JP4017541B2 - How to sterilize poultry - Google Patents

Description

【００４５】
表１より、ヒノキチオール金属錯体水溶液は試験菌株に対してヒノキチオール水溶液と同程度の殺菌効果を示し、当該殺菌効果はそのヒノキチオール金属錯体の濃度が５０ｐｐｍ程度で充分に発現しうることが分かる。
【００４６】
実施例２ ヒノキチオール金属錯体水溶液の殺菌力試験２
本殺菌力試験においては、試験液として前記実施例１のヒノキチオールナトリウム錯体水溶液（ｐＨ１１．０）とヒノキチオール水溶液（ｐＨ４．６）とを用い、両者を比較した。試験方法は以下の通りである。
【００４７】
（試験方法）
普通ブイヨン培地で３７℃にて１８時間培養した後の試験菌株〔大腸菌：Escherichia coli (IFO 12529)または黄色ブドウ球菌〕を滅菌水により１００倍希釈した。その希釈液０．０５ｍＬを各試験液（５ｍＬ）に接種し、よく攪拌した。室温に静置し、試験液との所定の接触時間（１０分間もしくは３０分間）経過後、その０．１ｍＬを４．５ｍＬの生理食塩水にいれて攪拌し、すぐさまその生理食塩水中における生菌数を測定した。対照試験液として試験液の代わりに生理食塩水を用いた。生菌数の測定は衛生試験法・注解（１９９０）微生物試験法、（４）生菌数（ｐ１４３）に従った。対照試験液の生菌数（コロニー数）を１００として殺菌力を比較した。結果を表２に示す。
【００４８】
【表２】

【００４９】
結果より、本発明のヒノキチオール金属錯体水溶液は試験菌株に対して優れた殺菌効果を示すことが分かる。
【００５０】
実施例３ 病原細菌の付着したニワトリ肉に対するヒノキチオール金属錯体水溶液の接触処理試験
ヒノキチオールを５００ｐｐｍの濃度で含むヒノキチオール水溶液（ｐＨ４．６）を試験液▲１▼とし、製造例１で得られたヒノキチオールナトリウム錯体を５００ｐｐｍの濃度で含むヒノキチオール金属錯体水溶液（ｐＨ１１．０）を試験液▲２▼とし、それらを用いて病原細菌の付着したニワトリ肉を接触処理することにより、ヒノキチオール金属錯体水溶液の殺菌効果を評価した。なお、媒体としての水は滅菌水を用いた。試験方法は以下の通りである。
【００５１】
（試験方法）
ニワトリの処理工程中のニワトリ胸肉（冷却工程後の肉）２００ｇに対し以下に示す病原細菌の懸濁液１０ｍＬを数箇所に渡りランダムに接種し、２０〜３０分間に渡り室温で放置後、４℃の温度で１８時間冷凍保存した。
【００５２】
なお、使用した病原細菌および病原細菌懸濁液１ｍＬ当たりの生菌数は以下の通りである。細菌懸濁液には、０．５％塩化ナトリウム添加ニュートリエントブロス中で細菌を３７℃にて１８時間培養して得られたものを用いた。
Escherichia coli FMK1254 ：１×10⁶ ／ｍＬ培地
Salmonella typhimurium (ATCC 1985007) ：１×10⁶ ／ｍＬ培地
【００５３】
上記の病原細菌懸濁液を接種したニワトリ胸肉を４ピースごと３群に分け、Ａ、ＢおよびＣとした。Ａは１０℃で試験液▲１▼３００ｍＬに１５秒間浸漬した。Ｂは１０℃で試験液▲２▼３００ｍＬに同様に浸漬した。Ｃは、いずれの試験液にも浸漬せず、滅菌水に同様に浸漬した。
【００５４】
浸漬後、ニワトリ胸肉を、水きりを１分間行なった後、Butterfield's リン酸緩衝液２５０ｍＬの入った滅菌ナイロンバッグに入れ、当該緩衝液中に菌を懸濁させ、Ａ、ＢおよびＣ由来の細菌液をそれぞれ得た。当該細菌液をシャーレの寒天培地上に塗布し、３７℃にて２４時間培養した。培養後、コロニー数の測定を行い、各細菌液１ｍＬ当たりのコロニー数（平均値）を求めた。なお、寒天培地は慣用のものを用いた。結果を、図２および３に示す。
【００５５】
Ｃはいずれの試験液とも接触処理を行っておらず、従って、細菌接種後冷凍保存した後の細菌数を示す。結果より、本発明のヒノキチオール金属錯体水溶液にニワトリ胸肉を浸漬した場合（Ｂ）、ヒノキチオール水溶液の場合（Ａ）と同様、優れた殺菌効果が得られることが分かる。
【００５６】
【発明の効果】
本発明によれば、安全かつ簡便に、しかも持続的かつ効果的に食鳥肉の殺菌を行うことができる。
【図面の簡単な説明】
【図１】図１は、食鳥の処理工程の一般的な一例を示す工程図である。
【図２】図２は、Escherichia coliの付着したニワトリ肉に対するヒノキチオール金属錯体水溶液の接触処理試験の結果を示すグラフである。
【図３】図３は、Salmonella typhimuriumの付着したニワトリ肉に対するヒノキチオール金属錯体水溶液の接触処理試験の結果を示すグラフである。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a method for sterilizing poultry meat.
