WO2010134833A1

WO2010134833A1 - Stomatological lacquer

Info

Publication number: WO2010134833A1
Application number: PCT/RU2009/000244
Authority: WO
Inventors: Владимир Петрович ЧУЕВ; Вера Федоровна ПОСОХОВА; Андрей Анатольевич БУЗОВ; Мария Константиновна МАКЕЕВА; Сергей Николаевич ГОНТАРЕВ; Юрий Романович КОЛОБОВ
Original assignee: 3Aкpытoe Акционерное Общество "Oпытнo-Экcпepимeнтaльный Завод "Bлaдmиba"
Priority date: 2009-05-21
Filing date: 2009-05-21
Publication date: 2010-11-25

Abstract

A stomatological lacquer can be used for the prophylaxis and treatment of caries, hyperaesthesia, and accelerated remineralization of tooth dentine and enamel. Said lacquer comprises copal dissolved in a mixture of organic solvents, specifically - in one part of isopropyl alcohol and two parts of ethyl acetate and chlorobutanol, and also fluorinating, remineralizing and antiseptic components in the following ratios (% by mass): copal - 9.0 - 15.0; aminofluoride - 0.5 - 6.0; sodium fluoride - 0.1 - 1.0; alcoholic colloid (gel) of nano‑sized hydroxyapatite - 0.2 - 5.0; chlorobutanol - 0.2 - 6.0; isoamyl acetate - 3.0 - 15.0; solvents - up to 100. Furthermore, the alcoholic colloid comprises not less than 0.2 and not more than 20% of nano‑sized hydroxyapatite.

Description

VARNISH DENTISTRY

FIELD OF TECHNOLOGY

The invention relates to medicine, namely to dentistry, and can be used for the prevention and treatment of caries, hypersthesia, accelerated remineralization of dentin and tooth enamel.

BACKGROUND OF THE INVENTION

In the oral cavity of a healthy person, the system of enamel-dentin-saliva is in balance between de - and remineralization. With the active life of cariogenic bacteria in plaque, this equilibrium is disturbed towards demineralization. The presence of fluorine ions activates the remineralization process, due to the fact that they are adsorbed on the tooth surface and replace the hydroxyl groups of hydroxyapatite, converting it to less soluble fluoroapatite or hydroxyfluoroapatite. In a more acidic environment, the action of fluoride ions leads to the formation of insoluble calcium fluoride, which leads to compaction of the crystal lattice of tooth enamel, increases its ability to withstand the destructive action of organic acids (lactic, acetic, etc.) produced by streptococci and lactic acid bacteria in the oral cavity.

Technical solutions are known for caries prophylaxis in the form of local exposure agents (gels, films, pastes, sealants, varnishes, rinses) based on the fact that fluorine-containing compounds are introduced into their composition.

For example, films according to the patents (1,2) are known which are used for the prevention and treatment of caries, hypersthesia, remineralization of hard tissues of teeth and are made in the form of a biocompatible polymer film consisting of hydrophilic and hydrophobic layers. The hydrophilic layer includes fluoride ions, calcium and phosphorus ions, as well as antimicrobial and excipients. The disadvantage of using films, as well as rinsing solutions, gels, pastes, is the limited time spent on the teeth, which reduces therapeutic efficacy, because the structure of the tooth enamel and dentin tissue is very dense and medicines do not have time to penetrate the tooth tissue and are quickly washed off by saliva.

The most suitable dosage form of prolonged action, in terms of ease of use and effectiveness, are funds in the form of varnish.

For example, varnishes such as Profilak (3) and Fluorlac (4), made on the basis of natural resins and balsam, with the addition of sodium fluoride are known. Their disadvantage is that the antiseptic that is part of these varnishes - fir balsam - has the property of “consuming” tooth enamel, which over time causes its destruction. In addition, as a film-forming base in these varnishes use natural shellac resin, which;

- Firstly, it can give a yellowish tint to the teeth;

- secondly, the shellac-based film that dries on the teeth dries for a rather long time: (after application, keep your mouth open for at least 4-5 minutes, and complete drying is achieved no earlier than 12-22 hours, during which it is recommended to take only liquid food and do not brush your teeth). Shellac resin is dissolved only in a mixture of ethyl alcohol and chloroform, so if some drugs get on the oral mucosa, some patients may have a burning sensation.

