KR101348687B1 - A composition of silver nanoparticle for additive of animal feed - Google Patents

Abstract

The present invention relates to a silver nano composition for feed addition, the oxidation of silver nanoparticles in silver nano solution electrolyzed using one glutamate selected from potaciumglumate and sodium glutate, which are harmless as electrolytes, as an electrolyte. Deoxidation aids to maintain the function of the silver nanoparticles by preventing them, and functional sodium alginate that enhances emulsification stability and releases metals such as cadmium, barium, copper, and manganese accumulated in humans and animals outside the body The present invention relates to a silver nano composition for feed addition having a zero composition.

Description

Silver composition for feed additives {A composition of silver nanoparticle for additive of animal feed}

The present invention relates to a silver nano composition for feed addition, specifically, a silver nanoparticle in an electrolytic silver nano solution using one glutamate selected from a potaciumglumate and sodium glutate which are harmless as an electrolyte. Deoxidation aids to maintain the function of silver nanoparticles while preventing oxidation, and functional sodium alginate to enhance emulsification stability and to release metals such as cadmium, barium, copper, and manganese accumulated in humans and animals outside the body It relates to a silver nano composition for feed addition, which is composed of an immunostimulant.

Nanoparticles of metals are useful technologies because they allow physical and chemical control of materials at the atomic and molecular levels to express useful structures and functions, thereby enabling device construction with a completely different principle.

Here, nano is a unit representing one billionth of a meter. When such a material is micronized to a nanometer size, it has physical and chemical characteristics that are completely different from the original bulk material. For example, while the melting point of the bulk is 1064 ° C, the fine particles of 2nm have a melting point of 500 ° C and have a completely different melting point, and the color is changed to a dark wine color instead of gold. Likewise, metal nanotubes have features that are quite different from the original bulk image.

Sterilization using silver ions (A +) has been studied for decades, and previous studies show strong and extensive antimicrobial activity. Silver has no harm to animals, no toxicity and metabolism in microorganisms. It is known to kill about 650 kinds of harmful bacteria by suppressing in various ways. In addition to the suppression of metabolic function, it is also known that metals have antibacterial and bactericidal effects by affecting the reproductive function of human microorganisms by the electrical ability of silver ions (Ag +).

S-Ag is formed by the reaction of silver ions with cysteine -SH, which is one of the amino acids constituting proteins such as enzymes, among the various explanations for understanding the antimicrobial activity mechanism of silver ions. It can be said to be a mechanism for inactivating microorganisms.

In addition, research has been published that inactivates microorganisms by releasing K + ions in the cytoplasm of the microorganisms or interferes with cell division by directly reacting with bases present in the microorganism's DNA.

As described above, the mechanism for inactivating microorganisms is different, but the silver nanoparticles are intended to form an antimicrobial composition for feed addition, focusing on the strong and extensive antimicrobial activity as described above.

As an animal feed additive as a conventional technology, the domestic registered patent publication (Registration No. 493851) describes the contents of "a method for producing a high concentration of selenium-containing yeast hydrolyzate and functional additives for livestock containing the same". (sacharomycescerevisiae) was incubated in a medium to which selenium salt was added, and then centrifuged, and the precipitated cells were dried to obtain selenium-containing yeast, and the dried yeast was 0.5 to dry yeast at a temperature of 5.0 to 7.5 pH and 50 to 70 ° C. Hydrolyze to yeast peptide of 5000dalton or less by adding ˜2% by weight of protease and 75 ~ 80mg of selenium salt (containing 30 ~ 40mg of selenium) to 100 ~ 140g of hydrolyzed yeast peptide Reaction of 20-30 hours at ℃ to obtain a selenium-binding yeast peptide and dried to prepare a high concentration selenium-containing selenium yeast hydrolysate and functional for livestock The present invention relates to a technology for increasing the productivity of livestock by increasing the anti-stress effect of livestock by using it as a gauze.As it is added to animal feed as in the present application, it has a strong antibacterial and bactericidal effect against various pathogens and antibiotic resistant strains, There is a big difference from the silver nano composition for feed having an immune enhancing effect.

