RU2688230C1 - Method of producing calcium-phosphate-fluorine gel for tooth enamel remineralisation in children - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention refers to medicine, namely pediatric dentistry, and may be used for preventing dental caries in children. Method of obtaining a calcium-phosphate-fluorine-containing gel for tooth enamel remineralisation in children involves preparation of an aqueous solution of a calcium salt, an aqueous solution of phosphate salts and fluoride, mixing them with hot aqueous solutions of sodium salt of carboxymethyl cellulose (CMC) and after cooling with each other. Initial components used are dehydrated calcium chloride, potassium dihydrophosphate, sodium fluoride, on their basis aqueous solutions of calcium chloride, potassium dihydrophosphate and sodium fluoride are obtained from the calculation so that in the finished gel means the calcium content is 0.5 %, the phosphorus content is 2 %, the fluorine content is 0.02 % or 0.035 % or 0.05 %. Each of the solutions is mixed with hot 4 % aqueous solution of CMC, cooled, combined, adding a mixture of phosphate and fluoride to calcium, well mixed, correcting the pH of the finished gel using 40 % KOH solution to value of 6.5±0.1. Invention enables to obtain weakly acidic gels containing active ions of calcium, fluorine and phosphate, capable of participating in mineralization processes of tooth enamel. At that, value of fraction of active forms of fluoride ions close to prototype is achieved at lower initial concentrations of sodium fluoride introduced into gel.EFFECT: gel content of not more than 500 ppm enables prescribing it to children aged 3 to 15 years for home independent use.1 cl, 3 ex

Description

The invention relates to the field of medicine, namely pediatric dentistry and can be used for the prevention of dental caries in children aged 3 to 15 years.

The most relevant in dentistry is primary prevention, which is aimed at preventing dental diseases by eliminating the causes and conditions for their occurrence, as well as increasing the body's resistance to the effects of adverse factors of the natural, industrial and domestic environment [1]. One of the most promising ways of primary local prevention of caries is the directed use of the remineralization effect to increase the resistance of dental tissues [2]. Remineralization processes are possible due to the permeability of enamel and its ability to restore or change the composition in the direction of increasing resistance [3]. Penetration and settling in different layers of enamel calcium, phosphate and fluorine leads to a gradual normalization of permeability due to the formation of new hydroxyapatite crystals.

The problem of the composition and properties of remineralizing mixtures is very important for practice. The main components of such mixtures should be calcium salts, phosphates and fluorides in ionized form [4]. However, the creation of such drugs is associated with serious technological difficulties arising due to the chemical incompatibility of these ions. In the same solution, Ca ²⁺ , PO ₄ ^3- and F ^- quickly interact with each other, forming a poorly soluble compound - fluorapatite.

Currently, the most topical form of remineralizing agents are gels, since this form can remain on the teeth for a long time and ensures the penetration of fluoride, phosphorus and calcium ions into the deeper layers of enamel [5].

Known methods for producing dental gels containing compounds of calcium and phosphate (patent RU 2403007 C1), calcium and fluorides (patent RU 2627671 C1), or all three mineralizing components — calcium, phosphates and fluorides — in various proportions (patents RU 2476200 C2 , RU 2560680 C1, RU 2280432 C2, SU 1828750).

The closest technical solution to the present invention is a method of obtaining a composition containing free calcium, phosphorus and 1% fluoride for the treatment of initial dental caries (patent No. 2280432). In the prototype, a 2% aqueous solution of calcium chloride, a 1% aqueous solution of potassium dihydrogen phosphate and a 1% aqueous solution of sodium fluoride were prepared to obtain a gel, a hot 4.5% colloidal solution of carboxymethylcellulose (CMC) was added to each solution, the solutions were cooled, then CaCl ₂ + gels were mixed CMC and KN ₂ PO ₄ + CMC, the pH of the mixture was adjusted to 6.90-7.15 using a saturated solution of KOH, after which NaF + CMC gel was introduced into the resulting system and the final pH was monitored. As a result, a product was obtained in which calcium, phosphorus and fluorine are contained in a mass ratio of 2: 1: 1 and at pH = 7.05 the mass fraction of active fluorine was 4.75% of the injected amount of fluorine, active calcium — 2.52% of the injected calcium.

The disadvantages of this technical solution include high initial fluorine content in the gel (1% or 10,000 ppm), which makes it possible to use it only at a dental appointment under the supervision of a physician, since for household use it is allowed means that include no more than 1,500 ppm fluorine for adults and 500 ppm of fluoride for children. Also, relatively low active concentrations of calcium and fluorine are fixed in the gel due to the combination of ions with the formation of poorly soluble fluorapatite (Ca ₁₀ (PO ₄ ) ₆ F ₂ ).