Known drug "Biflyopid 12" manufactured now «Voco» (Germany), the main active component of which is a combination of sodium fluoride (NaF) and calcium fluoride (CaF _2), intended for the prevention and treatment of dental hard tissues to reduce their hypersensitivity. When applying varnish to his dentin the action is based on the flowing into the mouth of the dentinal tubules, as a result of which “plugs” are formed that block the movement of fluid along the dentinal tubules, which eliminates pain sensitivity, reduces or eliminates the appearance of discomfort when exposed to thermal, chemical or tactile stimuli on the teeth. (5)

The disadvantage of this varnish is that the particle size of calcium fluoride is much larger than the size of the microcracks of the tooth enamel and therefore the sparingly soluble calcium fluoride is adsorbed on the surface of the enamel and cannot penetrate deep into the microcracks, i.e. smaller enamel defects remain unprotected. When brushing your teeth, the varnish is quickly removed and remineralization stops. It turns out that the varnish performs only a protective function, but does not contribute to the long-term remineralization of the teeth. In addition, synthetic resins that do not have sufficient adhesion to tooth tissues are used as a film-forming substance in this preparation.

Known dental material, including nanoscale filler, selected from the group of methacryloxypropylsilane derivatives or from the group of glass, quartz, .... ceramic metal oxides, alumina, stable titanium oxides ... and the polymerizing material is selected from the group consisting of methacrylate and acrylate monomers . (6) This composition increases the abrasion resistance and surface strength of the dental varnish. But not enough actively contributes to the remineralization of dentin and tooth enamel.

The prototype was Silkot varnish (7), which is based on copal resin, dissolved in denatured ethyl alcohol, which also contains chlorobutanol and ethyl acetate. Disadvantage is low therapeutic efficacy due to the lack of remineralizing components in the composition of this varnish.

The objective of the invention is the creation of a therapeutic and preventive dental varnish of prolonged action for fluoridation and accelerated remineralization of dentin and tooth enamel. SUMMARY OF THE INVENTION

The problem is solved due to the fact that the composition of the proposed varnish, consisting essentially of copal resin, chlorobutanol and ethyl acetate, includes such active ingredients as fluorinating, remineralizing and antiseptic.

The main active ingredients selected were: sodium fluoride, sodium aminofluoride and nanosized hydroxyappatite in the form of an alcohol colloid (gel), with a concentration of hydroxyapatite from 0.2 to 20%, in the following ratios (mass%):

Kopalovaya resin - 9.0 -15.0;

Aminofluoride - 0.5 - 6.0;

Sodium fluoride - 0, 1 - 1, 0;

Alcohol colloid (gel) of nanosized hydroxyappatite - 0.2 - 5.0;

Chlorobutanol - 0.2 - 6.0;

Isoamyl acetate - 3.0-15.0;

Solvents - up to 100.

Kopalovaya resin is most suitable as a film-forming substance due to its high penetration, antiseptic and bactericidal properties. For the purposes of the invention, it is preferable kopalovaya resin of plant origin with a melting point up to HO ⁰ C.

It is highly soluble in organic solvents and is capable of forming a thin elastic and durable film that does not affect the adhesion of restoration materials to dentin. In this composition the most preferred digestion resin content is from 9 to 15%, because with the introduction of the specified resin less than 9% - the viscosity of the varnish is negligible, the resulting film is not uniform.

With the introduction of kopalovoy resin more than 15% - increases the drying time of the film, decreases penetration.

