KR20100132278A - The livestock feed additive for high dha and low cholesterol egg and method of manufacturing thereof - Google Patents

Abstract

PURPOSE: A poultry farming feed admixture for producing eggs with high DHA and low cholesterol, and a producing method thereof are provided to reduce the cholesterol inside egg yolks into 30% maximum. CONSTITUTION: A poultry farming feed admixture for producing eggs with high DHA and low cholesterol contains 0.1~5wt% of pyroligneous liquor, 0.01~3wt% of fermented garlic liquid cultured microbial agent, 0.1~5wt% of water-soluble ionized calcium, 0.2~0.7wt% of dried cricket powder, 0.1~6wt% of sea squirt powder, and 0.3~0.8wt% of paprika extracted pigment.

Description

Live feed feed additive for high DHA and low cholesterol egg and method of manufacturing

The present invention relates to a poultry feed additive for producing high DHA and low cholesterol eggs and a method for preparing the same. More specifically, wood vineger, fermented garlic solution cultured microbial agent, water-soluble ionized calcium, dry cricket powder, sea shell powder and paprika The present invention relates to a poultry feed additive for producing high DHA and low cholesterol eggs containing extract pigment (Oleoresin paprika) as an active ingredient and a method for preparing the same.

In general, nutrient eggs are eggs that have the functionality obtained by mixing or adding a functional substance to the feed to feed chickens to contain or increase special nutrients compared to ordinary eggs or to reduce the unhealthy factors contained in existing eggs. Say.

Based on the characteristics of the functional substances in eggs can be divided into four categories.

The first is the early stages of the development of functional egg production technology, which includes nutrients that are easily deficient in the human body, such as vitamins, minerals, and special fatty acids. Examples include iodine and vitamin E fortified eggs. .

Secondly, the immune antibody-enhanced eggs, which have been enhanced with immune antibodies, have enhanced immune antibodies with disease prevention functions such as yolk immunoglobulin (IgY). Representative examples include Helicobacter pylori immune antibody-enhanced eggs known to cause gastritis.

Third, physiologically active substances other than nutrients, that is, functional nutrient-enhanced eggs.

Lastly, the low egg content lowers the egg content of physiological substances, which are less preferred by consumers, and the most representative one is the production of low cholesterol eggs that lower the cholesterol content in eggs.

Cholesterol is a kind of fat that exists in all animal foods. It is a component of cells and an essential ingredient for hormone synthesis, but too much cholesterol adversely affects the human body, so maintaining an appropriate level of cholesterol is very important for health.

Hypercholesterolemia is a condition in which blood cholesterol levels of humans are above 200 mg / dL, which is common in 52% of the world's adult population. Hypercholesterolemia is a direct cause of arteriosclerosis and ultimately hypertension, It causes various cardiovascular diseases such as angina pectoris, myocardial infarction and stroke. This is thought to be a result of the increase in hypercholesterolemia patients due to the excessive intake of animal foods such as eggs (eggs), meat products (meat), dairy products (milk, butter).

However, the consumption of animal foods is increasing every year. Especially, as the economy develops, the consumption of animal foods is increasing. Therefore, it is thought that it is almost impossible to dramatically reduce the consumption of animal foods. Therefore, in recent years, research into developing low cholesterol animal food by lowering the content of cholesterol contained in animal food, rather than trying to reduce the consumption of animal food itself has been conducted in various ways.

