RU2403007C1 - Enamel remineralisation gel - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to dentistry, and can be used for the prevention and treatment of caries. An enamel remineralisation gel contains calcium chloride, magnesium chloride or magnesium sulphate, sodium chloride, sodium dihydrophosphate, potassium hydrophosphate, potassium dihydrophosphate, urea and sodium carboxymethyl cellulose in the following relation of gel components, wt %: calcium chloride 4.0-6.0; magnesium chloride or magnesium sulphate 0.04-0.06; sodium chloride 0.25-0.35; sodium dihydrophosphate 2.0-4.0; potassium hydrophosphate 2.0-8.0; potassium dihydrophosphate 4.0-7.0; urea 0.04-0.1; sodium carboxymethyl cellulose 2.8-3.5; water - the rest.

EFFECT: gel composition provides its physiological value, high mineralising properties, allows to use said gel for treating children.

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Description

The invention relates to medicine, namely to dentistry, and can be used for the prevention and treatment of caries.

Known therapeutic and prophylactic composition for caring for the oral cavity (EP No. 012247, A61K 8/19, 20, 25, 34, 36, 39, 73, 97) containing carboxymethyl cellulose as a gelling component and magnesium chloride as active elements, sodium chloride and silicon compounds. In addition, the gel contains an inert filler, a moisturizing component, a surfactant, a flavoring filler, and a preservative. As a moisturizing component, either sorbitol, glycerin, polyethylene glycol, propylene glycol, or several at the same time, are used. Sodium lauryl sulfate, alkyl amodobetaine, polysorbate-20, sodium lauryl sarcosinate can be used as surfactants. As a flavoring filler, essential oils, menthol, synthetic sweeteners and more can be used.

The disadvantage of the known composition of the gel is as follows. When using a gel, the formed silicon and calcium ions interact with each other in saliva with the formation of insoluble salts, thereby reducing the amount of free calcium ions, which reduces the effectiveness of remineralization. In this case, silicates strongly alkalize saliva, which contributes to the formation of dental deposits and reduces the physiological composition of the known gel, and also reduces the effect of remineralization. In addition, the known gel contains synthetic components: an inert filler, a moisturizing component, a surfactant, a flavoring filler, a preservative that are foreign to the human body and can cause not only an allergic reaction, but also have a negative effect on individual human organs , which does not allow the use of a well-known gel for the treatment of children. For example, sodium saccharin is a nephrotoxic compound; lauryl sulfate is able to form precipitates, stimulating the formation of kidney stones, insoluble in water, destroys cell membranes, gives a smack of soap; propylene glycol in the process of metabolism in the oral cavity stimulates the formation of pyruvic acid, which changes the acid-base state of the oral cavity, even more actively than lactic acid, exerting a pronounced carious effect. All this reduces the effectiveness of remineralization of the teeth, reduces the physiological nature of the known composition of the gel, and also does not allow its use for the treatment of children.

Closest to the proposed is a composition for the mineralization of tooth enamel (as USSR No. 1828750, A61K 6/02, 07/23/93), containing as a gelling base a mixture of polyethyleneimine, polyethylene polyamine, 2.5-fluoride ionene, polyacrylic acid and polyphosphate and as anticariogenic compounds, calcium chloride, zinc chloride, potassium dihydrogen phosphate, sodium dihydrogen phosphate, ammonium salt of silicic acid and water at the stated ratios of wt.%.

A disadvantage of the known gel is that it uses synthetic components that are foreign to a living organism as a gelling base, which forms an adaptive reaction of the body to the presence of a gel in the oral cavity and reduces the effect of its therapeutic effect. In addition, the presence of synthetic components can cause an allergic reaction, which reduces the physiological nature of the known composition of the gel and does not allow its use for the treatment of children. In the composition of the known gel there is an ammonium salt of silicic acid. When using a gel, the formed silicon and calcium ions interact with each other with the formation of insoluble salts, thereby reducing the amount of free calcium ions, which reduces the effectiveness of remineralization. In addition, silicates strongly alkalize saliva, which contributes to the formation of dental deposits and reduces the physiological composition of the known gel, reduces the effectiveness of the remineralizing effect of the gel.