The basis of the mineral component of tooth enamel and dentin is calcium hydroxyapatite, therefore its introduction into the varnish composition is a necessary condition for increasing the remineralization efficiency. The novelty lies in the fact that the varnish contains nanoscale hydroxyapatite with a polycrystalline structure, the particles of which consist of elongated crystallites with sizes of 10-20 nm, oriented in a certain way and arranged in chains, including parallel and agglomerated ones, which do not exceed 100-200 in length nm, width 30-40 nm. Particles of hydroxyapatite with such sizes are closest in their properties to hydroxyapatite of hard tooth tissues, therefore, they are most suitable for practical use in the treatment of foci of demineralization.

Also new is that nanosized hydroxyapatite is introduced into the varnish in the form of 0.2-20% alcohol colloid (gel). The colloidal system helps to increase the adsorption of fluorine ions on the surface of hydroxyapatite, increases the penetration of varnish into microdefects of enamel and dentin, which increases the likelihood of interaction with tooth tissues of hydroxyapatite and fluorine ions at the molecular level not only on the surface of the teeth, but also in cracks even of the smallest size. As a result, even the smallest microcracks are “taken into account”, their remineralization increases. When less than 0.2 percent of 0.2-20% alcohol colloid (gel) of hydroxyapatite is kept in the varnish, the effect of remineralization is not observed, and the introduction of more than 5.0 percent leads to agglomeration of nanostructures in macrostructure, reduce sedimentation stability of varnish. The choice of concentration from 0.2 to 20% of nanosized hydroxyapatite is based on the fact that it is in this range that the alcohol colloid (gel) of nanosized hydroxyapatite has sedimentation stability over time.

Chlorobutanol - colorless crystals or a white crystalline powder with a camphor smell. It has a moderate distracting (local anesthetic), anti-inflammatory and antiseptic (antibacterial and antifungal) effect. The composition should include at least 0.2% so that a local anesthetic effect is observed, but not more than 6%, otherwise adsorption of chlorobutanol on the components of the varnish is possible. Most preferred amount: 1-4%.

Aminofluoride is a new generation organic fluoride compound with increased fluorinating activity with a long therapeutic anti-caries effect: unlike other fluorine sources, when applied it forms a highly stable protective layer on the surface of the teeth, which prevents calcium loss and reduces the permeability of tooth enamel.

Sodium fluoride is an inorganic compound that easily gives off fluoride ions, has good diffusion, so fluoride ions easily diffuse into hard tissues, increasing the resistance of tooth enamel to acids.

Isoamyl acetate is an ester of acetic acid and isoamyl alcohol. It is used very widely under the name of pear essence. The preferred content is at least 3% (there is no pleasant pear smell) and no more than 15% (the smell is too harsh, leading to increased salivation). As a digging solvent, isopropyl alcohol is used. As a co-solvent to accelerate the drying time of the varnish and increase the penetrating ability, ethyl acetate is added at a ratio of isopropyl alcohol to ethyl acetate of 1: 2.

The technical result of the proposed composition of dental varnish is its increased penetrating and remineralizing ability due to the fact that nanosized particles of hydroxyapatite in the colloidal system easily penetrate into the smallest defects and microcracks, increasing the remineralization of tooth tissues at the molecular level. All this contributes to the restoration of the mineral structure of the tooth enamel, the remineralization of dentin of the deep carious cavity and the normalization of the functional state of the tooth pulp, i.e. more effective prevention of caries, a decrease in tooth hypersensitivity. In addition, the high penetrating ability of kopalovoy resin and the strength of the film formed by it provides long-term and reliable "sealing" of microdefects of tooth enamel, and the smooth surface of the varnish prevents the formation of bacterial plaque.

SHORT LIST OF FIGURES

Figure l shows an image of a cutter cleaned of plaque by a standard method. Well visible cracks on the front.

Figure 2 shows an image of the same cutter coated with the specified varnish (dark surface).

Fig. 3 shows an enlarged image of a fragment of the same cutter coated with the specified varnish. It is clearly seen how uniformly the varnish covers microdefects that were invisible in figures 1 and 2.

Figure 4 presents an enlarged image of a fragment of one of the microdefects. Particle agglomerates are clearly visible nanohydroxyapatite, which under the action of capillary forces are drawn into a microdefect.