Eggs, like eggs, are very good foods from a nutritional standpoint of high quality protein, saturated and unsaturated fatty acids, minerals and vitamins. However, these eggs, especially eggs, contain more than about 200 mg of cholesterol per egg and are considered a major source of cholesterol in food. As recent associations between blood cholesterol levels and the incidence of cardiovascular disease have been established, and increased food intake increases the risk of cardiovascular disease (Weggemans et al., 2001), health-conscious consumers It limits your cholesterol intake. The American Heart Association's recommended daily intake of cholesterol is 300 mg, in order to meet this limit, many consumers restrict eggs from their diets, which has led to a steady decline in per capita egg consumption (National Institutes of Health Consensus Development Panel, 1985). Changes in the general consumer's level of dietary cholesterol in the United States can also be seen in the decrease in per capita egg consumption from 303 to 256 in the past 35 years (US Department of Agriculture, 2002). Therefore, low cholesterol eggs are attractive to health conscious consumers and livestock companies that want to develop high value-added functional products.

According to US Pat. No. 6,177,121, a method of using cholesterol lowering agents lovastatin, simvastatin, atorvastatin as a feed additive for laying hens is disclosed to make low cholesterol eggs (Elkin et al., J. Nutr 1999: 129: 1010-1019 , Elkin et al., J. Agric.Food Chem 2003: 51: 3473-3481). This document reports that low cholesterol eggs are produced when feeding simvastatin or atorvastatin from 0.03% to 0.06% for 5 weeks, but this method has not been utilized for the production of low cholesterol eggs. The reason is that simvastatin or atorvastatin are expensive drugs produced by organic synthesis, and when used as feed additives, the cost of producing low cholesterol eggs is at least several times higher than the price of normal egg production. Another problem is the unwanted side effects of significantly lower egg production with the feeding of simvastatin or atorvastatin, which leads to higher production costs of low cholesterol eggs. The patent illustrates lovastatin in addition to simvastatin and atorvastatin, but lovastatin 0.06% has a cholesterol lowering effect of up to 3-6%, indicating that it is not effective in producing low cholesterol eggs. Therefore, it is very unlikely that low cholesterol eggs using lovastatin, simvastatin or atorvastatin will be commercialized.

In addition, poultry is a breeder with relatively little fatty acid metabolism caused by fatty acid metabolism in the body, linoleic acid, linolenic acid, eicosapentaenoic acid (EPA) and dehydroacetic acid. Accumulation efficiency of omega-3 polyunsaturated fatty acids such as (docosa hexaenoic acid: DHA) is high.

Therefore, many studies have been conducted to increase the content of functional polyunsaturated fatty acids including CLA in poultry derived livestock using feed additives (Ahn, DU et al. 1999, Chamruspollert, M. and JL Sell. 1999, Hwangbo, J., etc.). 2005). Accordingly, there has been an attempt to utilize poultry as a functional element of omega-3 fatty acids, nutrients such as vitamin E and selenium, and bioactive substances such as carnitine.

However, the market has not yet been activated compared to functional eggs except DHA-enriched poultry, and the production of functional fatty acids used as feed additives for the production of functional poultry and livestock products is expensive and mixed with various nutrients in the feed. Eggs obtained by feeding them to chickens by adding or adding them have a problem that the content in eggs is very low, which has been a major limitation in the activation of the market.

Therefore, the present invention has completed the present invention to develop a method for producing multifunctional eggs with reduced cholesterol and improved DHA than the eggs produced by the general method.

Accordingly, an object of the present invention is to provide a feed additive and a method of preparing the same for producing nutritive eggs having improved palatability of high DHA and low cholesterol, which have increased DHA content than regular eggs, while maintaining essential nutritional elements contained in the general eggs.

In addition, an object of the present invention is to provide a mixed feed obtained by mixing the feed additive prepared according to the production method with a commercial blended feed in a predetermined ratio.

In addition, an object of the present invention is to provide a breeding method of poultry comprising the step of feeding the mixed feed to poultry.

It is also an object of the present invention to provide a high DHA and low cholesterol eggs obtained from chickens fed the mixed feed.

In order to achieve the above object, the present invention provides high DHA and low vinegar containing wood vineger, fermented garlic solution cultured microbial agent, water-soluble ionized calcium, dried cricket powder, sea shell powder and paprika extract (Oleoresin paprika) as active ingredients. Provided are poultry feed additives for the production of cholesterol eggs and methods for preparing the same.