[0002]
[Prior art]
Every year, the incidence of food poisoning related to poultry is regularly reported in many countries. The main cause is microbial contamination. That is, it is contamination by pathogenic bacteria such as Salmonella, Staphylococcus aureus, Clostridium perfringens, Campylobacter, Serius, Shigella.
[0003]
In general, microbial management is difficult in poultry processing. Because it is convenient for the spread of microorganisms to process a large number of poultry birds at high speed, the carcass is left in a round during processing, it is built without damaging the intestine from a relatively small abdominal opening It is difficult to remove sucrose, it is difficult to remove microorganisms due to the presence of skin, and many holes are formed after depilation. This is because there are problems.
[0004]
Microbial contamination of poultry products occurs at any stage of poultry transport and processing, and a typical example of poultry processing is shown in Figure 1. Can also produce microorganisms (see, for example, Non-Patent Document 1). Microbial management in these treatment processes is generally performed by management of the temperature and pH of the treated water, maintenance of the working environment, temperature management during storage and transportation, etc. In the cooling process, high pressure spray or chlorine is used. Specifically, (1) a method of adding sodium hypochlorite to the cooling water used in the cooling step, (2) a method of spraying a mixed solution of sodium hypochlorite and organic acid before the cooling step, ( 3) A method of dipping or spraying in a mixed solution of a tertiary phosphate ester and an organic acid before the cooling step, and (4) a method of spraying sodium hypochlorite or a similar chlorine-based disinfectant after the cooling step. be able to.
[0005]
However, the method (1) is effective in sterilizing bacteria in water and effective in preventing cross-contamination. However, when chlorine comes into contact with poultry meat, it rapidly inactivates the chlorine. Bacteria attached to the surface (hereinafter sometimes referred to as adherent bacteria) is insufficient for sterilization, and poultry meat is shipped while retaining the bacteria. Although the method (2) has a high sterilizing effect, there is a danger of harmful chlorine gas generation, and there is a concern about adverse effects on human bodies and facilities. In addition, since the bactericidal agent is removed in the cooling step, the bactericidal effect cannot be expected in the steps after the cooling step. In the method (3), there are problems of environmental pollution by phosphorus and adverse effects on the taste of poultry meat. In addition, the method (4) has a high bactericidal effect, but from the toxicity of the bactericidal agent itself, it is necessary to remove the bactericidal agent from the poultry meat. Therefore, the sterilization effect cannot be expected in the processes after the sterilization process.
[0006]
[Non-Patent Document 1]
GC MEAD / Edition, Japan Food Bird Association / Director, Tsuneo Kadhira / Translation of “Processing of Meat Birds and Processing of Meat”, Kenshisha Co., Ltd., issued on March 15, 1996
[0007]
[Problems to be solved by the invention]
The conventional sterilization method of poultry meat is limited to sterilization in a specific process in the processing of poultry for the production of poultry meat, and all of them continuously exert the sterilization effect in the process after the cooling process. I can't. Therefore, while performing the sterilization process, contamination and growth of the bacteria are allowed again in the processes after the cooling process, and the product poultry meat may be insufficiently sterilized. Therefore, it is desired to develop a method for sterilizing poultry meat that can exert a sterilizing effect continuously and effectively especially in the steps after the cooling step. Moreover, since sterilization of poultry meat is normally performed on an industrial scale, it is preferable that the sterilization method is excellent in economic efficiency.