In Korea Patent Publication (Registration No. 552577), a technology related to "feed additive for cows to reduce metabolic diseases" is introduced. The technology of the present invention is a feed additive for reducing metabolic diseases composed of corn powder, molasses, niacin, choline, protective methionine, chromium, picolate and vitamin E. It is also used as a feed additive composition for animal disease prevention and immunity. There is a big difference.

In addition, the domestic registration patent publication (Registration No. 3750064) introduces a technology related to the "manufacturing method of functional beverage", the technical content of potassium carbonate (K ₂ CO ₃ ), in hot water maintained at 80 ~ 100 ℃, Sodium bicarbonate, sodium silicate and sweet carbohydrates are dissolved and slowly cooled to obtain a negatively charged alkaline aqueous solution, followed by the addition of a rare metal (silver, gold fine particle) colloidal solution to the alkaline aqueous solution under the substitution (atmosphere) of nitrogen gas, an inert gas. It can be referred to as a method for producing a functional beverage solution stabilized by. In order to obtain a functional beverage, sodium silicate (water glass powder) equivalent amount (100-200 g) is added to 1 kg of hot water, but sodium silicate is known to dissolve in water under high pressure of 100 ° C or higher. It is not clear that there is no.

The present invention relates to a silver nano composition for animal feed, which prevents various diseases caused by pathogens and immunity caused by ingestion by adding silver nano composition using broad and strong antimicrobial and bactericidal properties against bacteria and viruses of silver nano fine particles to feed. The present invention provides a silver nano composition for animal feed, which is not only harmful to animals, but also prevents the reduction of functionalities due to oxidative alteration of silver nanoparticles.

Batch system consisting of an electrolyte solution of glutamin soda or carboxy glutamate at a concentration of 0.01 to 0.5% by weight yielded 10-50 ppm of silver nano-aqueous solution, which was dispersed to 100 ppm by adding ascorbic acid to the silver nano-aqueous solution. The object of the present invention can be achieved by providing a silver nano-composition for animal feed obtained by adding 20% by weight of 14.5% by weight of alginate aqueous solution and 0.5% by weight of an immunostimulator to 85% by weight of ascorbic acid-dispersed silver nano aqueous solution.

The silver nano composition for animal feed of the present invention is harmless and safe to animals, has strong antibacterial and bactericidal properties against various harmful bacteria and viruses, and has antibacterial and bactericidal properties against bacteria and viruses resistant to antibiotics among the aforementioned bacteria and viruses. It is possible to maintain such a function can be said to be a silver nano composition for animal feed additives that have the prevention and immunity of animal diseases.

The present invention uses a conventional general electrolysis device, but the electrolyte is harmless to animals using a relatively low concentration of silver nano aqueous solution of 10 ~ 50ppm and alginate having a metal accumulation removal function in the animal as a composition to ensure stability and reducing The present invention relates to a silver nano composition for animal feed, which can continuously maintain the original function of silver nanoparticles by using ascorbic acid, which is an oxygen scavenger. Specifically, the content of glutamic acid or soda electrolyte in a concentration of 0.01 to 0.5% by weight Add ascorbic acid to 10 ~ 50ppm silver nano solution electrolyzed by batch system. Add 14.5% by weight 20% alginate solution and 0.5% by weight immune booster to 85% by weight silver nano water solution with 100 ppm ascorbic acid dissolved. It can be said to be related to the silver nano composition for animal feed.

When the silver nanoparticles are prepared by the electrolytic method, as in the composition, even if neutralized or removed by using an electrolyte harmful to animals such as sulfuric acid and nitric acid, the silver nanoparticles may be deteriorated in the process and are safe. There is a problem that can not be guaranteed. However, in the present application, sodium glutamate or glutamate screened glutamate, which is used in the electrolytic method, is easily dissolved in water or alcohol, and used as a flavor enchancers with about 0.3% concentrate, and is an electrolyte that has a good food texture. Can be.