Hereinafter, the present invention will be described in detail.

As used herein, the term "poultry" refers to birds that are raised by humans to obtain livestock useful for humans such as meat, eggs, hair, feathers, and the like, including chickens, turkeys, geese, ducks, flower tanks, pigeons, quails, and the like. to be.

The present invention is characterized by containing wood vineger, fermented garlic solution cultured microbial agent, water-soluble ionized calcium, dried cricket powder, sea shell powder and paprika extract (Oleoresin paprika) as an active ingredient.

The active ingredient is 0.1 to 5% by weight wood vinegar solution, 0.01 to 3.0% by weight fermented garlic solution culture microbial agent, water-soluble calcium ion, 0.1 to 5.0% by weight, 0.2 to 0.7% by weight dry cricket powder, 0.1 to 6.0% by weight of sea shell Paprika extract pigment (Oleoresin paprika) is characterized in that 0.3 to 0.8% by weight.

The wood vinegar according to the present invention is oak, bamboo, juniper, mulberry, ginkgo, jujube, cedar, camellia, mulberry, pine, fir, pine, cedar, cypress, willow, birch, birch, zelkova, Use at least one selected from the group consisting of forsythia, rhododendron, dandelion, eoseongcho, rice straw, barley straw, reed.

In addition, the wood vinegar solution is purified by distillation using a distillate or by stirring and filtering in the presence of activated carbon to remove harmful components such as phenol, tar, methanol, diethyl ether, benzopyrene, carbonyl, heavy metals remaining in the wood vinegar solution It is characterized by.

Fermented garlic solution cultured microbial agent according to the present invention by mixing the weight ratio of fermented garlic: water in 50: 100 to prepare fermented garlic solution for 2 to 3 hours at 80 to 100 ℃, complex into the fermented garlic solution prepared above Probiotic is characterized in that it is prepared by inoculating 1 to 2% by weight of the fermented garlic solution.

The complex probiotics include Bacillus subtilis, fungi, lactic acid bacteria, photosynthetic bacteria, yeast, actinomycetes and the like, preferably Lactobacillus permantum ( Lactobacillus). ^{fermentum) 2 x 10 10 cfu /} ㎏, Lactobacillus Planta room (Lactobacillus plantarum ) 3 x 10 ⁶ cfu / kg, Lactobacillus acidophilus 1 x 10 ⁵ cfu / kg, Bacillus subtilis subtilis ) 1 x 10 ¹⁰ cfu / kg, Bacillus licheniformis licheniformis ) 1 x 10 ⁵ cfu / kg, Bacillus coagulans , Saccharomyces cerevisieae ) It is characterized in that 7 x 10 ⁴ cfu / kg is mixed, it is preferable to add 1 to 2% by weight of the combined probiotic fermented garlic solution to the fermented garlic solution prepared above. This has the advantage that not only the improved weight gain of the poultry, the immunity is increased but also the quality of the eggs produced from the poultry without lowering the egg production rate.

The water-soluble ionized calcium according to the present invention is dried and pulverized after clamming and binding shells having a form in which the stratum corneum layer of the organic component and the stratum corneum of the inorganic component are mixed with each other after hot water treatment to produce a non-plastic calcium-based compound, and then crushing the shell. After fine grinding of water to 10㎛ or less, secondary hydrothermal treatment and ozone treatment separate organic protein components from inorganic calcium carbonate components, and washing, drying and pulverizing the shell fine powder produce calcium carbonate powder. It is used to produce a high-purity quicklime powder of at least 99.9% produced after firing.

As the non-calcined calcium-based compound is prepared using the clam and the decoction shell, there is a feature that can provide calcium components to eggs as well as recycling the shell.