[0008]
It is an object of the present invention to provide a method for sterilizing such poultry meat, which can sterilize poultry meat continuously and effectively, and is excellent in economic efficiency. It aims to provide a method.
[0009]
[Means for Solving the Problems]
As a result of intensive studies to solve the above problems, the present inventors have found that contact treatment of an aqueous solution containing a metal complex of hinokitiol and / or a salt thereof with poultry meat is effective in solving the above problems. The headline and the present invention have been completed.
[0010]
That is, the present invention
[1] A method for sterilizing poultry meat, wherein when poultry is processed to produce poultry meat, the poultry meat is contacted with an aqueous solution containing a metal complex of hinokitiol and / or a salt thereof. ,
[2] The sterilization method according to the above [1], wherein contact treatment is performed in at least one treatment step of a poultry treatment comprising a plurality of treatment steps and / or between at least one continuous two treatment steps,
[3] The sterilization method according to the above [2], wherein the treatment step is selected from the group consisting of a hollowing step, a cooling step, and a packaging step,
[4] The sterilization method according to [3], wherein contact treatment is performed between the hollowing step and the cooling step.
[5] The sterilization method according to [3] or [4], wherein the contact process is performed in the cooling step and / or between the cooling step and the packaging step.
[6] The sterilization method according to any one of [1] to [5], wherein the concentration of the hinokitiol metal complex and / or salt thereof in the aqueous solution is 1 to 50000 ppm,
[7] The sterilization method according to any one of [1] to [6], wherein the treatment temperature is 0 to 70 ° C.
[8] The sterilization method according to any one of [1] to [7], wherein the contact treatment is performed by at least one selected from the group consisting of coating, spraying, rubbing, and dipping, and
[9] A method for producing poultry meat, which uses the sterilization method according to any one of [1] to [8] in the step of producing poultry meat by treating poultry.
About.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
In the method for sterilizing poultry meat according to the present invention, when poultry is processed to produce poultry meat, an aqueous solution containing a metal complex of hinokitiol and / or a salt thereof (hereinafter referred to as hinokitiol metal complex). One major feature is the contact treatment with an aqueous solution. Since this invention has this structure, it can sterilize poultry meat more sustainably and effectively than the conventional sterilization method, and is excellent in economical efficiency.
[0012]
That is, since the hinokitiol metal complex aqueous solution used in the present invention exerts an excellent effect on the sterilization of poultry meat, only the aqueous solution is brought into contact with the poultry meat (for example, the poultry meat is immersed in the aqueous solution). Can easily sterilize poultry meat. As described above, there are various processing problems different from those of other carnivores, and microbial management in poultry processing is generally difficult, but the hinokitiol metal complex aqueous solution exhibits an excellent bactericidal effect and will be described later. As described above, since the contact treatment using the aqueous solution can be performed very simply even over the entire poultry meat, the poultry meat can be sterilized efficiently. Hinokitiol contained in such an aqueous solution is a naturally-occurring component and is permitted as a food additive. The amount of addition thereof is not limited by the Food Sanitation Law and is excellent in safety. The hinokitiol metal complex or salt thereof used in the present invention is preferably non-toxic to the human body because it is used for sterilization of poultry meat that is a food. Therefore, the poultry meat after the contact treatment with the aqueous hinokitiol metal complex solution is non-toxic or extremely low toxicity, and the metal complex of hinokitiol and / or its salt or the hinokitiol metal complex aqueous solution is removed from the poultry meat after the contact treatment. It is not necessary, and an excellent sterilizing effect is continuously expressed in the steps after the sterilization step. Further, the contact treatment of the hinokitiol metal complex aqueous solution with the poultry meat does not change the color or taste of the poultry meat. In addition, there is no influence on the human body, equipment, environment, etc., which has been a concern in conventional methods.