Figure 5 presents the image of microcracks, which along its length has a different width. It is seen how the varnish “marks” shallow and narrow sections of the tooth defect, and flows into the wider and deeper sections, covering the surface of the defect with a thin layer.

Figure 6 presents a bright field image of the particles of the indicated nanoscale hydroxyapatite obtained using a JEM2100 transmission electron microscope from JEOL.

The images in FIGS. 1-5 were obtained immediately after applying the varnish to the cutter using a secondary electron detector using a FEI Quapta 200 ZD scanning electron microscope.

A method of obtaining the proposed varnish includes the dissolution of kopalova resin of plant origin with a melting point up to 110 ⁰ C in a mixture of organic solvents. Namely - isopropyl alcohol and ethyl acetate in a ratio of 1: 2. The resulting solution is filtered and fluorinating, remineralizing and antiseptic components are sequentially introduced in the following proportions, wt.%:

Kopalovaya resin - 9.0 - 15.0;

Aminofluoride - 0.5 - 6.0;

Sodium fluoride - 0.1 - 1.0;

Alcohol colloid (gel) of nanosized hydroxyapatite - 0.2 - 5.0;

Chlorobutanol - 0.2 - 6.0;

Isoamyl acetate - 3.0-15.0;

Solvents - up to 100.

Moreover, the concentration of hydroxyapatite in the alcohol colloid (gel) of nanoscale hydroxyapatite is from 0.2 to 20%. Ready varnish has sedimentation stability, is convenient to use and has a prolonged anticaries and remineralizing effect, a pleasant smell and organoleptic characteristics.

INFORMATION CONFIRMING THE OPPORTUNITY

DETAILED DESCRIPTION OF THE INVENTION

Example 1

To get 100 gr. the specified varnish is dissolved 10.0 - 11.0 g of kopalovoy resin of vegetable origin with a melting point up to HO ⁰ C in a mixture of organic solvents: 26.0-28.0 gr. isopropyl alcohol and 52.0-54.0 gr. ethyl acetate. The resulting solution is filtered and 0.9-3.0 g are added sequentially. aminofluoride, 0.1-0.5 gr. sodium fluoride, 1.0-1.5 gr. 9-10% alcohol colloid of nanosized hydroxyapatite, 1.0-2.0 gr. chlorobutanol, 3.0-4.0 gr. isoamyl acetate. A thin layer of the specified varnish is applied to cleaned and dried teeth. Full drying is achieved after 60 seconds. For the prevention of caries after the first application of the specified varnish, the procedure is repeated after a week, then the control application after a month and after that the preventive application once every six months. Varnish stimulates the restoration of hard tissues of teeth, reduces tooth hypersensitivity. On the smooth surface of the varnish (figure 4 and 5) does not form a bacterial coating.

The ability of the specified varnish when flowing into the dentinal tubules to cover their surface with a thin film while maintaining the adhesion value of the restoration materials to dentin allows the proposed varnish to be used to isolate deep cavities before filling. Inorganic components of the specified varnish (calcium, phosphates, fluorides) actively penetrate into pathological foci enamel / dentin, which provides a bactericidal and remineralizing effect, contributing to the restoration of their structure, (figure 5) Good results can be achieved in the prevention of childhood caries, because the smallest defects are closed, providing a bactericidal and remineralizing effect. On the smooth surface of the specified varnish (figure 4 and 5) does not form a bacterial coating. The coating lasts up to a year, during which time the complete formation of the tooth occurs. With increased sensitivity of the neck of the tooth, hyperesthesia of the hard tissues of the tooth, the cause of which, as a rule, is a violation of the hard tissues of the tooth due to caries, increased abrasion of the teeth, periodontal disease, etc., as a result of which the enamel protective layer and various irritants are disturbed can penetrate the sensitive nerve endings of dentin. In this case, when applying the specified varnish, microdefects are sealed, long-term stability of the varnish contributes to the remineralization of the hard tissues of the tooth. Example 2

To get 100 gr. varnish is dissolved 14.0-15.0 gr. kopalovoy resin of vegetable origin with a melting point up to HO ⁰ C in a mixture of organic solvents: 18.0 - 23.0 gr. isopropyl alcohol and 36.0 - 46.0 gr. ethyl acetate. The resulting solution is filtered and sequentially injected 3.5 -6.0 gr. aminofluoride, 0.5-1.0 gr. sodium fluoride, 4.0-5.0 gr. 15-20% alcohol colloid of nanosized hydroxyapatite, 3.0 - 4.0 g. chlorobutanol, 6.0-15.0 gr. isoamyl acetate.