The problem to which the present invention is directed is to develop a method for obtaining gel means containing ionized calcium, phosphate ions and the amount of fluorides acceptable for children's dental preparations, while ensuring the presence in its composition of active (unbound forms) ions capable of to participate in the processes of mineralization of tooth enamel.

This technical result is achieved by the fact that the proposed method of obtaining gel means, including the preparation of an aqueous solution of a calcium salt, an aqueous solution of phosphate salts and fluoride, mixing them with hot aqueous solutions of sodium carboxymethylcellulose (CMC) and, after cooling, with each other, different that dehydrated calcium chloride, potassium dihydrogen phosphate, and sodium fluoride are used as starting components; aqueous solutions of calcium chloride, potassium dihydrogen phosphate, and sodium fluoride are obtained on their basis From the calculation that the calcium content in the finished gel product was 0.5%, the phosphorus content was 2%, the fluorine content was 0.02% or 0.035% or 0.05%, each of the solutions was mixed with a hot 4% CMC aqueous solution, cooled, combined, adding a mixture of phosphate and fluoride to calcium, mix well, adjust the pH of the finished gel with a 40% KOH solution to a value of 6.5 ± 0.1.

Calcium chloride, potassium dihydrophosphate and sodium fluoride - highly soluble compounds and their ions are natural components of human oral fluid. The sodium carboxymethyl cellulose in the claimed invention is used as a gelling agent. It is not fermented by microorganisms, which ensures a long shelf life of the drug and eliminates the need for additional introduction of preservatives into its composition. The amount of CMC is chosen empirically and provides the optimal consistency of the gel.

The stated concentrations of calcium chloride and potassium dihydrophosphate provide an excess of Ca ^{2+ ions} and HPO ₄ ^2- / PO ₄ ^3- relative to their content in saliva to activate the processes of the mineralization of tooth enamel when applying the proposed composition. The selected ratio of calcium and phosphate concentrations (1: 4) corresponds to the ratio of elements in the human oral fluid. The fluorine content (0.02% F ^- or 200 ppm F ^- ; 0.035% F ^- or 350 ppm F ^- ; 0.05% F ^- or 500 ppm F ^- ) corresponds to the amount of fluoride in prophylactic agents allowed for home use in childhood (200- 500 ppm).

The pH = 6.5 ± 0.1 is selected based on the data of [6], according to which fluoride ions more actively integrate into the structure of tooth enamel during a weakly acidic reaction of the medium.

Solutions of CaCl ₂ and KH ₂ PO ₄ + NaF salts are mixed with a hot CMC solution to obtain homogeneous mixtures of CaCl ₂ + CMC and KH ₂ PO ₄ + NaF + CMC and prevent exfoliation of system parts. Combining gels CaCl ₂ + CMC and KN ₂ PO ₄ + NaF + CMC is carried out cooled, adding a mixture of phosphate and fluoride to calcium, to reduce the degree of interaction of ions of CA ²⁺ , HPO ₄ ^2- / PO ₄ ^3- and F ^- and their deactivation due to the formation of slightly soluble Ca ₁₀ (PO ₄ ) ₆ F ₂ .

The salient features of the proposed technical solution are that:

- dehydrated calcium chloride, potassium dihydrophosphate, and sodium fluoride are used as starting components; aqueous solutions of calcium chloride, potassium dihydrogenphosphate and sodium fluoride are obtained on the basis of them in order that the calcium content in the finished gel is 0.5%, the phosphorus content is 2% fluorine content was 0.02% or 0.035% or 0.05%;

- each of the solutions is mixed with a hot 4% aqueous solution of CMC, cooled, combined, adding a mixture of phosphate and fluoride to calcium;

- the pH of the finished gel is adjusted using a 40% KOH solution to a value of 6.5 ± 0.1.

Due to the combination of distinctive features of the inventive method, weakly acidic gels containing active calcium and fluoride ions in an amount of not less than 0.5% and 1.0% (mass fraction of the active (unbound) form from the initial amount of the element) are obtained, which can be used as caries-preventive drugs use when brushing teeth for children aged 3 to 15 years (depending on the dosage of fluoride in the gels).

The inventive method is confirmed by the following examples.

