RU2830273C1 - Method for prevention of focal demineralization of closed fissures in molars and premolars - Google Patents

Abstract

FIELD: dentistry.

SUBSTANCE: invention can be used for prevention of closed-type fissure demineralization. Soft dental deposit is removed for 60 seconds with silicon dioxide paste with abrasiveness of 150–200 RDA. Teeth are isolated with a latex curtain. Kinetic opening of closed fissures is carried out with a Rondoflex blaster and powder with aluminum oxide particles with size of 27 mcm, and air-abrasive treatment of hard tissues is performed for 15 seconds. Gel based on 37 % solution of orthophosphoric acid with dynamic activation by ExtraFine applicator is applied on enamel for 60 seconds, followed by washing off gel for 60 seconds with water. At that, tooth surfaces are dried by air jet from dry instrument to chalk-like enamel shade, and a universal adhesive system containing 10-methacryloxydecyldihydrogen phosphate is applied on the tooth surface, which is rubbed in with an applicator brush and dried with an air jet. Then, repeated application of universal adhesive system is carried out with adhesive distribution by air jet and polymerization for 30 seconds by means of light-emitting diodes with density of dissipated power—1,000–1,200 mW/cm², propanediol gel −1−2−3 is applied on the entire occlusal surface, the gel is polymerized for 30 seconds with a polymerization lamp, the gel is washed off for 20 seconds with water, latex curtain is removed and tooth surface is polished with a brush with paste based on zirconium silicate.

EFFECT: method due to pretreatment of closed fissures by kinetic method and subsequent infiltration both aprismatic structures of enamel, and prismatic zones of bottom and walls of fissures with formation of calcium salts in complex of monomer MDP allows to reduce occurrence of focal demineralization of enamel, allowing to avoid plaque retention on the occlusal surface of molars and premolars with a pronounced fissure relief.

1 cl, 1 ex

Description

The invention relates to dentistry and can be used to prevent the occurrence of closed-type fissure demineralization.

A method is known for predicting the prophylactic treatment of fissure caries of molars at the stage of enamel maturation, which consists in determining the current strength passing through the hard tissues of erupting teeth; at more than 20 μA, the fissures are expanded and filled with a calcium-containing paste, followed by a course of prophylaxis with calcium-phosphate- and fluoride-containing preparations and prophylactic filling of molars (RU 2099013 C1, 20.12.1997). The disadvantage of this method is its labor intensity and the need for additional equipment, as well as the duration of treatment. A method is known for sealing the fissures of the chewing surfaces of teeth based on phenylpropane in methyl methacrylate containing methyl ether of benzoin, additionally containing ethylene glycol or triethylene glycol dimethacrylate and dioctyl phthalate.

The disadvantage of this method is low adhesion to tooth tissues and lack of consideration of the type of anatomical structure of fissures (SU 1119694 A1, 01/29/1982).

For sealing fissures in the tooth structure, it is known to use a composition of dental care products containing an effective amount of a bioactive and biologically acceptable amorphous form of silicon dioxide and a desensitizing effective amount of a potassium salt, wherein the bioactive amorphous form of silicon dioxide is sodium calcium phosphosilicate, and the potassium salt is present in an amount of 1% by weight to 5% by weight of the total weight of the composition (RU 2014139014 A, 09/26/2014).

The disadvantage of the known composition and the known method is the lack of distinction between open and closed fissures and preparation for applying the composition to the tooth tissues, low adhesion of materials.

The invention is aimed at solving a technical problem consisting of creating a method for preventing focal demineralization of closed-type fissures in molars and premolars that does not have the disadvantages of known analogues.

The technical result of this invention is a reduction in the occurrence of focal demineralization of enamel, which makes it possible to avoid plaque retention on the occlusal surface of molars and premolars with a pronounced fissure relief.