[0013]
Hinokitiol generally has low solubility in water, and it is difficult to obtain an aqueous solution having a uniform concentration, and the storage stability of the aqueous solution is also low. However, the metal complex of hinokitiol or a salt thereof used in the present invention is water-soluble. It has been clarified that the present invention is excellent in heat resistance and light resistance, and is excellent in thermal stability in the present invention. Therefore, in the present invention, the hinokitiol metal complex aqueous solution can be prepared very easily at a uniform concentration, and from the viewpoint of obtaining a desired bactericidal effect, the concentration of hinokitiol in the aqueous solution is appropriately increased. You can also. Furthermore, it is also possible to store stably for a long time while maintaining the bactericidal effect. As described above, since the degree of freedom in handling the aqueous hinokitiol metal complex solution of the present invention is very high, the sterilization method of the present invention can bring about an excellent economic effect particularly in the production of poultry meat on an industrial scale.
[0014]
A method for preparing a metal complex of hinokitiol and / or a salt thereof contained in the aqueous hinokitiol metal complex solution used in the present invention is not particularly limited. For example, hinokitiol and / or a salt thereof is converted into a suitable organic solvent such as methanol or ethanol. It can be obtained by dissolving in a solvent, adding a metal compound and stirring, filtering the deposited precipitate, and drying the resulting filtrate. In addition, by performing such an operation in the presence of an organic acid such as acetic acid or citric acid or an amino acid (especially an acidic amino acid such as aspartic acid) or the like, hinokitiol and / or a salt thereof, a metal compound, and the organic acid or amino acid. A metal complex of hinokitiol and / or a salt thereof can be prepared.
[0015]
The hinokitiol may be a natural product extracted from an essential oil derived from a raw plant such as Taiwan Hinoki, Hiba, Asunaro, or a chemically synthesized product. Commercially available hinokitiol may be used as it is. As a raw material plant, hiba is preferable from the viewpoint of availability. Extraction and purification of hinokitiol from the raw material plant can be performed by a known method. As the essential oil, Hiba oil is preferable. Chemically synthesized products can also be obtained by known methods. Examples of commercially available products include those sold by Takasago Fragrance Co., Ltd. and Osaka Organic Chemical Industry Co., Ltd.
[0016]
The hinokitiol salt is not particularly limited, and examples thereof include inorganic salts such as sodium salts, potassium salts, magnesium salts, calcium salts, copper salts, and metal salts represented by zinc salts, ethanolamine salts, diethanolamine salts, and propanols. Examples thereof include organic salts such as amine salt, piperazine salt, piperidine salt, glycine salt, aspartate, arginine salt, lysine salt and histidine salt. In view of being substantially non-toxic to the human body, sodium salts, potassium salts, calcium salts, zinc salts, and amino acid salts such as glycine salts, aspartates and arginines are preferably used. In the present invention, these hinokitiols and salts thereof may be used alone or in admixture of two or more.
[0017]
In addition, although the term hinokitiol is generally used as a common name for β-tuaprycin, which is one of the isomers of Thujaplicin, the aqueous hinokitiol metal complex in the present invention includes a metal complex of β-tuapricin and / or In addition to the salts thereof, other isomers of α-tyaprisin and γ-tjaprisin metal complexes and / or salts thereof may be included.
[0018]
Although it does not specifically limit as said metal compound, For example, magnesium chloride, zinc chloride, calcium chloride, sodium chloride, potassium chloride etc. are mentioned. What is specifically exemplified here is preferably used in that it is substantially non-toxic to the human body and is easily available. These metal compounds may be used alone or in admixture of two or more.
[0019]
The salt of the hinokitiol metal complex used in the hinokitiol metal complex aqueous solution of the present invention is not particularly limited. For example, inorganic acid salts such as hydrochloric acid, sulfuric acid, phosphoric acid; formic acid, acetic acid, propionic acid, citric acid, lactic acid, Examples include organic acid salts such as ascorbic acid, malic acid, salicylic acid, aspartic acid, glutamic acid, and gluconic acid. Organic acid salts such as acetate, propionate and citrate, and amino acid salts such as aspartate are preferably used because they are substantially non-toxic to the human body and are easily available. These salts may be used alone or in admixture of two or more. These salts can be easily obtained, for example, by using a hinokitiol salt as a metal complex, or mixing a hinokitiol metal complex and an arbitrary acid in water at an arbitrary ratio.