Example 1. To obtain 100 ml of gel, 25 ml of an aqueous solution of calcium chloride and 25 ml of an aqueous solution containing potassium dihydrogen phosphate and sodium fluoride are prepared. The amounts of salts are calculated so that the contents of calcium, phosphorus and fluorine in the finished gel are 0.5%, 2% and 0.02%, respectively. Each solution is combined with 25 ml of hot 4% aqueous solution of CMC. The mixture is cooled to room temperature and combined by adding a mixture of phosphate and fluoride to calcium. The product is well mixed and adjust the pH of the finished gel with a 40% KOH solution to a value of 6.5 ± 0.1. The obtained gel contains active ions of calcium and fluorine in the amount of not less than 1.25% and 1.0% (mass fraction of the active (unbound) form from the initially entered amount of the element), respectively.

Example 2. To obtain 100 ml of gel, 25 ml of an aqueous solution of calcium chloride and 25 ml of an aqueous solution containing potassium dihydrophosphate and sodium fluoride are prepared. The amounts of salts are calculated in such a way that the contents of calcium, phosphorus and fluorine in the finished gel are 0.5%, 2% and 0.035%, respectively. Each solution is combined with 25 ml of hot 4% aqueous solution of CMC. The mixture is cooled to room temperature and combined by adding a mixture of phosphate and fluoride to calcium. The product is well mixed and adjust the pH of the finished gel with a 40% KOH solution to a value of 6.5 ± 0.1. The resulting gel contains active ions of calcium and fluorine in an amount of at least 1.0% and 2.1% (mass fraction of the active (unbound) form from the initially entered amount of the element), respectively.

Example 3. To obtain 100 ml of gel, 25 ml of an aqueous solution of calcium chloride and 25 ml of an aqueous solution containing potassium dihydrophosphate and sodium fluoride are prepared. The amounts of salts are calculated in such a way that the contents of calcium, phosphorus and fluorine in the finished gel are 0.5%, 2% and 0.05%, respectively. Each solution is combined with 25 ml of hot 4% aqueous solution of CMC. The mixture is cooled to room temperature and combined by adding a mixture of phosphate and fluoride to calcium. The product is well mixed and adjust the pH of the finished gel with a 40% KOH solution to a value of 6.5 ± 0.1. The resulting gel contains active calcium and fluoride ions in an amount of at least 0.5% and 4.2% (mass fraction of the active (unbound) form from the initially entered amount of the element), respectively.

The proposed method for the preparation of the prevention of dental caries in children is based on the formation of a gel containing Ca ²⁺ , HPO ₄ ^2- / PO ₄ ^3- and F ^- ions, which are able to participate in the processes of enamel mineralization. In the inventive solution, it is possible to achieve close to the prototype (patent No. 2280432) values of the shares of active forms of calcium ions and fluorides at lower initial concentrations of sodium fluoride introduced into the gel. Due to the fact that the gels contain no more than 500 ppm of fluorine, they can be administered to children aged 3 to 15 years for home independent use.

Literature

1. Ulitovskiy, S.B. Principles of prophylaxis of main dental diseases. Ulitovsky // New in dentistry. 2003. №8. P. 42.

2. 24-month randomized controlled trial / E.M. Jiang [et al.] // J. Dent. 2014. Vol. 42, №12. P. 1543-50.

3. Sadovsky, V.V. Clinical technologies for blocking caries / V.V. Sadowski. Moscow: Med. book, 2005. 72 p.

4. Borovsky, E.V. The effect of mineralizing solutions on the state of enamel and tooth decay by caries / E.V. Borovsky, Yu.A. Agafonov // Dentistry. 1993. №2. Pp. 58-59.

5. Leontiev, V.K. Prevention of dental diseases: studies. for students med. universities / V.K. Leontyev, G.N. Pakhomov. Moscow: KMK-INVEST, 2006. 416 p.

6. Khomenko, L.A. Modern means of exogenous prophylaxis of oral diseases / L.А. Khomenko, N.V. Bidenko, E.I. Ostapko, V.I. Shmatko // Practical Guide. - K .: Book Plus, 2001. - 208 p.

Claims (1)

The method of obtaining calcium-phosphate-fluorine-containing gel for remineralization of tooth enamel in children, including the preparation of an aqueous solution of calcium salt, an aqueous solution of phosphate salts and fluoride, mixing them with hot aqueous solutions of carboxymethylcellulose sodium salt (CMC) and after cooling with each other, different that dehydrated calcium chloride, potassium dihydrophosphate, and sodium fluoride are used as starting components; aqueous solutions of calcium chloride, potassium dihydrogen phosphate, and sodium fluoride are obtained from them It is calculated that the calcium content in the finished gel product was 0.5%, the phosphorus content was 2%, the fluorine content was 0.02% or 0.035% or 0.05%, each of the solutions was mixed with a hot 4% CMC aqueous solution, cool, combine, adding a mixture of phosphate and fluoride to calcium, mix well, adjust the pH of the finished gel with a 40% KOH solution to a value of 6.5 ± 0.1.