JP2005314266A - Oral composition - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To develop and provide an oral composition which exhibits excellent effects of whitening teeth, preventing carious teeth by promoting recalcification of decalcified enamel, and preventing periodontal diseases. <P>SOLUTION: The oral composition comprises at least one of royal jelly, extracts of royal jelly and extraction residues of royal jelly and, preferably incorporated therewith, a calcium compound such as hydroxyapatite or the like. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an oral composition for tooth whitening, prevention of dental caries by promoting remineralization, and prevention of periodontal disease.

Many people brush their teeth every day to prevent various diseases such as oral cleaning, tooth whitening, bad breath prevention, dental caries prevention, and alveolar pus leakage.
For tooth whitening, various components such as fluorine compounds and hydroxyapatite are blended in the dentifrice, but it is not sufficient.

Caries are caries that start from caries because caries bacteria such as Streptococcus mutans adhere to the tooth surface and form plaque, and the acid produced by the caries fungus metabolizing food in the plaque, The tooth enamel is decalcified, and an initial caries state is obtained. Saliva has the function of remineralizing the demineralized part by the action of calcium and phosphorus in the saliva and returning the teeth to the original state.
In order to promote remineralization, a dentifrice containing one kind of fluoride and calcium phosphate and hydroxyapatite having a crystal structure similar to that of an inorganic tooth component has been manufactured.

  However, the remineralization of the demineralized part is not sufficient only by using saliva, fluoride, or hydroxyapatite dentifrice. In order to promote remineralization, chewing gum containing xylitol and calcium phosphate, non-crystalline calcium phosphate, phosphorylated oligosaccharide calcium, etc. is manufactured, but in chewing gum containing xylitol and various calcium phosphates, etc. Remineralization of the demineralized part is not always sufficient.

Periodontal disease has been shown to develop and progress due to periodontal pathogens such as Borphyromonas singivalis and Actinomyces viscousus. For this reason, compositions for oral cavity such as dentifrices containing fungicides such as cetylpyridinium chloride, isopropylmethylphenol and triclosan have been manufactured.
In addition, the antibacterial action of Vitamin K against Borphyromonas gingivalis is disclosed in JP-A-9-143042, and the prevention and treatment of periodontal disease by using plant extracts such as hyacinth and marigold as components derived from natural products JP-A-11-243910 discloses a periodontal disease preventive effect by combining anti-soluble plant extracts such as highly soluble calcium and oil-soluble licorice extract, soybean isoflavone extract, tea polyphenol extract. Is disclosed.

By the way, substances collected from bees include honey and propolis in addition to royal jelly. Honey is a substance in which bees gather nectar from flowers, bring them back to the nest, decompose them with enzymes contained in the saliva of honeybees, concentrate them with feathers, and prevent malnutrition, dermatitis, diabetes, stomatitis, etc. It is known to contain effective vitamins and minerals, and is used in various foods as a nutrient-rich substance.
Propolis is one of the materials that make up the beehive of honeybees. Bees is a substance in which bees are mixed with pollen, sap collected from tree buds and bark with beeswax and saliva, and contains high concentrations of flavonoids. Various products are marketed as having effects on antibacterial, analgesic, anti-inflammatory, etc., high blood pressure, arterial effect, nourishing tonic, etc. As a dentifrice containing a propolis, JP-A-8-325129 JP-A-11-279038 discloses a dentifrice containing at least one selected from propolis extract, hydrous silicic acid and silicic anhydride.

  Royal jelly is a substance collected by bees like honey and propolis, but it is completely different from honey and propolis due to the process and components of production, and very young female bees eat pollen and nectar. It is a sour milky cream-like substance that is biosynthesized in the salivary glands and comes out of the hypopharyngeal line in the bee head and the exocrine line of the jaw, and is known as the life-long food of the queen bee.