Sea urchin shell powder according to the present invention is to remove the impurities and surface water through the washing, dehydration of the sea urchin shell, and the concentration of organic acid of the sea urchin shell after the electrical step is 1 to 12%, pH is 1.5 to A step obtained by immersion in the organic acid solution and dehydration of the sea shells subjected to the immersion in the previous step, followed by drying and grinding to a size of 50 mesh is used.

The carotenoid pigments and eggshell-enhanced components of the sea snail shell powder have excellent characteristics in color and eggshell quality because they are efficiently transferred to the body during feeding of the laying hens.

It is difficult to specifically limit the amount of the shellfish powder to the feed composition for laying hens because the content of the shellfish may vary depending on the content of the active ingredient of the shellfish shells and the age distribution of the laying hens. In consideration of the above, it is preferable to add 6.0 wt% or less in order to sufficiently exhibit the effect intended in the present invention. However, as described above, the numerical value of the content may be changed slightly depending on the situation, which will be apparent to those skilled in the art without departing from the scope of the present invention.

Paprika extract pigment according to the invention is characterized in that the capsanthin (capsanthin). The capsantin is a natural pigment and is a kind of carotenoid-based red pigment of paprika rind. In general, the characteristic of the egg is egg yolk (hereinafter referred to as egg yolk) is a dark yellow color. For this reason, the nutrition of the functional egg is judged according to the color density of the yolk. In the present invention, it is characterized by using a natural colorant rather than an artificial colorant.

Feed additive according to the present invention is characterized in that the high DHA and low cholesterol efficacy is enhanced.

Provided is a mixed feed obtained by mixing a feed additive according to the present invention with a commercial blended feed at a predetermined ratio. More preferably, based on the total feed weight of poultry, the feed additive prepared according to the above method is prepared by mixing 0.01 to 5.0% by weight.

The general feed of the poultry includes one or more selected from the group consisting of starch-containing material, protein-containing material, fat-containing material, vitamin-containing material, mineral-containing material, antioxidant.

If the starch-containing material can effectively maintain the growth of the poultry to be reared, its concentration contained in the poultry feed composition of the present invention is not limited to a specific range. Generally, the starch-containing material may be included in the poultry feed composition of the present invention in the range of about 30 to about 80 weight percent, preferably about 40 to about 70 weight percent, most preferably 50 to 70 weight percent.

Protein-containing substances can also be included in the poultry feed composition of the present invention as long as it can maintain the growth of poultry. For economic reasons, protein-containing substances such as fish meal and soybean powder are used. Others include soy protein concentrates, blood meal, plasma proteins, skim milk concentrates, milk protein concentrates, corn gluten powder, wheat grains. Luten powder, yeast, sunflower seed powder, etc. are mentioned. Preferred protein containing materials are fish meal, blood meal, plasma protein, soybean powder and the like. As long as the protein-containing substance can effectively maintain the growth of the poultry to be reared, its concentration contained in the poultry feed composition of the present invention is not important. Generally, the protein containing material can be included in the poultry feed composition of the present invention in the range of about 10 to about 50 weight percent, preferably about 15 to about 40 weight percent, most preferably 18 to 30 weight percent.

The poultry feed composition of the present invention may also contain a fat containing material. Suitable fat-containing materials include, but are not limited to, lard, tallow, soybean oil, lecithin, coconut oil, and the like. Preferred fat-containing substances are soybean oil, coconut oil and lard.

The concentration of the fat-containing substance contained in the poultry feed composition of the present invention is not critical so long as it can maintain the growth of the poultry raised. The fat containing material may generally be present in the poultry feed composition of the present invention in the range of about 2 to about 20 weight percent, preferably about 4 to about 15 weight percent, most preferably 6 to 12 weight percent.

High DHA and low cholesterol poultry feed according to the present invention except for wood vineger, fermented garlic culture culture microbial agent, water-soluble ionized calcium, dry cricket powder, sea shell powder and paprika extract active ingredient (Oleoresin paprika) The ingredient may be a conventional ingredient commonly used in poultry feed.