[0020]
Water as a medium of the hinokitiol metal complex aqueous solution is not particularly limited, and for example, tap water, distilled water, ion-exchanged water and the like can be used. The concentration of the metal complex of hinokitiol and / or its salt in the aqueous solution varies depending on the degree of processing of the poultry meat to which the sterilization method for poultry meat of the present invention is applied and the fresh state, and the desired effect of the present invention is obtained. Can be adjusted as appropriate. In general, the concentration is preferably 1 to 50000 ppm, more preferably 10 to 5000 ppm, and still more preferably 25 to 1000 ppm. In the present specification, “ppm” indicates the concentration of the solute in the solution expressed in mg of the solute contained per liter of the solution.
[0021]
The hinokitiol metal complex aqueous solution can be prepared by mixing and dissolving a hinokitiol metal complex and / or a salt thereof with water so as to obtain a desired concentration. The water solubility is particularly excellent in a hinokitiol sodium complex or a salt thereof. At that time, other components may be added if desired. For example, from the viewpoint of enhancing solubility, for example, a surfactant that is safe for the human body, an extract from a plant, or the like may be added. In addition, other substances known to have the same bactericidal action as that of Tsuyaprisin (for example, β-drabrin, 4-acetyltropolone, γ-Tyapricin, α-Tyapricin, etc.) may be optionally added.
[0022]
The poultry birds to which the method for sterilizing poultry meat according to the present invention can be applied are not particularly limited, and examples thereof include chickens, ducks, turkeys, quails, ducks, herons, ostriches, and emus. The method for sterilizing poultry meat of the present invention is effective for sterilization of, for example, Salmonella, Staphylococcus aureus, Escherichia coli (for example, O157 E. coli), Listeria monocytogenes, Campylobacter and the like that can be detected in poultry meat. Particularly effective for sterilization of Listeria monocytogenes and O157 E. coli.
[0023]
In the present specification, “contacting the poultry meat with the hinokitiol metal complex aqueous solution” means, for example, suitably applying, spraying, or rubbing the hinokitiol metal complex aqueous solution to the poultry meat, or It means that the chicken meat is immersed in the hinokitiol metal complex aqueous solution, but any operation that can bring the hinokitiol metal complex aqueous solution into contact with the poultry meat is not particularly limited. In addition, the aspect of each said contact may be single, or may combine several aspects. That is, the contact treatment is preferably performed by at least one selected from the group consisting of coating, spraying, rubbing, and dipping. In the contact treatment, the hinokitiol metal complex aqueous solution is preferably brought into contact with the entire poultry meat. In addition, for spraying, for example, an aspect in which an aqueous hinokitiol metal complex solution is showered on poultry meat, an aspect in which poultry meat is passed under the shower of the hinokitiol metal complex aqueous solution, and an aqueous solution of hinokitiol metal complex is sprayed on the poultry meat And a mode in which the poultry meat is maintained for a certain period of time in a certain area filled with an aqueous hinokitiol metal complex in the form of a mist, or is passed through the area. In addition, the soaking includes, for example, an aspect in which poultry meat is maintained or passed through an aqueous hinokitiol metal complex solution.
[0024]
Although it does not restrict | limit especially as pH of the hinokitiol metal complex aqueous solution at the time of using in a contact process, From a viewpoint of obtaining the outstanding bactericidal effect of poultry meat, it is preferable that it is a neutral region-an alkaline region. Moreover, as processing temperature, from the same viewpoint, Preferably it is 0-70 degreeC, More preferably, it is 0-60 degreeC, More preferably, it is 0-55 degreeC.
[0025]
In the method for sterilizing poultry meat according to the present invention, the contact treatment is performed when poultry is processed to produce poultry meat. Preferably, the contact treatment is performed in at least one treatment step of the poultry treatment comprising a plurality of treatment steps (Aspect A) and / or between at least one continuous two treatment steps (Aspect B).
[0026]
In a preferred embodiment of the present invention, the “treatment process” is selected from the group consisting of a hollow process, a cooling process, and a packaging process, for example. In addition, each said process will not be specifically limited if it can be understood in the field | area which has the technical relation with the manufacture field of the poultry meat, and the said field | area. For example, the hollowing out process is a built-in removal, the cooling process is immersing poultry meat in cooling water or being exposed to cold to cool the poultry meat, the packaging process is the carcass in the breast, It is a process of disassembling and packaging each part such as thigh meat.