Components include proteins such as albumin and globulin, various amino acids such as proline, lysine, glutamic acid, serine, glycine, histidine, aspartic acid, arginine, alanine and leucine, various carbohydrates such as glucose, fructose and sucrose, and other lipids. Contains many ingredients such as minerals, vitamins, beautiful skin, immune enhancement, active oxygen scavenging, autonomic nerve and hormone balance adjustment, anti-aging, obesity elimination, hypertension prevention, cancer prevention, fatigue recovery action It is known for its nourishing action and is sold in various forms as cosmetics and health foods.
Further, the use of royal jelly as a deodorant component for oral cavity is disclosed in JP-A-2003-95905 as an oral deodorant in which a natural product-derived deodorant component and an alkaline compound are separately blended.

In general, when a drink or the like blended with royal jelly is produced, extraction with water, alcohol or the like is performed, and this extract can be used as the royal jelly extract used in the present application. In addition, the remaining protein is separated as a precipitate, and the protein is not actively used effectively.
Royal jelly extract residue used in the present application includes various organic solvents such as glycerin, glycol, acetone and ether, oils and fats such as coconut oil, rapeseed oil, orange oil and soybean oil, squalene, squalane, etc. Extraction residue with an alkaline solution such as mineral oil, caustic soda or ammonia, or an acid solution such as hydrochloric acid or citric acid can be used. Furthermore, since the extract residue is a protein, a protein isolated by column chromatography or the like can also be used.

  The above-mentioned royal jelly, royal jelly extract, royal jelly extract residue is dissolved or dispersed in an appropriate liquid, or mixed with an appropriate cream, ointment, powder carrier, etc. or adsorbed thereto. It is also possible to add a dispersing agent, a suspending agent, a spreading agent, a penetrating agent, a wetting agent, a stabilizing agent, etc., to prepare an emulsion, a wettable powder, a powder or a tablet for use.

Japanese Patent Laid-Open No. 9-143042 Japanese Patent Laid-Open No. 10-306019 JP-A-11-243910 JP-A-8-325129 JP-A-11-279038 JP 2003-95905 A

  An object of the present invention is to provide an oral composition excellent in whitening of teeth, prevention of dental caries by promoting remineralization of decalcified enamel, and prevention of periodontal disease.

  The present invention uses royal jelly, royal jelly extract, or royal jelly extract residue to promote whitening of teeth, remineralization of teeth, and has an excellent antibacterial action against periodontal disease bacteria. It has been found that the combined use of calcium and a calcium compound further promotes whitening and remineralization of the teeth, and further enhances the antibacterial action against periodontal disease bacteria, thereby achieving the present invention.

  Calcium compounds used in oral compositions are powders obtained by crushing natural hard tissues such as bones and eggshell shells of fish, amphibians, reptiles, birds or mammals that live in seawater or fresh water, calcium chloride, calcium carbonate , Calcium lactate, calcium gluconate, hydroxyapatite, tricalcium phosphate, calcium citrate, calcium hydrogen phosphate, calcium hydrogen phosphate dihydrate, calcium oxide and the like. In particular, hydroxyapatite which is a kind of calcium phosphate is preferable.

Hydroxyapatite crystals constituting the enamel on the tooth surface are composed of calcium phosphate and are considered to be effective as a source of calcium and phosphoric acid.
In addition to calcium compounds synthesized in a normal manner, the natural hard tissue includes those containing abundant calcium compounds in the present invention. Examples include edible fish bones, pork bones, and beef bones.

The above-mentioned royal jelly, royal jelly extract, further royal jelly, oral composition using a combination of royal jelly extract and calcium compound, the knowledge that remineralization is remarkably accelerated, and the royal jelly, royal jelly extract residue, The oral composition which used the royal jelly extract residue and the calcium compound in combination was found to have a very excellent antibacterial property against periodontal disease bacteria.
Examples of the oral composition of the present invention include toothpastes such as toothpaste, toothpaste, and liquid toothpaste, mouthwashes, lozenges, lozenges, chewing gum, candy, and gummi jelly.

