RU2254851C1 - Agent and method for prophylaxis and treatment of dental caries - Google Patents

Abstract

FIELD: medicine, stomatology.

SUBSTANCE: invention proposes an agent for prophylaxis and treatment of dental caries that comprises carrier and active substance wherein carrier is made as a bicomponent system consisting of rubber or rubber-like elastomer eliciting high residual deformation and spherical or approaching to spherical rubber particles or rubber-like polymer eliciting the residual deformation less 0.001% and showing deformation indices 10-25 kg/cm² at relative elongation 0.1-0.25 and in the ratio of components in the carrier = (30:70)-(85:15) wt.-%, size of particles is 1.0-5.0 mm and wherein active substance involves active sources of fluorine, calcium and phosphate ions. Agent is made as plate, rod or block. Method for prophylaxis and treatment of caries involves chewing the indicated agent with strength providing release of active substance from carrier and maintaining the concentration of calcium and fluorine ions in saliva 10^-4 - 10^-5 M, respectively, for 5-15 min, not less. Agent and method show high effectiveness in treatment and prophylaxis of caries and comfortable using also.

EFFECT: improved, enhanced and valuable medicinal properties of agent and method.

3 cl, 2 tbl

Description

The invention relates to dentistry and relates to medicines for the treatment of dental diseases.

It is known a means for the prevention of caries, made in the form of chewing gum, containing active ingredients containing wax, paraffin, margarine, ethyl alcohol and ascorbic acid (1).

Also known is a tool for the remineralization of tooth enamel (the prevention and treatment of caries), made in the form of chewing gum, containing active carbon ingredients as calcium carbonate and edible organic acid, as well as fluorides, phosphates, triclosan, organochlorine compounds and other target additives (2) .

The disadvantage of these funds is low anticariogenic activity and low healing properties.

Known methods of using fluorine-containing gels and foams, the concentration of fluorides in which reaches 2% (4).

Analysis of the effectiveness of the use of fluorine-containing gels and foams shows that the accumulation of fluorides occurs only in the surface layers of enamel. In this regard, the effect of fluorine is not long, which is probably associated with leaching it from enamel.

The closest to the claimed object in its essence and the achieved technical result is an oral care product, namely, teeth, made in the form of a strip of elastic polymer that does not have permanent deformation, with the active ingredient applied in it in the form of a mixture of tooth whiteners and other target additives in various combinations (3).

However, this agent has a low prophylactic and curative activity, since the exchange mechanism of the treatment or prophylaxis process involves only diffusion, i.e. actually is passive and uncontrollable.

The task is to develop a tool that is highly effective in the prevention and treatment of caries, convenient to use.

The essence of the invention lies in the fact that the tool contains a polymeric carrier and an active substance. The carrier is made in the form of a two-component system of a rubber or rubber-like elastomer having high residual deformation and spherical or approaching spherical particles of rubber or rubber-like polymer having a residual deformation of less than 0.001% and having deformation characteristics of at least 10-25 kg / cm ² with an elongation 0.10-0.25 and ratio of components in the carrier is 30: 70-85: 15 wt% when the size of spherical or near spherical form particles of 1.0-5.0 mm, pref. sim ilar 3.0-4.0 mm, and the active agent comprises fluoride ion sources, calcium and phosphate at weight ratio of carrier and active substance 99.8: 0,2-98,0: 2.0.

The tool can be made in the form of a plate, rod or bar.

Prevention and treatment of caries consists in chewing the indicated product with an effort sufficient to release the components of the active substance from the carrier and maintain the concentration of calcium and fluoride ions in saliva not lower than 10 ^-4 and 10 ^-5, respectively, for 5-15 minutes.

When chewing the inventive tool, a pressure develops sufficient for the perspiration of the tooth fluid (for the appearance of tooth fluid on the surface of the enamel at various stages of mineralization of the tooth).