[0027]
In the aspect A, for example, the contact treatment can be performed as follows. For example, in the hollowing out process and the packaging process, the contact treatment can be performed by spraying the hinokitiol metal complex aqueous solution on the poultry meat. On the other hand, in the cooling step, the cooling water used in the step can be a hinokitiol metal complex aqueous solution, and contact treatment can be performed by immersing poultry meat.
[0028]
Among these, it is more preferable to perform the contact treatment during the cooling step. When performing at the time of a cooling process, for example, as above-mentioned, when immersing poultry meat in cooling water, it can carry out easily by making the said cooling water into the hinokitiol metal complex aqueous solution used for this invention. In the case of a cooling step that is exposed to cold air, it is easy to appropriately perform at least one selected from the group consisting of application, rubbing, and spraying of a hinokitiol metal complex aqueous solution to poultry meat under such circumstances. It can be carried out. In addition, when performing a contact process by immersion, as contact time of hinokitiol metal complex aqueous solution and poultry meat, Preferably it is 5 to 10 minutes, More preferably, it is 5 to 30 minutes. In addition, when performing contact treatment by spraying, for example, when poultry meat is passed under a shower of hinokitiol metal complex aqueous solution, or in certain areas where poultry meat is filled with hinokitiol metal complex aqueous solution in a mist form When maintaining the time or passing through the area, the contact time between the hinokitiol metal complex aqueous solution and the poultry meat is preferably 5 to 10 minutes, more preferably 5 to 30 minutes.
[0029]
In the aspect B, for example, the contact treatment can be performed as follows. For example, it is preferable to perform the contact treatment between the hollowing process and the cooling process or between the cooling process and the packaging process as follows.
[0030]
When the contact treatment is performed between the hollowing step and the cooling step, for example, the contact treatment is preferably performed by spraying or dipping, and the contact treatment is more preferably performed by spraying. In this case, the preferred contact time between the hinokitiol metal complex aqueous solution and the poultry meat is the same as the above range.
[0031]
When performing a contact process between a cooling process and a packaging process, it is suitable to perform a contact process by immersion, for example. Specifically, the following aspects are exemplified.
[0032]
When a cooling process is performed using cooling water, a water film adheres to the surface of the poultry meat, and since a large amount of water is retained in the abdominal cavity where the internal organs are removed, for example, The pre-draining is performed by applying vibration or rotation to the poultry meat for several tens of seconds by an arbitrary method. This is preferable because it can prevent dilution of the aqueous hinokitiol metal complex solution used in the subsequent contact treatment.
[0033]
The contact treatment is performed by placing the hinokitiol metal complex aqueous solution in a container having a desired size according to the amount of the poultry meat to be sterilized and immersing the pre-drained poultry meat in the container. For example, it is preferably immersed in 3 L of a hinokitiol metal complex aqueous solution (hinokitiol metal complex concentration: 125 ppm) at 0 ° C. per 1 kg of poultry meat for 5 to 10 minutes, more preferably 5 to 30 minutes. The container is preferably provided with a stirrer from the viewpoint of promoting the impregnation of poultry meat with the hinokitiol metal complex aqueous solution.
[0034]
In addition, after the contact treatment, as a post draining, the poultry meat is drained by the same method as the pre-draining to recover the excess hinokitiol metal complex aqueous solution, and the recovered hinokitiol metal complex aqueous solution is again used in the contact treatment. It is preferable to use from the viewpoint of economy.
[0035]
After performing the contact treatment as described above, a packaging process is then performed.
[0036]
As described above, in the method for sterilizing poultry meat according to the present invention, the contact treatment is performed at least one time point selected from the group consisting of the hollowing process and the cooling process, the cooling process, and the cooling process and the packaging process. It is particularly preferable to perform the above from the viewpoint of obtaining the desired effect of the present invention.
[0037]
Moreover, as one aspect of the present invention, there is provided a method for producing poultry meat that uses the method for sterilizing poultry meat according to the present invention in a process for producing poultry meat by treating poultry. According to such a method for producing poultry meat, it is possible to efficiently produce highly safe poultry meat that has been sterilized to a higher degree than before.
