JP2005272358A - Coating material of tooth - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a coating material of a tooth, particularly a composition enabling the tooth to be whitened simply by applying a liquid to the surface of the tooth, having excellent quick-drying properties and durability, and usable for the coating of the tooth. <P>SOLUTION: The coating material of the tooth contains a natural adhesion-imparting resin and a hydrophilic solvent. Preferably, the coating material contains the natural adhesion-imparting resin containing a cellulose ether, and the hydrophilic solvent. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a tooth coating material, and more specifically, a composition used for tooth nail polish that can easily whiten a tooth by simply applying a liquid to the surface of the tooth and is excellent in quick-drying and durability. Related to things.

  In recent years, with the development of society, the demand for general beauty has increased, and the demand for not only conventional cosmetics but also beautiful teeth and white teeth is expanding. In order to respond to such demands, methods such as veneering and bleaching are used in dental clinics. However, these methods need to visit a dental clinic for a long period of time, and there are problems such as damaging the tooth surface to some extent, and there is a need for a method that makes it easier and more beautiful for teeth.

  Conventionally, a tooth coating composition for applying a liquid to the tooth surface to whiten the teeth and imparting gloss to the teeth has been proposed (Patent Document 1, Patent Document 2, Patent Document 3, Patent Document 4, Patent Document 5). However, when teeth are coated with these compositions, shellac is used as a coating component, so that the coating strength is weak, the durability is inferior, and it is easily peeled off when eating or drinking.

  Also, when pigments such as titanium oxide, titanium mica, etc. are blended, the dispersion stability of the pigment is poor, so there are problems such as intense coating unevenness and whitening as expected, and it is difficult to apply it cleanly on the tooth surface It has the disadvantage of being.

  Furthermore, tooth coating materials have also been proposed for the purpose of improving the durability of the coating by using vinyl acetate, acrylic acid polymer, cellulose ether or the like as coating components (Patent Documents 6 and 7). , Patent Document 8), although some improvement in durability is confirmed, it is still insufficient for practical use due to weak adhesion to teeth, and it can be applied neatly because of poor dispersibility of pigments. The solution to the problem of slow drying after application was also insufficient.

  In addition, antibacterial dental varnishes using natural resins such as benzoin gum and sandalac have been proposed (Non-patent Document 1). Antibacterial dental varnish is a varnish containing antibacterial agent applied to the tooth surface to release the antibacterial agent continuously. However, the antibacterial agent is not sustained for the first time by using in combination with polyurethane instead of benzoin gum alone. It has been described that it has become possible to release the product.

In addition, methylene chloride, tetrahydrofuran, and the like are used as solvents, which is problematic for human safety. In addition, a wound covering material using benzoin gum has also been proposed (Patent Document 9), but in this case as well, a combination with polyurethane is required.
Japanese Patent Laid-Open No. 7-17822 Japanese Patent Laid-Open No. 10-203942 JP 11-71219 A JP 2001-302428 A Japanese Patent Laid-Open No. 2002-187809 JP-A-11-92350 JP 2001-213732 A Japanese Patent Laid-Open No. 2002-3335 Publication 2000-509727 J. et al. Dent. Res64 (12) 1356-1360 (1985)

  An object of the present invention relates to a tooth coating material, and more specifically, it is possible to easily whiten a tooth by simply applying a liquid to the tooth surface, and also to a tooth nail polish excellent in quick-drying and durability. It relates to the composition used.

In view of the prior art, the present inventors have intensively studied to develop a practical tooth coating material, thereby completing the present invention.

  That is, the present invention is a tooth coating material comprising a natural tackifying resin and a hydrophilic solvent.

  A tooth coating material characterized in that the natural tackifying resin contains a natural tackifying resin such as benzoin gum, dammar resin, Elemi, Sandalac, Canadian balsam and a hydrophilic solvent.

  A tooth coating material comprising a natural tackifying resin whose hydrophilic solvent is ethanol and a hydrophilic solvent.

The tooth coating material further comprises a natural tackifying resin containing a cellulose ether and a hydrophilic solvent.
A tooth coating material characterized by comprising a natural tackifying resin containing cellulose ether whose cellulose ether is ethyl cellulose and a hydrophilic solvent.

According to the present invention, the coating strength and adhesion to the teeth are improved, and further, the pigment dispersibility is improved. Anyone can easily apply cleanly to the tooth surface, and the durability of the teeth with extremely high safety and improved durability. A coating material can be obtained.

Hereinafter, the configuration of the present invention will be described in detail.
The natural tackifying resin used in the present invention is a naturally occurring natural resin acid or ester thereof having a softening point or melting point of 50 ° C. to 150 ° C., benzoin gum, Canadian balsam, lacquer, dammar resin, Examples include Elemi, Mastic, Myrrh, Perubalsum, Sandalac, Truvalsum, and Copal resin. Of these, benzoin gum, dammar resin, Elemi, Sandalac, and Canadian balsam are readily available and preferred.