It is known that tooth tissues have the same biochemical mechanism of protection against damage as any other organ of the human body. This protection mechanism is based on the flow of tooth fluid from the tooth pulp to the enamel surface and, to a lesser extent, the other way around (5). However, in order for the fluid to move along this route, the teeth must undergo certain loads, during which the tooth is pressed into the hole due to the elasticity of the periodontal tissues and the deformation of the hard tissues of the tooth. Due to this, the internal volume of the pulp chamber changes. This change in volume leads to an increase in pressure inside the tooth and the dental fluid located in the dentinal tubules begins to move to the tooth enamel (primarily in the fissures and cervical region) and seeps out through non-mineralized enamel and micropores, washing and mineralizing it. When pressure is removed, the fluid moves in the opposite direction and calcium and fluorine ions dissolved in saliva are introduced into the enamel. And since the diameter of the intercrystalline spaces in the enamel changes as the tooth mineralizes, the pressure that needs to be developed on the tooth for the appearance of perspiration should change in the direction of increase. The determination of the minimum pressure on tooth tissue that can cause fluid flow in various enamel areas is essential in the practice of preventing the development of a carious process, since the protective and restoring function of the tooth is based on washing with dental fluid.

The pressure value has been established, which must be developed on various types of teeth of different age periods in order to start the movement of tooth fluid to the enamel surface. For the prevention of dental caries in children with newly erupted permanent teeth, an effort of about 10 kg / cm ^{2 is} sufficient to start the movement of the dental fluid to the enamel surface. One year after teething, the force should be increased to 15 kg / cm ² . The age gradation of the necessary flow of tooth fluid to the surface of the enamel is at least 10-15 kg / cm ² aged 6 to 8 years; 20-25 kg / cm ² for ages 15 to 35 years and 10-15 kg / cm ² for ages older than 35-40 years.

As an elastomer, elastomers based on natural or synthetic rubber or mixtures thereof, plasticized silicone rubbers, highly plastic polymers with low relaxation characteristics are used.

For the material of spherical particles, rubber based on natural or synthetic rubber or mixtures thereof, silicone rubbers, rare copolymers of ethylene with propylene, rubbers with high deformation resistance are used.

The dimensions of the spherical or approaching in shape to spherical particles are from 1.0 to 5.0 mm, preferably 3.0 to 4.0 mm. Target additives, in particular stabilizers, plasticizers, dyes or pigments, etc., can be introduced into spherical particles during their formation.

Spherical or approaching in shape to spherical particles of rubber or rubber-like polymers are obtained by spraying the melt into a stream of cooling fluid (liquid or gas), followed by separation of particles of an appropriate size.

The size and shape of the spherical particles is due to the fact that the fissures on the chewing surfaces of the teeth have an inherent topography and physical dimensions, which are just within the area of the contact spot (2-4 mm) of the spherical particle under strain compression of 10-20%. At the same time, the material of the spherical particles has physical and mechanical characteristics, and in particular, compressive deformation resistance of 10-25 kg / cm ² with a compression deformation of 10-20%, i.e. just reaches that minimum value of specific pressure, which ensures the course of the process of perspiration. The material of the spherical particles should have high relaxation characteristics, (residual deformation should not be higher than 0.001%), since when chewing these spherical particles are subjected to multiple deformation loads.

When preparing the inventive preparation, in addition to the active substances, plasticizers, modifying additives, antioxidants, stabilizers, antimicrobial and antiviral agents, dyes, surfactants, pigments, substances that improve organoleptic characteristics - sweeteners and perfumes, are introduced into it.

The ratio of components in the carrier is 30: 70-85: 15 wt.%.

In the claimed tool as components used substances and materials authorized by the Ministry of Health of the Russian Federation for medical use.

The tool for the prevention and treatment of caries can be obtained in various ways, however, the most preferable and technologically advanced is mixing the components of the tool in the mixers with an extruder, subject to the relevant technological parameters, followed by molding the finished mixture.

As a source of fluorine ions in the active substance, alkali and alkaline earth fluorides are used, as well as fluorophosphates - aluminum difluorophosphate.

Insoluble and water-soluble salts of calcium — calcium carbonate or calcium chloride — are used as a source of calcium ions in the active substance.

Polyphosphates, water-soluble alkali metal phosphates are used as a source of phosphate ions in the active substance.

