanol was evaporated from the extract on a rotary evaporator in vacuum at a temperature of 50 ^o С. and phenolic acids. The sorbent was alumina. The filtered extract was treated with hexane (petroleum ether) to remove traces of lipophilic concomitant substances with a volumetric ratio of extract: hexane (4: 1) in two replicates. The aqueous extract was evaporated to a gummy residue on a rotary evaporator in vacuo. The obtained resinous residue was transferred to a vacuum drying tank and dried to constant weight and the formation of an expanded sponge mass at a temperature of 50 ^o C. The resulting material, a feed additive, was ground in a mill to a powder state and Packed in 1 kg plastic hermetically sealed jars. The practical yield of the Metaveron feed additive is 670 g. The content of 20-hydroxyecdysone in the Metaveron feed additive and in the plant feed was determined by HPLC according to the method of the authors of the present invention [Punegov V.V., Savinovskaya N.Yu. The internal standard method for the determination of ecdysteroids in plant materials and dosage forms using HPLC / Plant resources. -2001.- T.37.- issue 1.- S.97-102]. According to the results of biochemical analyzes, the Metaveron feed additive had the following component composition (mass fractions,%):
phytoecdysteroids - 6.2
including 20-hydroxyecdysone - 5.2
inocosterone - 0.6
α-ecdysone - 0.4
mono - and disaccharides - 26
including ramnose - 3.2
fructose - 5.1
glucose - 4.8
sucrose - 3.7
maltose - 9.2
amino acids - 6.2
including aspartic acid - 0.71
threonine - 0.16
serine - 0.13
glutamic acid - 0.64
proline - 2.84
glycine - 0.12
Alanine - 0.19
cystine - 0.05
valine - 0.35
isoleucine - 0.10
leucine - 0.11
tyrosine - 0.48
phenylalanine - 0.27
histidine - 0.07
lysine - 0.09
arginine - 0.02
oligosaccharides - the rest
as well as a complex of glycosides of flavonoids inherent in extractive substances from the aerial mass of crowned serpent.

 Examples 3-4. The production of the feed additive "Metaveron" was carried out analogously to example 2, but the extraction of plant materials was carried out with hydraulic modules 1: 9 and 1:15. The practical yield of the feed additive and the content of 20-hydroxyecdysone in it are given in table. 2.

 Examples 5-6. The production of the feed additive "Metaveron" was carried out analogously to example 2, but the ethyl alcohol content in the extractant was 15 and 75%. The practical yield of the feed additive and the content of 20-hydroxyecdysone in it are given in table. 2.

Examples 7. The production of the feed additive "Metaveron" was carried out analogously to example 2, but the vacuum distillation and drying of the raw material was carried out at a temperature of 55 ^o C. The practical yield of the feed additive and the content of 20-hydroxyecdysone in it are given in table. 2.

Examples 8-11. The production of the Metaveron feed additive was carried out analogously to Example 2, but alusil (Example 8), ascanite-bentonite (composition Al ₂ O ₃ • (3-4) SiO ₂ • n H ₂ O) were used as sorbents for sorption filtration of the extract ( Example 9), a mixture of aluminum oxide with Ascanite-bentonite (1: 1 by weight) (Example 10), a mixture of Ascanite-bentonite with aluminum oxide and alusil (composition Al ₂ O ₃ • SiO ₂ ) in a ratio of 0.3: 0, 4: 0.3 by weight (Example 11). The practical yield of the feed additive and the content of 20-hydroxyecdysone in it are given in table. 2.

The optimal conditions for the production of the Metaveron feed additive are: the use of crown-bearing serpent plants collected as a raw material from the vegetative phase or mass budding, extraction of the raw material with 70% ethanol for 72 hours by infusion at room temperature with a water module of 1:10, and filtering the extract and evaporation of ethanol at 50 ^o C in vacuo, extract the condensed sorptive filtration through a sorbent Aluso: alumina (1: 1 by weight), liquid-liquid extraction of lipophilic traces accompanying ve ETS hexane in a volume sotnoshenie extract: hexane = 4: 1, the residue of the extract and subsequent drying in vacuo at 50 ^o C.