[0038]
The safety of hinokitiol metal complexes and salts thereof used in the present invention is generally high, and according to the present invention, poultry meat can be safely sterilized. Moreover, the sterilization effect of poultry meat can also be indirectly increased by spraying, for example, an aqueous hinokitiol metal complex solution on equipment and work environment used for processing poultry.
[0039]
【Example】
EXAMPLES Hereinafter, although an Example demonstrates this invention further in detail, this invention is not limited only to the said Example.
[0040]
Production Example 1
In a state where 121 g (0.7369 mol) of hinokitiol was dissolved in ethanol and maintained at 40 ° C. or lower, 110 g (0.7 mol) of 25% alkali metal (Na or K) aqueous solution was slowly added dropwise with stirring. The mixture was further stirred for 2 hours, and the precipitated solid was collected by suction filtration. The obtained solid was washed with water and dried to obtain a hinokitiol sodium complex (hinokitiol-Na) and a hinokitiol potassium complex (hinokitiol-K).
[0041]
Production Example 2
In a state where 44.4 g (0.2 mol) of hinokitiol sodium salt was dissolved in ethanol and maintained at 40 ° C. or lower, 0.1 M MCl ₂ An aqueous solution (M is Zn, Mg, or Ca) was slowly added with stirring. The mixture was further stirred for 3 hours, and the precipitated solid was collected by suction filtration. The obtained solid was washed with water and dried to obtain hinokitiol zinc complex sodium salt (hinokitiol-Zn), hinokitiol magnesium complex sodium salt (hinokitiol-Mg), and hinokitiol calcium complex sodium salt (hinokitiol-Ca).
[0042]
Example 1 Bactericidal power test 1 of aqueous hinokitiol metal complex solution
The bactericidal power of the hinokitiol metal complex aqueous solution was obtained by dissolving the hinokitiol metal complex aqueous solutions I to V obtained by dissolving the hinokitiol metal complex obtained in Production Examples 1 and 2 in sterilized water at a concentration of 500 ppm. The aqueous solution of hinokitiol contained in the concentration was used as a comparative test solution, and evaluation was made by determining the minimum inhibitory concentration (MIC) by the agar plate dilution method. The test method is as follows.
[0043]
(Test method)
Each test solution was added to a normal agar medium liquid and solidified at room temperature to prepare an agar medium. The hinokitiol metal complex concentrations in the agar medium were 5 ppm, 12.5 ppm, 25 ppm, 50 ppm, 100 ppm, 200 ppm and 400 ppm. Similarly, a comparative test solution was prepared in which hinokitiol had this concentration. Each prepared agar medium was inoculated with a platinum loop of the test strain [Salmonella typhimurium (IFO 13245)] obtained by culturing at 37 ° C. for 18 hours in a normal bouillon medium, and cultured at 37 ° C. for 3 days. Then, the growth state of the fungus was observed. The concentration of the hinokitiol metal complex when no colony generation is observed is defined as MIC (hinokitiol concentration for the comparative test solution). The results are shown in Table 1. In the table, + means colony confirmation and-means no colony is recognized.
[0044]
[Table 1]

[0045]
From Table 1, it can be seen that the hinokitiol metal complex aqueous solution exhibits the same bactericidal effect as that of the hinokitiol aqueous solution with respect to the test strain, and the bactericidal effect can be sufficiently expressed when the concentration of the hinokitiol metal complex is about 50 ppm.
[0046]
Example 2 Bactericidal power test 2 of aqueous hinokitiol metal complex solution
In this bactericidal activity test, the hinokitiol sodium complex aqueous solution (pH 11.0) and the hinokitiol aqueous solution (pH 4.6) of Example 1 were used as test solutions, and the two were compared. The test method is as follows.
[0047]
(Test method)
A test strain (E. coli: Escherichia coli (IFO 12529) or Staphylococcus aureus) after culturing in a normal broth medium at 37 ° C. for 18 hours was diluted 100 times with sterilized water. 0.05 mL of the diluted solution was inoculated into each test solution (5 mL) and stirred well. Allow to stand at room temperature, and after the predetermined contact time (10 minutes or 30 minutes) with the test solution, 0.1 mL of the solution is stirred in 4.5 mL of physiological saline, and immediately viable bacteria in the physiological saline Number was measured. As a control test solution, physiological saline was used instead of the test solution. The number of viable bacteria was measured according to the hygiene test method / comment (1990) microorganism test method and (4) viable cell count (p143). The bactericidal power was compared with the number of viable bacteria (colony number) in the control test solution as 100. The results are shown in Table 2.