The essence of the invention is expressed in a set of essential features, in which the method for preventing focal demineralization of closed-type fissures in molars and premolars includes removing soft dental plaque for 60 seconds with a paste based on silicon dioxide with an abrasiveness of 150-200 RDA, isolating the teeth with a latex curtain, kinetically opening closed-type fissures with a Rondoflex blaster and powder with aluminum oxide particles of 27 μm in size, performing air-abrasive treatment of hard tissues for 15 seconds, applying a gel based on a 37% solution of orthophosphoric acid to the enamel with dynamic activation by an ExtraFine applicator for 60 seconds and rinsing the gel off for 60 seconds with water, while the tooth surfaces are dried with an air stream from a purger to a chalky shade of enamel, and a universal adhesive system is applied to the tooth surface, containing 10-methacryloyloxydecyl dihydrogen phosphate, which is rubbed in with an applicator brush and dried with an air stream, then a universal adhesive system is re-applied with the adhesive being distributed with an air stream and polymerized for 30 seconds using LEDs with a power dissipation density of 1000-1200 mW/ ^cm2 , a gel based on propanediol-1-2-3 is applied to the entire occlusal surface, the gel is polymerized for 30 seconds with a polymerization lamp, the gel is washed off with water for 20 seconds, the latex curtain is removed and the tooth surface is polished with a brush and zirconium silicate-based paste.

The technical result is achieved through preliminary treatment of closed-type fissures using a kinetic method and subsequent infiltration of both aprismatic enamel structures and prismatic zones of the bottom and walls of fissures with the formation of calcium salts in the MDP monomer complex.

The achievement of the technical result in the implementation of the invention is confirmed by the following example.

Patient A., 14 years old, came to the children's clinic with his legal representative for a preventive examination. During an objective examination, soft plaque retention was noted on the occlusal surface of the molars and premolars of the upper and lower jaws, cleaning was difficult due to the anatomical feature - the presence of closed fissures, after removing the plaque, the fissures were intact, the probe glided, percussion was painless. Oral hygiene was unsatisfactory. Temperature test: reactions to temperature stimuli in the molars and premolars were short-lived.

Treatment: teeth 1.6, 2.6, 3.6, 4.6 - soft dental plaque was removed for 60 seconds using a silicon dioxide-based paste with an abrasiveness of 150-200 RDA. Then we isolate the teeth using a latex curtain. We perform fissurotomy using kinetic treatment with a Rondoflex blaster and powder with aluminum oxide particles of 27 μm in size, air-abrasive treatment of hard tissues for 15 seconds. We apply a gel based on 37% orthophosphoric acid with dynamic activation using the ExtraFine applicator and with an exposure of 60 seconds to the enamel, then wash off the gel for 60 seconds and dry thoroughly with an air stream from a purger until the enamel has a chalky shade, then apply a universal adhesive system containing 10-methacryloyloxydecyl dihydrogen phosphate (10-MDP) twice, which is rubbed in using an applicator brush with dynamic activation and polymerization for 30 seconds using LEDs with a dissipated power density of 1000-1200 mW/ ^cm2 . Next, a propanediol-1-2-3 based gel is applied to the entire occlusal surface, the gel is polymerized for 30 seconds with a polymerization lamp, the gel is washed off with water for 20 seconds, the latex curtain is removed and the tooth surface is polished with a brush and zirconium silicate based paste.

Claims (1)

A method for preventing focal demineralization of closed-type fissures in molars and premolars, including removing soft dental plaque for 60 seconds with a silicon dioxide-based paste with an abrasiveness of 150-200 RDA, isolating the teeth with a latex curtain, kinetically opening closed-type fissures with a Rondoflex blaster and powder with aluminum oxide particles of 27 μm in size, performing air-abrasive treatment of hard tissues for 15 seconds, applying a gel based on a 37% orthophosphoric acid solution to the enamel with dynamic activation with an ExtraFine applicator for 60 seconds and rinsing the gel off with water for 60 seconds, while the tooth surfaces are dried with an air stream from a purge until the enamel has a chalky shade, and a universal adhesive system containing 10-methacryloyloxydecyl dihydrogen is applied to the tooth surface phosphate, which is rubbed in with an applicator brush and dried with a stream of air, then a universal adhesive system is reapplied with the adhesive being distributed with a stream of air and polymerized for 30 seconds using LEDs with a power dissipation density of 1000-1200 mW/ ^cm2 , a gel based on propanediol -1-2-3 is applied to the entire occlusal surface, the gel is polymerized for 30 seconds with a polymerization lamp, the gel is washed off with water for 20 seconds, the latex curtain is removed and the tooth surface is polished with a brush and zirconium silicate-based paste.