The amount added to the oral composition is difficult to determine in general depending on the form of the composition, but the amount added to the royal jelly, royal jelly extract, royal jelly extract residue, remineralization promoting effect, periodontal 0.001 to 10.0% by weight is preferable, and 0.01 to 5.0% by weight is more preferable from the viewpoint of the disease-removing effect and taste. The addition amount of calcium compound and hydroxyapatite is preferably 0.001 to 50.0% by weight, more preferably 0.01 to 30.0% by weight from the remineralization accelerating effect, periodontal disease bacteria removing effect, production, and feeling of use. Is preferred.
Of course, royal jelly, royal jelly extract, royal jelly extract residue alone, or two or more can be combined, and calcium compounds can be combined not only one but also two or more. Is possible.

  In the present invention, in the production of royal jelly, royal jelly extract, royal jelly extract residue, and oral composition to which a calcium compound has been added, they may be mixed in advance and added separately, that is, Royal jelly, royal jelly extract, royal jelly extract residue, and calcium compound may be added individually.

  The oral composition of the present invention contains, in addition to the aforementioned components, additives, wetting agents, foaming agents, fragrances, sweeteners, preservatives and various active ingredients that are usually used in oral composition materials. Can do. Specific examples of these components are shown below.

Abrasive: calcium carbonate, calcium hydrogen phosphate, calcium pyrophosphate, silica, aluminum silicate, aluminum hydroxide, alumina, zeolite, titanium oxide, zirconium silicate and the like.
Wetting agent: glycerin, propylene glycol, polyethylene glycol, sorbitol, xylitol, etc.
Foaming agent: sodium lauryl sulfate, sodium N-lauroyl sarcosine, nonionic surfactant and the like.
Thickener: hydroxyethylcellulose, sodium carboxymethylcellulose, carrageenan, carboxyvinyl polymer, chitansan gum, gelatin, pullulan, sodium alginate and the like.
Preservatives: paraoxybenzoic acid ester, alkyldiaminoethylglycine hydrochloride, methylparaben, ethylparaben, sodium benzoate and the like.
Perfume: menthol, spearmint oil, lemon oil, eucalyptus oil, etc.
Sweetening agents: sodium saccharin, stevia extract, aspartame, etc.
Other medicinal ingredients: allantoin, tocopherol acetate, isopropylphenol, β-glycyrrhetinic acid, triclosan, chlorhexidine, dextranase, chlorophyll, flavonoid, tranexamic acid, hinokitiol and the like.

In addition, the compounding quantity of these arbitrary components is used suitably in the range accept | permitted pharmacologically, without preventing the effect of this invention.
Examples and test examples of the present invention will be described below, but the following examples describe examples used for remineralization tests, periodontal disease bacteria eradication tests, and whiteness tests. The scope of the present invention is not limited thereby.

  The composition for oral cavity of the present invention is an oral composition comprising a royal jelly, a royal jelly extract, a royal jelly extract residue, a royal jelly, a royal jelly extract, a royal jelly extract residue, a calcium compound, and hydroxyapatite as active ingredients. , Effective for whitening of teeth, remineralization of demineralized tooth enamel, effectively suppressing caries, and has excellent antibacterial properties against periodontal disease bacteria .

  Hereinafter, the present invention will be described in detail with reference to examples.

  The royal jelly extract was obtained by drying a liquid extracted with 30% ethanol, and the residue was used for the royal jelly extract residue.

[Recalcification promotion test]
In the remineralization acceleration test, the “control surface” in the figure is a part for comparing the degree to which the “oral composition” in Examples and Comparative Examples has a remineralization effect, The state of “artificial initial caries” is maintained. Half of the artificial initial caries (3.5 × 3.0 mm window) region.