In addition, even in a relatively low silver nano-water solution of 10 ~ 50ppm of the range used in the present invention exhibits sufficient antimicrobial and sterilization function for animal feed, to form an electromagnetic field on the bottom or side surface of the electrolytic cell in order to obtain a conventional high concentration of silver nanoparticles or nanoparticles In order to prevent agglomeration growth of the electrolytic cell, a stirrer or a vibration device may be installed, and a cumbersome and complicated device such as a means of controlling the silver nanoparticles from being plated on the cathode is unnecessary.

In some cases, if adjustment is required within the range of the silver nanoparticles defined in the present invention, it is possible by adjusting the concentration and voltage of the electrolyte.

As an additive composition, sodium alginate or potassium alginate is used as a food additive, and it enhances the emulsification stability of foods to soften the physical properties of foods. Especially, sodium alginate is used for cadmium, copper, manganese, etc. It has the function of discharging it out of the body, and it can be said that it is harmless to animals by using silver nano solution of low concentration, but it is also considering the stability of metal accumulation in the animal for long-term use.

In addition, as an immune enhancer added to the silver nano composition, one or more selected from selenium, vitamins A, D, and E are used.

The amount added to the feed of the silver nano composition for feed addition obtained by the above method is added to 10 to 30 parts by weight of the silver nano composition solution to 100 parts by weight of the feed kneading can be made into a pellet or spherical small piece feed of a certain form. Either way of forming a film by coating the surface layer of the feed made in a certain form is possible. This is a composition for feed addition soda or gal alginate salt is a salt of alginic acid, the main ingredient of brown seaweed such as seaweed or halpi, has a high viscosity adhesive force is a very suitable binder as a binder of the feed composition and the alginate is Excellent film (membrane) molding, forming a film on the feed surface layer during spray coating improves the preservation of the feed.

Listing the characteristics of the silver nano composition for feed addition of the present invention has a strong antimicrobial and bactericidal power against harmful bacteria or viruses, has a strong antimicrobial and bactericidal power against harmful bacteria or viruses resistant to antibiotics and all compositions are beneficial or at least to animals By using a harmless composition, safety can be ensured and silver nanoparticles can be prevented from being deteriorated, thereby maintaining the original functionality of the silver nanoparticles, improving the preservation of feed, and improving animal immunity to various diseases. It may be referred to as a silver nano composition for feed addition.

In order to measure the effects on the antimicrobial and bactericidal properties of the silver nano composition for feed addition, a silver nano composition for feed addition was prepared as in Examples.

According to the composition of the additive-added silver nano composition of the present invention, an aqueous solution of silver nano solution of 20 to 25 ppm is obtained as an electrolyte solution of sodium glutamate at a concentration of 0.2 by weight ratio, and ascorbic acid is added to the silver nano aqueous solution to obtain 100 ppm of silver ascorbic acid aqueous solution. To prepare a silver nano composition for feed addition was prepared by dissolving 20% by weight of 14.5% by weight aqueous sodium alginate aqueous solution, 0.5% by weight of an immune booster to 85% by weight of this aqueous solution.

After diluting the same amount of water in the silver nano-composition (solution) of Example (1), the most common harmful bacteria are Escherichia coli 25922, Pseudomonas aeruginosa ATCC 15442, and Staphylococcus aureus 6538. Each culture medium of) was added to a certain concentration, and then the test results were obtained as shown in Table (1).

Antimicrobial test results of silver nano composition (liquid) for feed addition. Test Items Antimicrobial Status According to Test Initial concentration
(CFU / 40P) Concentration after 1 day
(CFU / 40P) Concentration after 2 days
(CFU / 40P) Concentration after 3 days
(CFU / 40P) Concentration after 4 days
(CFU / 40P) Antibacterial test against Escherichia coli 411 62 13 0 0 Antimicrobial test against Pseudomonas aeruginosa 428 126 21 8 0 Antibacterial test for Pseudomonas aeruginosa 396 112 16 4 0

As shown in the table, the silver nano composition according to the present invention shows that all the bacteria are killed after 4 days by reducing the activity of Escherichia coli, Pseudomonas aeruginosa, and Pseudomonas aeruginosa.