Provided is a breeding method for poultry, comprising feeding a proper amount to the mixed feed obtained by mixing the feed additive according to the present invention with a commercial feed in a predetermined ratio. More specifically, the feed is a breeding method of poultry, characterized in that the feed of high DHA and low cholesterol poultry feed per 100 to 120g per day per day for 500 liters of spawning crabs 1500 times twice a day for 30 days To provide.

The feed additive according to the present invention has an effect of reducing cholesterol in egg yolk by up to 30% compared to conventional eggs, and the egg obtained by feeding or feeding DHA nutrients to the feed is very low in egg content. Can fundamentally solve the problem, and can produce high value-added functional eggs at low cost, thereby contributing to the increase of farm income.

The feed additive according to the present invention efficiently manufactures non-calcined calcium-based compounds and shellfish shells using clam shells and sliver shells, as well as resource recycling, and calcium components, carotenoid pigments, and egg shell-enhanced components are efficiently transferred to the body during feeding of the laying hens. As a result, there is a very excellent characteristic in coloration and egg shell quality.

The feed additive according to the present invention has the advantage of not only reducing the quality of the eggs produced from the poultry, but also improving the weight gain and immunity of the poultry, as well as increasing the egg production rate.

Hereinafter, the present invention will be described in more detail in the following examples. However, the present invention is not limited to the following examples, and it will be apparent to those skilled in the art that various changes or modifications can be made within the spirit and scope of the present invention.

Preparation Example 1 Preparation of Wood Vinegar

Oak, bamboo, juniper cedar, camellia, mulberry, pine, fir, pine, cedar, forsythia, rhododendron, dandelion, rice straw and reed are mixed in a total of 1000 kg in a cauldron and heated to a temperature of 110 ℃ to discharge as steam The sap was collected in a sealed container at a temperature of 90 ℃ cooled and condensed to prepare a crude wood vinegar. The prepared crude wood vinegar was aged at room temperature for 6 months to obtain wood vinegar.

Preparation Example 2 Preparation of Fermented Garlic Solution Cultured Microbial Agent

Fermented garlic: After mixing the weight ratio of water to 50: 100 and making it brown for 2 hours at 80 to 100 ° C to prepare a brown fermented garlic solution, Lactobacillus fermentum ( Lactobacillus fermentum ) which is a complex probiotic to the prepared fermented garlic solution 2 x 10 ¹⁰ cfu / kg, Bacillus subtilis 1 x 10 ¹⁰ cfu / kg and Saccharomyces cerevisieae ) 7 x 10 ⁴ cfu / kg was inoculated with 1 to 2% by weight of fermented garlic solution and incubated in a constant temperature room for 3 to 10 days.

Preparation Example 3 Preparation of Water-Soluble Calcium Ionized

Each of the clams and splice shells were treated in hot water at 95 ° C. for 2 hours to remove the clam shells from the shell area. The shell and shell were separated using a vibrating body. Each shell thus obtained was dried in a dryer at 120 ° C. for 3 hours and then ground using a grinder. The shell mill was sieved to a size of 0.5 mm to obtain a coarse mill. While maintaining 96 ℃ the pulverized product is pulverized shell subjected to a secondary grinding of the 0.5mm or less secondarily after milling to less than 10㎛ herein while the amount of ozone treatment in hot water for the 15 g / Nm ³ After 2 hours, the organic protein component was separated from the inorganic calcium carbonate component. The shell milled product was washed, dried, and crushed to produce calcium carbonate powder and to obtain at least 99.9% high-purity quicklime powder produced after firing for 60 minutes in an electric furnace maintained at 950 ° C.