  As an example of these natural tackifying resins, benzoin gum is obtained by extracting with ethanol at room temperature from the secretion of Styrax benzoin DRY, and distilling off ethanol. Is a mixture of cinnamic acid and benzoic acid with resin alcohol esters and triterpenes, and is used in gum bases and the like as existing additives in food additives. The reason why benzoin gum has superior durability compared to conventional shellac and the like is unknown, but it is assumed that the above-mentioned ester and terpene contribute.

  Moreover, the compounding quantity in the whole composition of natural tackifying resin becomes like this. Preferably it is 3 to 30 weight%, More preferably, it is 10 to 20 weight%. If the amount is too small, the coating may be thin and peel off. On the other hand, when the amount is too large, the viscosity of the composition increases, and drying after coating is slow, and the pigment dispersion stability also deteriorates.

  The hydrophilic solvent used in the present invention is ethanol, ethyl acetate or the like, and ethanol is preferably used in consideration of safety in use in the oral cavity. The amount of the hydrophilic solvent in the total composition is preferably 60 to 95% by weight, more preferably 80 to 90% by weight. If the amount is too small, there is a possibility that the natural tackifying resin cannot be completely dissolved.

  The cellulose ether used in the present invention is a compound obtained by etherifying some or all of the hydroxyl groups of cellulose, such as methyl cellulose, ethyl cellulose, propyl cellulose, hydroxyethyl cellulose, hydroxypropyl cellulose, carboxymethyl cellulose, carboxyethyl cellulose and the like. Among these, water-soluble cellulose ether is not preferable because it lowers durability, and ethyl cellulose is preferable in terms of improving film strength, durability, pigment dispersion stability, and good solubility in ethanol.

  Furthermore, the ethyl cellulose used in the present invention can be used from a low-viscosity product to a high-viscosity product, but it is desirable to add a high-viscosity product having a high coating strength in terms of durability. The compounding quantity in the whole composition of a cellulose is 0.1 to 20 weight%, More preferably, it is 1 to 10 weight%. When the blending amount is too small, improvement in film strength, durability, and pigment dispersion stability is not recognized. Moreover, when there are too many compounding quantities, a viscosity will become high too much, the drying after application | coating will be slow, pigment dispersion stability will also worsen, the problem that a coating nonuniformity will arise, and neither is preferable.

  In addition, the tooth coating material of the present invention may contain known components such as pigments, wetting agents, surfactants, wax agents, sweeteners, fragrances, preservatives, and bactericides, as necessary.

  Examples of the pigment include titanium oxide, mica titanium, fish scale foil, barium sulfate and the like, and the addition amount in the whole composition is 0.1 to 10% by weight, more preferably 0.5 to 5% by weight. If it is less than 0.1% by weight, the hiding power is inferior and is not necessarily sufficient to whiten the teeth. On the other hand, when the content is larger than 10% by weight, coating unevenness occurs and peeling tends to occur.

  Examples of the wetting agent include polyethylene glycol, ethylene glycol, propylene glycol, butylene glycol, glycerin, and D-sorbit.

  Examples of the surfactant include sodium lauryl sulfate, sodium lauroyl sarcosine, glycerol monostearate, polyoxyethylene sorbitan monostearate and the like.

  Examples of the wax agent include carnauba wax, shellac, candelilla wax, beeswax, rice wax, molasses, squalane, squalene, polyethylene glycol, jojoba oil, castor oil, stearic acid, and microcrystalline wax.

  Sweetening agents include sodium saccharin, paramethoxycinnamic aldehyde, stevioside and the like.

  Examples of the fragrances include peppermint oil, menthol, peach flavor, rosemary oil, orange oil, lemon oil, strawberry flavor, eucalyptus oil, anise oil, melon oil, and methyl salicylate.

  Examples of preservatives include parahydroxybenzoic acid, ethyl parahydroxybenzoate, propyl parahydroxybenzoate, butyl parahydroxybenzoate, and sodium benzoate.

  Bactericides include chlorhexidine, cetylpyridinium chloride, propolis, hinokitiol, thymol, triclosan and the like.

  The coating material production method of the present invention can be realized by stirring and mixing a natural tackifier resin, a hydrophilic solvent, cellulose ether and other additives. For specific stirring and mixing, a magnetic stirrer, propeller type stirrer or the like may be used.

  In addition, as a method of using the tooth coating material in the present invention, the tooth can be coated by applying to the tooth with a brush or the like and drying. In addition, the natural tackifying resin coating that coats the teeth can be easily removed using ethanol, a general dentifrice, or the like.

    EXAMPLES Hereinafter, although an Example and a comparative example illustrate this invention concretely, this invention is not limited at all by these Examples.

