RU2179400C1 - Growth-stimulating fodder supplement of plant raw material origin - Google Patents

Abstract

FIELD: fodder production, animal science. SUBSTANCE: the suggested growth-stimulating fodder supplement includes the mixture of plant raw material which contains biologically active penta- and tetracyclic alcohols (phytosterols) and soluble sugar. It was subjected to mechanochemical activation at the following ratio of components, weight%: plant raw material 60.0-90.0, soluble sugar 10.0-40.0. Growth-stimulating supplement predominantly contains sea buckthorn leaves or millet groats' waste products as plant raw material. EFFECT: increased mean daily body weight gains in youngsters and strengthened immune system by excluding completely the mortality due to biologically acceptable, useful biologically active substances which include triterpenoid and phytosterols, higher ecological purity. 2 cl, 4 tbl

Description

 The invention relates to feed production, in particular to feed growth-promoting additives for young animals.

 Animal growth promoters known to be added to feed are known: vitamins, antibiotics, synthetic hormones such as estrone, estrodiol, diethylstilbestrol. However, in recent years, the use of synthetic hormones has been reduced due to both subjective and objective reasons. Public opinion and consumers of livestock products are opposed to the use of synthetic hormones due to a lack of knowledge about the consequences of using synthetic hormones and the effect of the use of products obtained with their use on human health and its subsequent generations. Separate data have been obtained on the harmful effects of synthetic hormones on organisms, which can be fixed at the genetic level and manifest in subsequent generations. It is shown that prolonged use of antibiotics and hormones weakens their positive effect.

 To eliminate these problems, it is proposed to use natural preparations obtained from plant materials.

 The closest in technical essence is the use of miliacin - a natural substance obtained by extraction with diethyl ether or low-boiling gasoline from oatmeal flour - waste from the production of oatmeal (Auth. St. USSR 414994, class A 23K 1/165, BI 6 for 1974) .

 Milyacin is an ether from the group of pentacyclic alcohols of the triterpenoid class, which have biological activity.

 According to a known technical solution, millet oil is extracted from a millet flour with an organic solvent. Miliacin crystals precipitate from millet oil, which are separated by filtration and washed with a solvent. As a result of the use of miliacin in animals, the average daily gain increases by 9.8%.

 A disadvantage of the known growth-promoting additives is the insufficient effectiveness of its action, insufficient environmental purity, since the additive is obtained using organic solvents, as well as low solubility in water.

 The problem solved by the claimed technical solution is to create a more effective and environmentally friendly growth-promoting feed additives from raw materials of plant origin with good solubility in water.

The problem is solved due to the fact that in the claimed technical solution, the growth-promoting feed additive includes vegetable raw materials containing biologically active penta- and tetracyclic alcohols (phytosterols) and soluble sugar subjected to mechanochemical activation in the following ratio of components, wt.%:
Plant materials - 60-90
Instant Sugar - 10-40
Preferably, as a plant material, the growth-promoting additive contains sea buckthorn leaves or millet cereal waste.

 Plants synthesize phytosterols with 30, 29 and 28 carbon atoms, such as sitosterols. Phytosterols in the body of animals can turn into steroid hormones, providing an increase in the mass of animals. The main active principle of natural growth-promoting additives are sterols - polycyclic alcohols belonging to the group of plant steroids. These are solids that are insoluble in water.

 The problem is the insolubility of phytosterols in water, leading to their low bioavailability.

 The increase in the solubility and bioavailability of phytosterols in the present invention is achieved due to their mechanochemical conversion into a soluble glycosidic form by reaction with a soluble carbohydrate, for example sugar. Glycosides - condensation products of cyclic forms of mono- or oligosaccharides with alcohols, in particular with tetra- and pentacyclic alcohols of the triterpenoid series, contained in sterile plant materials, such as sea buckthorn fruits and leaves, waste from millet processing, oil and sunflower pulp, soybean, rape, seeds of the family Solanaceae, etc.

 A chemical glycosidic bond is formed between the atomic (glycosidic) carbon atom of sugar and the remainder of the non-carbohydrate component - polycyclic alcohol. A non-carbohydrate residue is called an aglycon. The main feature of glycosides is their ability to dissolve in water due to the carbohydrate part, which ensures transport in the aquatic environment and bioavailability. Due to aglycon, the glycoside penetrates through the lipid membranes into the body and has a hormonal effect.

 Thus, the chemical basis of the claimed growth-promoting additives are glycosides of phytosterols from plant materials, which are formed during mechanochemical processing of it with soluble saccharides.

 As sterol-containing plant materials, plant materials were used containing tetra- and pentacyclic alcohols of the triterpene series, for example, sea buckthorn leaves (Chemical study of HIPPOPHAE RHAMONIDES. II. The main components of the neutral part of the saponification products of the extract of sea buckthorn leaves. V. L. Salenko, T. P. Kukina , V.N. Karamyshev, V.N. Sidelnikov, V.A. Pentegova, Chemistry of Natural Compounds. 4, 1985, pp. 514-515), Waste from the production of millet groats, etc.

 Obtaining growth-promoting feed additives is provided by mechanochemical processing of a mixture of plant sterol-containing raw materials and soluble saccharide, such as edible sugar, in devices providing constrained shock and shear. Such devices can be ball, planetary, vibrocentrifugal and roller mills.

 As a result of processing sterol-containing raw materials with the help of the above mills, a feed growth-promoting additive is formed, which consists of a complex of glycosides, the use of which not only helps to increase the weight of animals, but also increases their immunity, which contributes to higher preservation of animals.