 The effectiveness of the use of the Metaveron feed additive in poultry farming was determined by the method of control groups on broiler chickens: 75 broiler chickens from the Smena-2 cross breed were divided into 5 groups of 15 animals each at the age of 24. The average weight of the chickens was 40 g. Each group was placed in cells of the middle tier of the BKM-3B cell battery. Feed ration: during the first 20 days of the reference period, chickens were fed starter compound feed, followed by growth, which was developed on the basis of wheat-corn feed mixture and contained 22.5-22.8 and 19.8-22.6% of crude protein, respectively . Every day, in the morning, the transporter-feeder was isolated from experimental chickens, and a feed mixture in the amount of 10 g with the Metaveron feed additive was introduced into each temporary cage in a temporary feeder.

 The dosage of the Metaveron feed additive is given in Table 3.

 For 1 h, the feed mixture was eaten by chickens, after which the insulating flaps were removed from the feed conveyor. At the end of each week, all experimental chickens were weighed.

 The results of determining the total weight gain of chickens by groups (in grams) for the period of production testing of the Metaveron feed additive are given in Table 4.

 As can be seen from the table. 4, the productivity of production using the Metaveron feed additive can be increased by 16-28%. A distinctive feature of the feed additive is non-toxicity to warm-blooded animals and birds. With a daily single dosage of up to 100 mg / kg of Metaverone, deviations from the norm do not appear in the behavior of broiler chickens, mice, or carnivorous animals - foxes.

 In the first three weeks of poultry feeding, the dosage of the Metaveron feed additive of 10 mg / kg of live weight of broiler chickens was optimal. Moreover, with increasing dosage from 0.1 mg / kg to 10.0 mg / kg, the total live weight of chickens in the experimental groups also linearly increased. Subsequently, the feeding of the chickens took place against the background of the spring colibacteriosis enterprise developing in the poultry houses. As a result of bacterial intoxication of chickens, a significant shift in the effective optimum dosage of the feed additive was observed.

 The immunostimulating properties of "Metaverone" were manifested only at low dosages of the feed additive - 0.1 - 1.0 mg / kg (table. 5). And only at a dosage of 1.0 mg / kg, the chickens did not suffer from colibacillosis, and their safety during the feeding process was 100%, which is reflected in the table. 5. Thus, the optimal daily dosage of the Metveron feed additive for the entire feeding cycle of broiler chickens is 1.0 mg / kg of live weight of the chickens. According to the results of production tests of the Metaveron feed additive, to obtain 1 ton of broiler chickens in live weight, it is necessary to use 9.99 g of Metaveron (group 2) for the entire feeding cycle. In this case, the consumption of about 10 g of "Metaverone" provides additional products in a live weight of 220 kg. The growth index is 22000 (220: 0.010 = 22000). The feed supplement "Metaveron" is characterized by high shelf life of phytoecdysteroids with long shelf life. So, after 6 months of storage of grass meal from crowned serpent, a decrease in the content of 20-hydroxyecdysone from 1.04% to 0.63% was revealed, and the storage of the Metaveron feed additive for 1 year was not accompanied by a decrease in the content of 20-hydroxyecdysone (5.2 % 20-hydroxyecdysone both at the beginning and at the end of the shelf life).

 The proposed feed additive for poultry can significantly increase the safety of poultry and daily gains at significantly lower dosages (0.1-1.0 mg / kg body weight) compared with the prototype (80 mg / kg body weight).

Claims (2)

 1. A feed additive for poultry, including crushed grass of crowned serpent, characterized in that the additive contains a dried fraction of extractives containing at least 4.7% 20-hydroxyecdysone, 0.6% inocosterone and 0.4% α-ecdysone obtained by extraction of the crushed aerial mass of grass of the crown-bearing serpukha collected in the phase of vegetation or mass budding before flowering. 2. A method of manufacturing a feed additive, including grinding plant material, extraction, separation of the solid fraction from the extract, vacuum evaporation, characterized in that the crushed plant material is extracted three times with 12-75% ethanol with a hydraulic module (1: 10-1: 15) for 24-72 hours by infusion, to separate the solid fraction, the extract is filtered and ethanol is evaporated in vacuum at a temperature of not more than 55 ^o C, the condensed extract is diluted 2-5 times with distilled water, clarified by filtration through a mineral sorbent of the formula M _x О _у • nН ₂ О, (where М = Si or Al, х = 1, у = 2-3) or a mixture of these sorbents, the clarified extract is treated with hexane or petroleum ether, and after evaporation it is dried in vacuum at a temperature not exceeding 55 ^o C and chopped.

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