The “processing surface” in the figure is a portion where the specimens of the example and the comparative example are operated as follows.
(1) For the preparation of test substances, dentifrices, liquid dentifrices, and mouthwashes were prepared using suspension solutions with artificial saliva as test solutions, and troches and candy were suspended and dissolved in artificial saliva after fine pulverization. A chewing gum was used as a test solution, and after chewing gum, a water-soluble component was extracted from a test substance and made into a suspension solution with artificial saliva was used as a test solution.
(2) In the remineralization promotion test, the artificial initial caries test specimen was immersed in each test solution for 24 hours.

[Recalcification promotion test method]
In order to confirm the effect of promoting remineralization, an artificial initial caries test sample prepared in advance was used.
Preparation of the artificial initial caries test sample is performed by removing the dirt and deposits on the enamel surface using the crown of a human extracted tooth that has not undergone dental preservation and prosthesis treatment, and then testing the enamel surface. Create a 3.5 x 3.0 mm window with the Nail Enamel as the target site, and 0.1 M lactate buffer (pH 4.5, 3.0 mm CaCl ₂ , 1.8 mm KH ₂ PO ₄ , 0.5% CMC) Was immersed for 7 days at 37 ° C. to prepare an artificial initial caries. For control of the test, a half of the crown top portion side of the 3.5 × 3.0 mm window was further masked with Nail Enamel, and used as a comparison target site (control).

  The test substance was prepared by using a dentifrice, liquid dentifrice, and mouthwash in suspension solution with artificial saliva as a test solution, and troche and candy were suspended and dissolved in artificial saliva after fine grinding. A chewing gum was used as a test solution, and after chewing gum, a water-soluble component was extracted from a test substance and made into a suspension solution with artificial saliva was used as a test solution.

  In the remineralization acceleration test, the artificial initial caries test specimen prepared above was immersed in each test solution for 24 hours, and then the specimen was about 500 μm thick so that it was parallel to the tooth axis with a microcutter. After cutting, this piece was polished using a kneading stone and a natural whetstone so as to obtain a parallel thin piece having a thickness of about 100 μm under water injection. After polishing, contact microradiogram (CMR) imaging was performed to confirm the remineralization effect of the teeth (see FIGS. 1 and 2), and the effect of the remineralization of the artificial initial caries site using a computer Analysis.

  Computer image analysis was performed using the equation of Angmer et al. (B. Angmer, D. Carlstrom and JE. Glas: Studies on Ultrastructure of Dental Enemel IV: The Mineralization of normal Human Enamel, J. Ultrastructure. Res. 8, 12-23. , 1963) to calculate the amount of minerals remineralized, and the method of Damato et al. (FA Damato, R. Stang and KW Stephen: Effect of Fluoride Concentration on Reminerelization of Carious Enamel Res, 24, 174-180, 1990), the amount of mineral loss ΔZ (% volume mineral · μm) between the control surface and the treated surface of each section was calculated. In addition, the remineralization rate was computed by the following formula | equation.

  Table 9 shows the results of confirming the effect of promoting remineralization of the oral composition by the remineralization promotion test method described above.

[Composition for periodontal disease sterilization test and whiteness test]
In order to perform periodontal disease bacteria elimination test and whiteness test, royal jelly, royal jelly extract, royal jelly extract residue was blended with glycerin, and the compositions of Examples 45-52 were combined with royal jelly, royal jelly extract residue and The compositions of Examples 53 to 61 were prepared by blending tricalcium phosphate, calcium citrate, calcium lactate, and hydroxyapatite with glycerin (Tables 10 and 11).

  Moreover, the composition which mix | blended only glycerol and purified water was created as a comparative example of Examples 45-52, and it was set as the comparative example 10. Further, as Comparative Examples of Examples 53 to 61, compositions containing no royal jelly and royal jelly extract residue were prepared and used as Comparative Examples 11 to 19. Table 12 shows the eradication rate of the periodontal disease bacteria.