- Inclusion of 3-5macc.% Alcohol colloid of nanosized hydroxyapatite with a concentration of nanosized hydroxyapatite from 15 to 20% in the varnish composition can be recommended for treating the contact surfaces of adjacent teeth with fixed orthopedic structures or when treating a “live” stump of a prepared tooth before fixing a fixed denture or in as impervious a long-acting barrier when it comes to stopping pain when it is impossible to continue treatment directly at the moment.

Literature

1. RF patent JYo 2238078, IPC 7 A61K6 / 02, A61K9 / 70, A61KЗ 1/66, dated 20.10.2004

2. RF patent ÷ Ns2179454, IPC 7 A61K47 / 48, A61K7 / 18 of 02.20.2002

3. (httr: // www. Al dera.ru / show _ itms, php? Iditem = 4565 & iddiv = 4) 4. (httρ: //www.bsuproduct.bv/index.ρhp/.26.413...0.0 .0.html)

5. Avraamova O.G., Muravyova CC, “Fluoride-containing varnish Bifluoride 12 and individual prophylaxis of oral diseases” https://dentwav.ra/2007/05/10/print ^Λ ftorsoderzhashhiji_lakbiiluorid _12 _... 2007

6. US patent No. 6693143 (B2) IPC: A61K6 / 083 from 2004-02-17

7.fhttp: //vmk-med.com/info/index.php? P = 91 dated 10.11. 2006, November 15, 2007)

Claims

FORMULA

1. Dental varnish with a prolonged remineralizing effect, consisting essentially of 9.0 -15.0 wt.% Copal resin, dissolved in a mixture of organic solvents, namely a number of isopropyl alcohol and two parts of ethyl acetate, 0.5 - 6, 0 mass% of aminofluoride, 0.1 to 1.0 mass% of sodium fluoride, 0.2 to 5.0 mass% of alcohol colloid (gel) of nanosized hydroxyappatite, 0.2 to 6.0 mass% of chlorobutanol; 3.0-15.0 mass% of isoamyl acetate, in which the aforementioned alcohol colloid (gel) contains not less than 0.2 and not more than 20% nanosized hydroxyapatite ..

2. Dental varnish according to claim 1, consisting essentially of 14.0-15.0 mass% of copal resin dissolved in a mixture of organic solvents, namely one part of isopropyl alcohol and two parts of ethyl acetate, 3.5-6, 0 mass% of aminofluoride, 0.5 to 1.0 mass% of sodium fluoride, 4.0 to 5.0 mass% of alcohol colloid (gel) of nanosized hydroxyapatite, 3.0 to 4.0 mass% of chlorobutanol; 6.0-15.0 macc% isoamyl acetate, in which the alcohol colloid contains not less than 15.0 and not more than 20% nanosized hydroxyapatite

3. Dental varnish according to claim 1, consisting essentially of 10.0 to 11.0 mass% of copal resin dissolved in a mixture of organic solvents, namely one part of isopropyl alcohol and two parts of ethyl acetate, 0.9 to 3, 0 mass% of aminofluoride, 0.1-0.5 mass% of sodium fluoride, 1.0 to 1.5 mass% of alcohol colloid (gel) of nanosized hydroxyappatite, 1.0 to 2.0 mass% of chlorobutanol; 3.0-4.0 macc.% Of isoamyl acetate, in which the alcohol colloid contains not less than 9.0 and not more than 10% of nanosized hydroxyapatite