Thus, from the foregoing, it follows that the analogue and closest to the proposed gel for remineralizing tooth enamel during implementation of the patent search does not provide a technical result consisting in increasing the effectiveness of the remineralizing effect of the gel, in increasing the physiological composition, in the possibility of using gel for treating children.

The present invention solves the problem of creating a gel for remineralization of tooth enamel, the implementation of which provides the opportunity to achieve a technical result, which consists in increasing the effectiveness of the remineralizing effect of the gel, in increasing the physiological composition, in the possibility of using the gel to treat children.

The essence of the claimed invention lies in the fact that in the gel for the remineralization of tooth enamel, including a gelling component, a mineral composition that contains calcium chloride, potassium dihydrogen phosphate, sodium dihydrogen phosphate, and water, it is new that sodium chloride and chloride are added to the mineral composition magnesium and potassium hydrogen phosphate, in addition, urea is introduced into the gel, and the carboxymethyl cellulose sodium salt is used as the gel-forming component, while the ratio of the gel components namely, calcium chloride, magnesium chloride or magnesium sulfate, sodium chloride, sodium dihydrogen phosphate, potassium hydrogen phosphate, potassium dihydrogen phosphate, urea, sodium carboxymethyl cellulose, respectively, wt.%: calcium chloride 4.0-6.0; magnesium chloride or magnesium sulfate 0.04-0.06; sodium chloride 0.25-0.35; sodium dihydrogen phosphate 2.0-4.0; potassium hydrogen phosphate 2.0-8.0; potassium dihydrogen phosphate 4.0-7.0; urea 0.04-0.1; sodium salt of carboxymethyl cellulose 2.8-3.5; water the rest.

The technical result is achieved as follows. Calcium chloride and sodium chloride are highly soluble compounds, and in addition, they belong to the natural components of saliva.

The combination in the declared ratios of wt.% Calcium chloride, sodium chloride, magnesium chloride or magnesium sulfate, potassium dihydrogen phosphate imitates the natural electrolyte composition of saliva, maintains the natural equilibrium in the saliva of sodium and potassium ions directly involved in the enamel remineralization process. In this case, potassium hydro- and dihydrogen phosphates and sodium dihydrogen phosphate are sources of phosphorus in the gel. In addition, as a result of chemical reactions between potassium hydro- and dihydrophosphates and calcium chloride, which occur when they are mixed in saliva, highly soluble calcium hydro- and dihydrogen phosphates are formed, for which physiological transport systems exist. All of the above ensures the achievement of the claimed technical result.

The sodium salt of carboxymethyl cellulose forms a colloidal structure of the composition - it forms a gel. The sodium salt of carboxymethyl cellulose is not fermented by microorganisms, which increases the shelf life of the gel and does not require preservatives to be added to the gel. As a result, the probability of allergic reactions of the body and possible negative effects on the organs of the child is excluded. This increases the physiological composition, increases the effectiveness of remineralization of tooth enamel and allows you to use the claimed gel for children.

The presence of calcium, potassium, sodium, magnesium and phosphate ions in the stated ratio in the gel ensures the normalization of two opposing processes of remineralization and demineralization in the hard tissues of the teeth towards remineralization.

The presence of two different acidic salts of phosphoric acid is characteristic of mixed saliva and allows you to create a buffer capacity and maintain the acid-base state of the oral cavity.

The presence of magnesium progressively increases the level of elements necessary for hard tissues - calcium and phosphorus. Magnesium chloride or magnesium sulfate - activates alkaline phosphatase, provides a mineralizing function of saliva. In addition, magnesium chloride or magnesium sulfate can directly affect biomineralization by changing the size and orientation of enamel hydroxyapatite crystals (Hans-Peter Wiesmann et al. Magnesium in Newly Formed Dentin Mineral of Rat Incisor. Journal of bone and Mineral Research, Vol. 12, 3, 1997).