Production Example 4 Manufacture of Sea Urchin Powder

The sea urchin shell powder is collected by washing with sea urchin, washed with water, and dehydrated for several hours in a porous container to remove impurities and surface water, and the sea urchin shell subjected to the electrical stage in 4% acetic acid (pH 2.3) solution for 48 hours. After immersion, the sea urchin shell was dehydrated, and after hot air drying at about 40 to 60 ° C., roughly ground to 5 mm in thickness, triturated twice with a roll-mill, and then triturated three times with a cut mill. The grinding was ground to a particle size of 50 mesh to obtain a shellfish powder.

Preparation Example 5 Cricket Powder

After purchasing 150 large-grown crickets, they were rapidly frozen and lyophilized in a freeze-drier at a temperature of minus 40 ° C., and then ground to a size of 50 mesh to obtain cricket powder.

Example 1 Preparation of Poultry Feed Additives for High DHA and Low Cholesterol Egg Production

Wood vineger prepared in Preparation Examples 1 to 5, fermented garlic solution cultured microbial agent, water-soluble ionized calcium, dried cricket powder, sea shell powder and sapled paprika extract (Oleoresin paprika) purchased from CTC Bio Formulated as 1 to prepare a feed additive.

The other components were added calcium phosphate, limestone, salt, synthetic vitamins, synthetic minerals, other organic matter and fish meal.

[ Example  2] high DHA  And Low cholesterol  Preparation of poultry feed for egg production

One ton of poultry was added to 0.5 ton% of the feed additive prepared in Example 1 and stirred to prepare a poultry feed for producing high DHA and low cholesterol eggs. Feeding was fed separately for twice a day for 30 days by mixing 100 to 120 g of high DHA and low cholesterol poultry feed per feed to 500 liters of water per day of 1500 laying eggs.

[ Experimental Example  1] high DHA  And Low cholesterol  Chemical Properties of Eggs

The eggs obtained from chickens fed the high DHA and low cholesterol egg-producing poultry feed prepared in Example 2 were commissioned to the National Institute of Animal Science, and the chemical properties thereof were as shown in Table 2 below.

As can be seen from the results in Table 2, it was confirmed that the carotenoid pigments and egg shells were strengthened than the normal column. This is a result showing that the feed additive according to the present invention is effective in improving eggshell quality by increasing the strength in the egg white formation and egg shell formation step.

Experimental Example 2 Component Analysis of High DHA and Low Cholesterol Eggs

Eggs obtained from chickens fed the high DHA and low cholesterol egg-producing poultry feed prepared in Example 2 were commissioned by the National Institute of Animal Science, and analyzed as follows.

As can be seen from the results of Table 3, it was found that the DHA content was increased DHA content than the normal eggs while maintaining the essential nutrients contained in the general column.

[ Experimental Example  3] high DHA  And Low cholesterol  Cholesterol Content in Eggs

Eggs obtained from chickens fed the high DHA and low cholesterol egg-producing poultry feed prepared in Example 2 were commissioned by the Korea Food Research Institute to analyze the cholesterol content in yolk, as shown in Table 4 below.

As can be seen from the results of Table 4, the cholesterol content in the yolk at the beginning and the end of the experiment did not have a significant difference between the eggs produced by the feed and the feed according to the present invention, the feed according to the present invention in the amount of change It was confirmed that the cholesterol content in egg yolk was significantly reduced in eggs obtained from chickens fed the diet.

Claims (13)