[Periodical bacteria elimination test]
For the purpose of investigating the sterilization effect of the oral composition of the present invention against periodontal disease bacteria, the following test was conducted using Gindivarius bacteria, which are said to have the highest pathogenicity among periodontal disease bacteria.
C. gingivalis was cultured, and the cultured cells were centrifuged.
Subsequently, it was washed with phosphate buffered saline, and the initial value of the absorbance of the cell suspension having the initial number of bacteria was measured. On the other hand, a 15-ml centrifuge tube was prepared by filling 20 mg of the compositions of Examples 1 to 5 and Comparative Examples 1 to 5, respectively. Next, 1.5 ml of the cell suspension was added to the centrifuge tube, and incubated at 37 ° C. with shaking for 5 minutes. Thereafter, the mixture was allowed to stand for 10 minutes, and the absorbance of the supernatant was measured using a spectrophotometer.
By comparing the absorbance of the supernatant with the initial value of the absorbance of the cell suspension, the sterilization rate of each of the compositions of each Example and Comparative Example was determined. The results are shown in Table 12.

  From the above results, the royal jelly and royal jelly extract residue has a high sterilizing effect against gingivalis, and the sterilization rate is greatly improved by combining the royal jelly and royal jelly extract residue with calcium compounds such as hydroxyapatite. It has been shown to be very effective in preventing periodontal disease.

[Whiteness test]
1 g each of the compositions of Examples 45 to 52, the compositions of Examples 53 to 61, and the compositions of Comparative Examples 10 and 11 to 19 are attached to a toothbrush, and the brushing device is used for 6 minutes a day. Brushing of the extracted teeth was carried out for 3 cases each for 5 days under the same conditions. Table 13 shows the test results using the compositions of Examples 45 to 52 as Examples 62 to 69, and the test results using the composition of Comparative Example 10 as Comparative Example 20. Table 14 shows the test results using the compositions of Examples 53 to 61 as 70 to 78 of Examples, and the test results using the compositions of Comparative Examples 11 to 19 as Comparative Examples 21 to 29.

  The whiteness before brushing of the extracted tooth and the whiteness after brushing for 5 days were measured with a colorimeter “CMS-35FS” manufactured by Murakami Color Research Laboratory. For each example, an average value of measured values of three extracted teeth before brushing and an average value of measured values of three teeth after brushing for 5 days were calculated. The value after brushing for 5 days is represented by a value obtained by subtracting the average value before brushing from the average value after brushing, and the results are shown in Table 15.

  From the above results, the results of Examples 62 to 69 in which royal jellys are blended have higher whiteness than the results of Comparative Example 20 in which no royal jelly is blended. In the results of the dentifrice containing hydroxyapatite without the royal jelly of Comparative Examples 21 to 25, the whiteness of the teeth increased as the amount of hydroxyapatite increased, but the royal jelly of Comparative Examples 26 to 29 In the result of dentifrice containing a calcium compound other than hydroxyapatite with no blending, no increase in whiteness is observed. The results of tooth whiteness with the dentifrice containing the royal jellys and calcium compounds of Examples 70 to 78 are greatly increased compared to the results of the dentifrice without calcium, and with the dentifrice containing hydroxyapatite In addition, the whiteness of the tooth is greatly increased.

It is a photograph which shows the control surface and processing surface of a crown part by a contact microradiogram (CMR). FIG. 2 is a diagram in which the photograph shown in FIG. 1 is drawn using dark ink and a description of the state of each part is added.

Claims (4)

  A composition for oral cavity comprising at least one or more of royal jelly, royal jelly extract, and royal jelly extract residue.   The composition for oral cavity according to claim 1, wherein a calcium compound is blended.   The composition for oral cavity according to claim 2, wherein the calcium compound is hydroxyapatite. Calcium compound is one of natural bone tissue powder, calcium chloride, calcium lactate, calcium gluconate, tricalcium phosphate, calcium citrate, calcium hydrogen phosphate, calcium hydrogen phosphate dihydrate, calcium oxide Or 2 or more types are mix | blended, The composition for oral cavity of Claim 2 characterized by the above-mentioned.