The active substance in the required amount is introduced into the carrier when it is formed by stirring in a mixer or in an extruder. The active substance is introduced into a rubber or rubber-like elastomer, followed by preparation by further mixing with a calculated amount of spherical or rubber-like polymer particles approaching spherical in shape.

The total content of active substance in the claimed technical solution is from 0.2 to 2.0 wt.%.

When implementing the method for the prevention and treatment of caries, chewing of the indicated product is carried out, preferably with an effort that provides compression deformation of the spherical particles of the carrier by 10-20% and at the same time ensures the release of the active substance from the carrier to maintain the concentration of calcium and fluorine ions in saliva, respectively, not lower than 10 ^-4 and 10 ^-5 for at least 5-15 minutes.

To prepare the product, a Brabender laboratory mixer is used. The temperature in the mixer is set to 40 ° C, in the cylinder of the extruder 40 ° C, in the head of the extruder with a nozzle 55 ° C.

300.0 g of isobutylene-isoprene copolymer, 70 g of plasticizer (glycerol ester), 30 g of GOST 6259-75 glycerol are loaded into the mixer, and 0.6 g of aluminum difluorophosphate, 1.22 g of calcium carbonate are introduced with constant stirring 0.084 g of trisodium phosphate, then 700 g of spherical rubber particles with a particle size distribution of 3.0-4.0 mm are introduced into the mixer. After 15 minutes of stirring, 25 g of hydrogenated starch hydrolyzate, 0.5 g of iodopolyvinylpyrrolidone, 0.7 g of cyclamic acid and 0.9 g of peppermint oil are introduced into the mixer, and after 10 minutes of stirring, the mixture is extruded through a slotted nozzle. A plane-parallel plate is obtained with a thickness of 5 mm and a width of 12 mm.

The composition of the finished product contains the content of plasticizer, glycerin, starch hydrolyzate, iodopolyvinylpyrrolidone, cyclamic acid and peppermint oil.

Table 1 shows the various ratios of the main components of the composition when receiving funds for the prevention and treatment of caries.

The form of the finished product may be in the form of a plate, bar or bar.

On volunteers (boys under 7 years old, 13 years old, men 25 years old, 45 years old and 63 years old) with healthy or relatively healthy teeth, the force required to compress compression of the spherical particles of the polymer carrier by 10-20% during chewing of the claimed agent was determined gnatodynamically.

For this, bite pads of the gnatodynamometer were introduced into the patient’s oral cavity and placed on occlusal surfaces of the chewing teeth. Between the bite pads and between the teeth and the bite pads means plates were laid. When the patient compresses the bite pads of the gnatodynamometer, the compression force is graphically recorded and, accordingly, the deformation is determined.

The study of the preventive and therapeutic properties of the claimed funds was carried out on groups of 25 children in kindergarten No. 12 and on groups (30 people each) of schoolchildren of grades 7-8 of general secondary school No. 19 of Stavropol.

Group “A” twice a day for two months was assigned the chewing procedure of the claimed drug for 5-15 minutes, while using the tool obtained in examples 1-7 (table 1).

Group “B” twice a day for two months was assigned the chewing gum “Dirol white” for 5-15 minutes.

Group “B” was a control - did not receive any preventive drugs. All three groups of subjects were examined for caries every week. Four more groups (“G”, “D”, “E” and “G”) of schoolchildren were assigned the chewing procedure of the inventive preparation obtained according to examples 8-11 (Table 1).

The results of the study are shown in table 2

As can be seen from the above examples, the claimed tool is highly effective in the treatment and prevention of caries, ease of use with the achievement of a technical result in relation to the treatment of carious manifestations, as well as the prevention of caries.