 Information on the effectiveness of the resulting growth-promoting feed additives, as well as specific examples of its preparation are given below.

 Example 1

 As a sterol-containing component, sea buckthorn leaves were used. Air-dry raw materials were mixed with 20 wt.% Food sugar and fed into a mechanochemical reactor. A vibrocentrifugal mill — an activator of a VCM with stainless steel balls (Novosibirsk, developed by the Institute of Solid State Chemistry and Mechanochemistry of the SB RAS) was used as a mechanochemical reactor. In a vibrocentrifugal mill, the mixture was processed for 1-2 minutes. The resulting powder (Preparation 1) was used as a feed additive.

 Example 2

 Similar to example 1. Air-dry raw materials were mixed with 40 wt.% Food sugar. Mechanochemical processing was carried out in a planetary mill of the type VCM (Novosibirsk, developed by the Institute of Solid State Chemistry and Mechanochemistry of the SB RAS) for 1-3 minutes. The resulting powder (Preparation 2) was used as a feed additive.

 Example 3

 As a sterol-containing raw material, millet husk was used, which was formed upon receipt of cereals. Waste from the production of millet cereal was mixed with 10 wt.% Edible sugar and processed in a mechanochemical CCM reactor; processing was carried out with stainless steel balls for 1-3 minutes. The resulting powder (Preparation 3) was used as a feed additive.

 Upon receipt of the feed additive using soluble edible sugar in an amount of less than 10 wt. % the yield of the active component decreases and the effectiveness of the additive decreases. Obtaining a feed additive using soluble food sugar in an amount of more than 40 wt.% Is not economically feasible.

 Tests of growth-promoting additives were carried out by specialists of the Siberian Research Design and Technological Institute of Animal Husbandry (SibNIPTIZh) SB RAS.

 Experiments on the additive obtained from sea buckthorn in Example 1 were carried out at the Kudryashevsky pig complex of the Novosibirsk Region on sucking pigs, and then on piglets for 2 weeks after weaning. Feeding was carried out with standard compound feed, a growth-promoting additive was introduced at the rate of 30 g per 100 kg of live weight. The results are presented in table 1. It is seen that the piglets treated with the growth-promoting supplement had a live weight of 30 days — 0.3 kg higher and two weeks after weaning — 0.7 kg higher. Preservation is respectively higher by 7.3 and 10.1%. In general, the average daily increase increased by 14.2%, and the safety increased by 14.6%.

 Testing on weaned piglets at the age of 3-4 months was carried out in the Borovskoye farm, Novosibirsk Region. The dose of the additive was 30 g per 100 kg of live weight. The diet corresponded to the standard accepted on the farm. In the control and experimental groups there were 10 goals of piglets. As a result of a 30-day experiment, the average daily increase in piglets in the experimental group exceeded the control by 14.5%, and in terms of feed costs per 1 kg of growth by 15.2%.

 The experiments on the additive obtained from the waste of millet in example 3 were carried out at the Kudryashevsky pig farm. Groups of piglets aged 45 - 105 days participated. The duration of the experiment is 50 days. Animals received standard compound feed and were kept in groups in adjacent cages. The dose of the additive is 30 g per 100 kg of live weight. According to table 2, it is seen that the average daily increase increased by 15.1%. No significant differences in feed safety and consumption were noted.

 Hematological parameters in piglets were within the physiological norm. Significant differences between pigs of different groups were not observed (table 3).

 According to a similar scheme, in the Borovskoye farm, the Novosibirsk Region, experiments were carried out on sucking pigs at weaning of 2 months. Used additives obtained in accordance with examples 2 and 3. The experiment lasted from 20 to 60 days of age of piglets. The results are shown in table 4. You can see the positive effect of additives on the growth of piglets. The average daily increase increased by 14.4%. The safety of the piglets was complete.

 Thus, the data show a positive effect of growth-promoting additives from plant materials on the growth, health and safety of animals. This is due to the presence in the additive complex of bioavailable useful biologically active substances, which was previously established in scientific research and practice of medicine and veterinary medicine. The additive is obtained from harmless plant materials used in the food industry, only food sugar is used as a chemical reagent. The product is environmentally friendly. During its production, no organic solvents are used that can harm the animal organism.

 Compared with the prototype, the claimed growth-promoting feed additive gives a higher average daily gain and additionally strengthens the immune system, which completely eliminates the death of young animals. The data show a positive effect of the claimed growth-promoting additives from sterol-containing plant materials on the growth, health and safety of animals. This is because the additive contains a complex of bioavailable beneficial biologically active substances, including, for example, triterpenoids and phytosterols, which was previously established by studies using extraction, as well as the practice of medicine and veterinary medicine.

 The increase in growth rate is associated both with an increase in feed intake, and with an increase in the degree of their assimilation.

 Strengthening the immune system is achieved as a result of exposure to the animal organism of a complex of biologically active substances present in plants.

 The inventive additive is obtained from harmless plant materials used in the food industry, only food sugar is used as a chemical reagent. The resulting product is environmentally friendly. During its preparation, no organic solvents are used that can harm the animal organism.

Claims (2)

1. Growth-stimulating feed additive from plant materials, characterized in that it includes a mixture of plant materials containing biologically active penta- and tetracyclic alcohols (phytosterols), and soluble sugar subjected to mechanochemical activation, in the following ratio of starting components, wt. %:
Plant materials - 60 - 90
Instant Sugar - 10 - 40
2. The additive according to claim 1, characterized in that as a plant material it contains a leaf of sea buckthorn.  3. The additive according to claim 1, characterized in that it contains waste from the production of millet cereal as a plant raw material.

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