Poultry feed additive for the production of high DHA and low cholesterol eggs containing wood vineger, fermented garlic culture microorganisms, water soluble ionized calcium, dry cricket powder, sea shell powder and Oleoresin paprika as active ingredients. The method of claim 1, The active ingredient is 0.1 to 5% by weight wood vinegar solution, 0.01 to 3.0% by weight fermented garlic solution culture microbial agent, water-soluble calcium ion, 0.1 to 5.0% by weight, 0.2 to 0.7% by weight dry cricket powder, 0.1 to 6.0% by weight of sea shell Paprika extract pigment (Oleoresin paprika) Poultry feed additive for producing high DHA and low cholesterol eggs, characterized in that 0.3 to 0.8% by weight. 3. The method of claim 2, The wood vinegar is oak, bamboo, juniper, mulberry, ginkgo, jujube, cedar, camellia, mulberry, pine, fir, pine, cedar, rum, willow, birch, birch, zelkova, forsythia, rhododendron Poultry feed additive for the production of high DHA and low cholesterol eggs, characterized in that produced in the one or more selected from the group consisting of dandelion, eoseongcho, rice straw, barley straw, reed. 3. The method of claim 2, The fermented garlic solution cultured microbial agent by mixing the weight ratio of fermented garlic: water to 50: 100 to prepare fermented garlic solution for 2 to 3 hours at 80 to 100 ℃, ferment the complex probiotic to the prepared fermented garlic solution Poultry feed additive for high DHA and low cholesterol egg production, characterized in that cultured by inoculating 1 to 2% by weight of garlic liquid. The method of claim 4, wherein The complex probiotic Lactobacillus fermentum ( Lactobacillus fermentum ) 2 x 10 ¹⁰ cfu / kg, Lactobacillus plantarum ( Lactobacillus plantarum ) 3 x 10 ⁶ cfu / kg, Lactobacillus acidophilus ( Lactobacillus acidophilus ) 1 x 10 ⁵ cfu / kg, Bacillus subtilis 1 x 10 ¹⁰ cfu / kg, Bacillus licheniformis 1 x 10 ⁵ cfu / kg, Bacillus coagulans , Saccharomyces Saccharomyces cerevisieae Poultry feed additive for producing high DHA and low cholesterol eggs, characterized in that 7 x 10 ⁴ cfu / kg is mixed. 3. The method of claim 2, The water-soluble ionized calcium is dried and pulverized after clamming and binding shells having a form in which the stratum corneum layer of the organic component and the stratum corneum layer of the inorganic component are mixed with each other after hot water treatment to form a non-calcined calcium-based compound, and then After pulverizing to below 탆, secondary hot water treatment and ozone treatment separate organic protein components from inorganic calcium carbonate components, and wash, dry and disintegrate the shell pulverized powder to produce calcium carbonate powder, and after firing Poultry feed additive for high DHA and low cholesterol egg production, characterized in that made of high purity quicklime powder of at least 99.9% produced. 3. The method of claim 2, The sea urchin shell powder is collected from the sea urchin shells, washed with water, dehydrated to remove impurities and surface water, and the sea urchin shells subjected to the electrical stage have an organic acid concentration of 1 to 12%, and a pH of 1.5 to 3.0 organic acid solutions. Poultry feed additive for production of high DHA and low cholesterol eggs, characterized in that obtained by immersing in the step, and after the immersion of the sea urchin shells subjected to the immersion of the previous step, and then crushed to a size of 50 mesh. 3. The method of claim 2, The paprika extract pigment is poultry feed additive for high DHA and low cholesterol egg production, characterized in that the capsanthin (capsanthin). The method according to any one of claims 1 to 8, The feed additive is a poultry feed additive for high DHA and low cholesterol egg production, characterized in that the high DHA and low cholesterol efficacy is enhanced. A high DHA and low cholesterol poultry feed prepared by mixing the poultry feed additive according to any one of claims 1 to 9 based on the total feed weight of poultry to 0.01 to 5.0% by weight. The method of claim 10, The general feed of poultry is a high DHA and low cholesterol poultry, characterized in that it comprises one or more selected from the group consisting of starch-containing material, protein-containing material, fat-containing material, vitamin-containing material, mineral-containing material, antioxidant Feed. A method of breeding poultry comprising feeding the high DHA and low cholesterol poultry feed to poultry. The method of claim 12, The feed is a breeding method of a poultry, characterized in that the feeding of high DHA and low cholesterol poultry feed per feed per 100 to 120g per day per day for 1 500 number of laying hens for 30 days twice a day.