The organic compound urea is a natural component of all the secrets of the salivary glands and mixed saliva. Urea is involved in the formation of a buffer capacity of saliva, promotes micelle formation in saliva (promotes the inclusion of proteins in micelles, stabilizes micelles). Urea is a mucoprotector of periodontal tissues. Urea belongs to osmotic compounds, stabilizes the structure of proteins, participates in maintaining the acid-base state of the oral cavity (neutralizes acids and is a physiological source of ammonium ion, which creates a slightly alkaline environment). Thus, urea creates conditions in the oral cavity that are favorable for remineralization of the teeth, which increases the physiological nature of the claimed gel composition and increases the effectiveness of remineralization.

The ratio of the mineral and organic components of the gel was obtained experimentally and are optimal for its implementation, wt.%: Calcium chloride 4.0-6.0; magnesium chloride or magnesium sulfate 0.04-0.06; sodium chloride 0.25-0.35; sodium dihydrogen phosphate 2.0-4.0; potassium hydrogen phosphate 2.0-8.0; potassium dihydrogen phosphate 4.0-7.0; urea 0.04-0.1; sodium salt of carboxymethyl cellulose 2.8-3.5; water the rest. At the same time, the content of sodium salt of carboxymethyl cellulose ensures optimal gel consistency.

The ratio of trace elements in the composition of the gel is as close as possible to their natural content in the oral fluid, to their physiological level, which increases the effectiveness of remineralization of tooth enamel, increases the physiological composition of the gel and allows it to be used to treat children. Exceeding the upper limits of the content of components in the gel or the use of components in ratios below the minimum values leads to a violation of the osmotic balance in the oral fluid, which leads to a violation of the physiological balance in the processes of re- and demineralization of tooth enamel.

As experiments have shown the use of the gel for the treatment of children, the claimed composition of the gel promotes the formation of a physiological transparent thin coating on the surface of the teeth, with high mineralizing properties, which does not have cariogenic activity.

From the foregoing, it follows that the claimed composition of the gel for remineralizing tooth enamel is a synergistic mixture of mineral and organic components, which is close in composition and properties to the composition and properties of the oral fluid (mixed saliva). In the claimed composition there are no flavorings, enzymes, preservatives. As a result, it is more inert, does not cause allergic manifestations, does not change the taste sensations. Due to the lack of fluoride compounds, the claimed gel composition can be recommended for pediatric patients to accelerate enamel maturation, individuals with fluorosis, endocrine system diseases for the prevention of caries and non-carious lesions. As a result, the claimed composition, compared with the prototype, increases the effectiveness of the remineralizing effect of the gel, increases the physiological composition, provides the possibility of using the gel to treat children.

Thus, from the foregoing, it follows that the proposed invention “Gel for the remineralization of tooth enamel” in the implementation ensures the achievement of a technical result, which consists in increasing the effectiveness of the remineralizing effect of the gel, in increasing the physiological composition, in the possibility of using the gel to treat children.

In the example of the preparation of a gel for remineralizing tooth enamel, the ratio of the components of the gel, namely calcium chloride, magnesium chloride, sodium chloride, sodium dihydrogen phosphate, potassium hydrogen phosphate, potassium dihydrogen phosphate, urea, sodium salt of carboxymethyl cellulose, respectively, wt.%: 5: 0.05: 0.3: 3.5: 3: 6: 0.05: 3, the rest is water, i.e. average value. To obtain the finished form of the therapeutic composition for the care of the oral cavity in the form of a gel, the composition of the gel (per 1000 g) is prepared as follows. The required amount of water is measured in a measuring device, then water is loaded into the mixer, a gelling base - CMC-Na (sodium salt of carboxymethyl cellulose) is added to the mixture. The mixture is stirred until a clear solution is formed for 20-40 minutes and half of the prepared solution is separated. Two solutions are prepared separately, each using 100 ml of water. To prepare the first solution, calcium chloride (50 g), sodium chloride (3 g), magnesium chloride (0.5 g), urea (0.5 g) are used. To prepare the second solution, potassium hydrogen phosphate (30 g), potassium dihydrogen phosphate (60 g), sodium dihydrogen phosphate (35 g) are used. The first solution is added to the mixer and mixing is started. The second is mixed with the separated portion of the gel and transferred to a mixer. Stirring is continued for 20-30 minutes. The resulting gel is Packed in tubes of polymer material.