Table 1 Example No. Polymer carrier Active substance (ion source) Noted. Elastomer, (g) Spherich. Frequent Diam (mm), (g) Fluoride (g) Calcium (g) Phosphate ion (g) Total active substance 2 400 g 3.0-4.0 mm 600 g Sodium Fluoride 1.07 Calcium Carbonate 4.066 Sodium Frsfate 0.9 6,036 3 500 3.0-4.0 mm 500 Calcium Fluoride 1,064 Calcium Carbonate + Calcium Chloride 1: 1 3.64 Sodium Frsfate 3.36 8,064 4 600 3.0-4.0 mm 400 Sodium Fluoride 1.78 Calcium Chloride 3.50 Tripolyphosphate Sodium 4.82 10.1 5 700 3.0-4.0 mm 300 Sodium Fluoride 2.074 Calcium Carbonate 9.821 Aluminodifluorophosphate 3.36 15,225 6 800 3.0-4.0 mm 200 Sodium Fluoride 2.045 Calcium Chloride 3.014 Calcium Phosphate 15.341 20,4 7 850 3.0-4.0 mm 150 Sodium Fluoride 2.65 Calcium Carbonate 15.75 Sodium Phosphate 2.0 20,4 8 900 3.0-4.0 mm 100 Sodium Fluoride 2.65 Calcium Hydrogen Phosphate 13.35 Calcium Phosphate 4.4 20,4 nine 250 5.0-5.2 mm 750 Sodium Fluoride 2.88 Calcium Hydrogen Phosphate 14.6 Sodium Phosphate 2.92 20,4 10 700 3.0-4.0 mm 300 Sodium Fluoride 0.56 Calcium Hydrophosphate 1,058 Sodium Tripolyphosphate 1.4 3,018 eleven 700 0.5-1.0 mm 300 Sodium Fluoride 4.17 Calcium Carbonate 18.515 Sodium Phosphate 2.94 25,625

table 2 Group Caries in subjects (% of subjects) Note Before testing 1 month after the start of the test After two months of testing "A" ~ 17 7 7 “B” ~ 18 eighteen twenty "IN" ~ 17 twenty twenty “G” ~ 17 fifteen 10 Example 8 “D” ~ 16 eighteen 14 Example 9 “E” ~ 18 fifteen eleven Example 10 “F” ~ 21 17 14 Example 11

Sources of information

1. RF patent No. 1826901, M. cl. A 61 K 9/68, publ. 07/07/1993

2. RF patent No. 2226060, M. cl. A 61 K 9/68, publ. 03/27/2004

3. RF patent No. 2192202, M. cl. A 61 K 9/70, publ. November 10, 2002 - a prototype.

4. Suntsov V.G., Leontiev V.K. Dental prophylaxis in children. Moscow "Medical Book" 2001.

5. V.R. Okushko. The physiology of enamel and the problem of dental caries. Chisinau 1989.

Claims (3)

1. A tool for the prevention and treatment of dental caries containing a polymeric carrier and an active substance, characterized in that the polymeric carrier is made in the form of a two-component system of rubber or rubber-like elastomer with high residual deformation, spherical or approaching in shape to spherical, rubber or rubber-like particles a polymer having a residual deformation of less than 0.001% and having deformation characteristics of at least 10-25 kg / cm ² with a relative elongation of 0.10-0.25 and a ratio of components com in the carrier 30: 70-85: 15 wt.%, with the sizes of spherical or approaching in shape to spherical particles of 1.0-5.0 mm, preferably 3.0-4.0 mm, and phosphates in the ratio of the masses of the carrier and active substance 99.8: 0.2-98.0: 2.0, when the source contains fluorine, calcium and phosphate ions, and fluorides of alkali and alkaline earth metals and fluorophosphates are used as sources of fluorine ions in the active substance - aluminum difluorophosphate individually or in various combinations, as a source of calcium ions in an active substance you use insoluble and water-soluble salts of calcium - calcium carbonate, calcium fluorides or chlorides individually or in various combinations; polyphosphates, water-soluble alkali metal phosphates individually or in various combinations are used as a source of phosphate ions in the active substance. 2. The tool according to claim 1, characterized in that it is made in the form of a plate, bar or rod. 3. A method for the prevention and treatment of dental caries, including chewing, characterized in that the tool according to claim 1 is chewed with a chewing force that allows the components of the active substance to exit the carrier and maintain the concentration of calcium and fluoride ions in saliva not lower than 10 ^-4 -10 ^-5 for 5-15 minutes.