In addition, reports of silver nanoparticles' response to microorganisms ranging from bacteria that are Gram positive, Gram negative, and antibiotic resistant to fungi or viruses show that:

◎ For Gram-positive, MIC (Minimum Inhibitory Concentration) values were measured for strains of Bacillus subtilis, Mycobacterium bovis, Mycobacterium segmatis, Staphylococcus aureus, and the size of the area inhibited by adding silver nano composition solution of Example (1) to solid medium As a result of examining the influence, the overall reaction was more sensitive than conventional antibiotics, and it has been reported to have an effect of inhibiting the Gram-positive bacteria.

Report on the Antimicrobial Activity and Mechanism of Silver Nanoparticles of the Department of Life Science, Kyungpook National University (Korean, Journal of Microbiology and Biotechnology)

Cited References: 6, 12, 18, 24, 40, 49

In addition, the results of the experiments on the effects of Acinetobacter baumanii, Escherichia coli, Pseudomonas aeruginosa, Salmonella typhi, and Vibrio cholerae on Gram-negative were shown to be more effective inhibitory effect with lower concentration of silver nano composition than Gram-positive. On the other hand, there were also strains with weak inert effects.

Report on the Antimicrobial Activity and Mechanism of Silver Nanoparticles of the Department of Life Science, Kyungpook National University (Korean, Journal of Microbiology and Biotechnology)

Cited References: 6, 12, 18, 24, 25, 40, 49

As a result of the antimicrobial action of silver nano-components against antibiotic-resistant strains, representative methicillin-resistant bacteria MRSA (Methicillin-Resistant Staphylococcus. Aureus) and MRSE (Methicillin-Resistant Staphylococcus. Epidermidis) were examined.

In general, the antimicrobial activity of silver nanocomposites on MRSE and MRSA was similar to that of Gram positive effect.

Report on the Antimicrobial Activity and Mechanism of Silver Nanoparticles of the Department of Life Science, Kyungpook National University (Korean, Journal of Microbiology and Biotechnology)

Cited References: 1, 18, 40

In addition, there have been reports of microorganism inactivation of silver nanoparticles in molds and viruses. Candida albicans, Aspergillus fumigatus, Cryptococcus neoformans, Candida tropicalis, Candida parapsilosis and Candida krusei have shown that various experiments have been conducted on MIC measurement, cell cycle delay, and morphological changes related to mycelial formation. However, MIC values tended to be higher than those of the bacteria discussed above. This is primarily because fungi are eukaryotes and have unique cell walls, and in studies on viruses, silver nanoparticles bind to gp120 glycoproteins in viral envelopes at low temperatures without cytotoxicity. It has been reported to influence the interaction between and gp120.

Report on the Antimicrobial Activity and Mechanism of Silver Nanoparticles of the Department of Life Science, Kyungpook National University (Korean, Journal of Microbiology and Biotechnology)

Cited References: 14, 18, 25, 28, 29, 34

According to the experimental results of the silver nano composition according to the embodiment (1) of the present invention and the report of the antimicrobial action and mechanism of action of silver nanoparticles based on the reference of the Department of Biotechnology, College of Natural Sciences, Kyungpook National University, It has strong antibacterial and bactericidal activity against antibiotic resistant strains, and it can be seen that it also has the effect of inactivating harmful fungi and viruses.

As such, by adding the silver nano-composition using the silver nanoparticles to the feed, it is possible to prevent various diseases caused by the feed in advance.

Claims (5)

Ascorbic acid was added to a 10-50 ppm silver nano solution electrolyzed by a batch system using 0.01 to 0.5 wt% glutamate as an electrolyte by weight, and 20 wt% of alginate in 85 wt% silver nano-water solution in which 100 ppm of ascorbic acid was dissolved. A silver nano composition for animal feed, comprising 14.5% by weight of an aqueous solution and 0.5% by weight of one or more immunostimulants selected from selenium, vitamins A, D, and E. delete delete delete delete