Example 1. Patient K., 6 years old. It is observed at the dentist with a decompensated course of caries. Dynamic observation showed an average increase in caries intensity every 6 months - 2 carious cavities. When examining a patient: general condition is satisfactory, physical development corresponds to gender and age. Inspection of the oral cavity: 7 filled teeth; good oral hygiene; the oral mucosa is pale pink, moist, shiny, with no visible pathological changes. The patient was prescribed the use of remineralizing gel at home. The ratio of the components of the gel corresponded to the declared limits. The patient brushed his teeth with gel. The course of use is 15 days every 3 months. Clinical observation after 6 months showed a 50% reduction in the increase in caries: after 6 months, the increase in the intensity of caries was 1 cavity. Clinical observation after 1 year showed the safety of all previously placed fillings, the absence of new carious cavities.

Example 2. Patient Yu., 8 years old. It is observed at the dentist with a subcompensated course of caries. Dynamic observation showed an average increase in the intensity of caries for 6 months - 1 carious cavity. When examining a patient: general condition is satisfactory, physical development corresponds to gender and age. Inspection of the oral cavity: 5 previously filled teeth; the hygienic condition of the oral cavity is satisfactory; the oral mucosa is pale pink, moist, shiny, with no visible pathological changes. The patient was prescribed the use of remineralizing gel at home. The ratio of the components of the gel corresponded to the declared limits. The patient brushed his teeth with gel. The course of use is 15 days every 3 months. Clinical observation after 6 months showed no increase in the intensity of caries.

Example 3. Patient S., 12 years old. She complained of a white spot in the cervical region of the tooth 1.2. When examining the patient on the vestibular surface of the cervical region of the tooth 1.2, a white matte spot was found, an electrometric study of the enamel in the white spot region showed a passing microcurrent of 5.5 μA - the initial tooth decay 1.2 was diagnosed. The patient was prescribed the use of remineralizing gel at home. The ratio of the components of the gel corresponded to the declared limits. After brushing the gel, the patient put on a standard gel-filled mouthguard on the teeth for 10 minutes. The course of use is 15 days. After 15 days, a repeated examination of the patient was carried out: a clinical disappearance of a white spot on the tooth 1.2 was noted; repeated electrometric study of enamel showed a passing microcurrent of 2.0 μA.

Claims (1)

A gel for remineralizing tooth enamel, including a gelling component, a mineral composition that contains calcium chloride, potassium dihydrogen phosphate, sodium dihydrogen phosphate, and water, characterized in that sodium chloride, magnesium chloride and potassium hydrogen phosphate are additionally added to the mineral composition, in addition to urea is introduced into the gel, and the sodium salt of carboxymethyl cellulose is used as the gel-forming component, while the ratio of the components of the gel, namely calcium chloride, magnesium chloride or magnesium sulfate and, sodium chloride, sodium dihydrogen phosphate, potassium hydrogen phosphate, potassium dihydrogen phosphate, urea, sodium carboxymethylcellulose, respectively, wt.%:
calcium chloride 4.0-6.0 magnesium chloride or magnesium sulfate 0.04-0.06 sodium chloride 0.25-0.35 sodium dihydrogen phosphate 2.0-4.0 potassium hydrogen phosphate 2.0-8.0 potassium dihydrogen phosphate 4.0-7.0 urea 0.04-0.1 carboxymethyl cellulose sodium 2.8-3.5 water rest