[0048]
[Table 2]

[0049]
The results show that the hinokitiol metal complex aqueous solution of the present invention exhibits an excellent bactericidal effect against the test strain.
[0050]
Example 3 Contact treatment test of hinokitiol metal complex aqueous solution on chicken meat with pathogenic bacteria attached
An aqueous hinokitiol solution (pH 4.6) containing hinokitiol at a concentration of 500 ppm was used as a test solution (1), and an aqueous hinokitiol metal complex solution (pH 11.0) containing the hinokitiol sodium complex obtained in Production Example 1 at a concentration of 500 ppm was used as a test solution. The sterilization effect of the hinokitiol metal complex aqueous solution was evaluated by treating the chicken meat to which the pathogenic bacteria were attached using (2). Note that sterilized water was used as the medium. The test method is as follows.
[0051]
(Test method)
10 g of a suspension of pathogenic bacteria shown below is randomly inoculated into 200 g of chicken breast (meat after cooling) during the chicken treatment process, and left at room temperature for 20 to 30 minutes. It was stored frozen at a temperature of 4 ° C. for 18 hours.
[0052]
In addition, the number of viable bacteria per 1 mL of the used pathogenic bacteria and the pathogenic bacteria suspension is as follows. The bacterial suspension used was obtained by culturing bacteria at 37 ° C. for 18 hours in a nutrient broth supplemented with 0.5% sodium chloride.
Escherichia coli FMK1254: 1 × 10 ⁶ / ML medium
Salmonella typhimurium (ATCC 1985007): 1 × 10 ⁶ / ML medium
[0053]
Chicken breasts inoculated with the above pathogenic bacterial suspension were divided into 3 groups of 4 pieces each, and designated as A, B and C. A was immersed in 300 mL of the test solution {circle around (1)} at 10 ° C. for 15 seconds. B was similarly immersed in 300 mL of the test solution (2) at 10 ° C. C was not immersed in any of the test solutions, but was similarly immersed in sterilized water.
[0054]
After soaking, chicken breast is drained for 1 minute, placed in a sterile nylon bag containing 250 mL of Butterfield's phosphate buffer, suspended in the buffer, and bacteria derived from A, B and C Each liquid was obtained. The bacterial solution was applied on a petri dish agar medium and cultured at 37 ° C. for 24 hours. After culturing, the number of colonies was measured, and the number of colonies (average value) per 1 mL of each bacterial solution was determined. A conventional agar medium was used. The results are shown in FIGS.
[0055]
C does not perform any contact treatment with any of the test solutions, and therefore indicates the number of bacteria after freezing storage after inoculation with bacteria. From the results, it can be seen that an excellent bactericidal effect can be obtained when chicken breast is immersed in the hinokitiol metal complex aqueous solution of the present invention (B) and hinokitiol aqueous solution (A).
[0056]
【The invention's effect】
According to the present invention, poultry meat can be sterilized safely and simply, continuously and effectively.
[Brief description of the drawings]
FIG. 1 is a process diagram showing a general example of a processing process for poultry.
FIG. 2 is a graph showing the results of a contact treatment test of an aqueous hinokitiol metal complex solution on chicken meat attached with Escherichia coli.
FIG. 3 is a graph showing results of a contact treatment test of an aqueous hinokitiol metal complex solution on chicken meat to which Salmonella typhimurium is attached.

Claims (3)

A method for sterilizing poultry meat, wherein when poultry is processed to produce poultry meat, the poultry meat is subjected to contact treatment with an aqueous solution containing a metal complex of hinokitiol and / or a salt thereof. A method for sterilizing poultry meat, comprising performing contact treatment using the aqueous solution as the cooling water in the cooling process of the poultry birds with cooling water . Sterilization method of claim 1 Symbol mounting concentration of the metal complex and / or salt thereof of hinokitiol in the aqueous solution is 1～50000Ppm. In the process of producing poultry meat processing a poultry, used sterilization method according to claim 1 or 2, wherein the manufacturing method of poultry meat.

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