In addition, about various evaluation methods in an Example and a comparative example, ie, drying time, the water absorption amount of a film, durability of a film, and applicability | paintability, it carried out as follows.
(1) Drying time The coating material solution was applied to a glass plate, and the drying time of the film was measured.
(2) Water absorption amount of the coating A predetermined amount of the tooth coating material solution was dropped into the ointment container with a dropper and allowed to stand for 2 days, and then the weight of the coating was measured. And after immersing this ointment container in water for 1 day, taking out the ointment container from water and wiping off water droplets adhering by air blow, measuring the weight of the coating, Asked.
Water absorption (%) = (film weight after immersion-film weight before immersion) / (film weight before immersion)
(3) Durability of the coating Ten monitors were collected and the coating material was applied at 10:00 am, and after the coating, the peeling state of the coating film was examined 12 hours later. In particular, we had a normal meal without any restrictions. The exfoliation situation of the coating film was determined according to the following criteria, and an average value of 10 monitors was used as a determination value.
5 points that do not exfoliate at all, 4 points that hardly exfoliate (the exfoliated part is inconspicuous), 3 points that excluding only the tip of the tooth, 2 points that exfoliate less than 1/2 of the tooth, 1/2 of the tooth 1 point exfoliated above, 0 points exfoliated all.
(4) Applicability Ten monitors were collected, the coating material was applied to the three maxillary anterior teeth, the applicability was determined according to the following criteria, and the average value of 10 monitors was used as the determination value.
There are 3 points that can be painted neatly, 2 points that are almost inconspicuous, and 1 point that is quite noticeable. 0 points that paint unevenness is conspicuous and dirty.

<Examples 1-4, Comparative Examples 1 and 2>
Tooth coating material was obtained by mixing and dissolving benzoin gum, ethyl cellulose, mica titanium and titanium oxide in the proportions shown in Table 1 using a magnetic stirrer. For comparison, a prototype using a conventional shellac was also manufactured. As these coating materials and Comparative Example 2, the evaluation results of various performance tests using commercially available HANIC DC (manufactured by HANIX) using shellac as a coating component are shown in Table 2.

From Table 2, it turned out that the drying time of Examples 1-4 has no problem in use. Moreover, since the water absorption of the coating film of Examples 1-4 is lower than a comparative example, and a coating film is hard to exfoliate even if it eats and drinks, a durable tooth coating material composition can be obtained. It was.
<Examples 5 to 11>
Using a magnetic stirrer, benzoin gum, ethanol, and mica titanium were mixed and dissolved in the proportions shown in Table 3 to obtain a tooth coating material. Table 4 shows the evaluation results of various performance tests of the obtained coating material.

If the amount of benzoin gum is too small as described above, the coating property and the durability of the coating are insufficient, and if the amount of benzoin gum is too large, drying takes a long time and the coating property is also deteriorated.
<Examples 11 to 16>
Benzoin gum, ethyl cellulose, ethanol and titanium mica were mixed and dissolved in the proportions shown in Table 5 using a magnetic stirrer to obtain a tooth coating material. Table 6 shows the evaluation results of various performance tests of the obtained coating material.

As described above, when the amount of ethyl cellulose added is small, the improvement in the durability of the film is small, and when it is too large, the adhesiveness to the tooth surface is reduced and the film tends to peel off.
<Examples 17 to 21>
Benzoin gum, ethyl cellulose, ethanol and titanium mica were mixed and dissolved in the proportions shown in Table 7 using a magnetic stirrer to obtain a tooth coating material. Table 8 shows the evaluation results of various performance tests of the obtained coating material.

As shown above, when the amount of added mica titanium increases, both the coating property and the durability of the coating film decrease.
<Examples 22 to 24, Comparative Example 3>
Using benzoin gum, Elemi and Sandalac as natural tackifying resins, ethanol and mica titanium were mixed and dissolved in the proportions shown in Table 9 using a magnetic stirrer to obtain a tooth coating material. For comparison, a coating material containing shellac was also produced. Table 10 shows the evaluation results of various performance tests of the obtained coating material.

As described above, in the case of the shellac formulation of the comparative example, the durability of the film is a problem.

The tooth coating material of the present invention can be used not only for whitening of intensely discolored teeth by tetracycline or the like, but also for cosmetic use as a tooth nail polish. It can also be used for prevention of bad breath, periodontal disease, etc. by combination with reduction and antibacterial agent.

Claims (7)

A tooth coating material comprising a natural tackifying resin and a hydrophilic solvent. The tooth coating material according to claim 1, wherein the natural tackifying resin is benzoin gum, dammar resin, Elemi, Sandalac, or Canadian balsam. The tooth coating material according to claim 1, wherein the amount of the natural tackifying resin is 3 to 30% by weight. The tooth coating material according to claim 1, wherein the blending amount of the hydrophilic solvent is 60 to 95% by weight. The tooth coating material according to claim 1, wherein the hydrophilic solvent is ethanol. Furthermore, the tooth coating material of Claims 1-4 which adds a cellulose ether. The tooth coating material according to claim 5, wherein the cellulose ether is ethyl cellulose.