RU2632532C1 - Method for teeth restoration in case of high abrasion - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: hygienic preparation is carried out: tooth surface cleaning, determination of tooth colour shades and the dominant colour shade, isolation from moisture, infiltration or conductive anesthesia if necessary, cavity preparation with diamond burr on the turbine tip using water cooling, drug treatment of the cavity with disinfectant solution, bonding system application, formation of an adaptive layer at the defect cavity bottom by application of a nano-filled composite, photopolymerization and polishing. Preparation is performed intermittently with a touch time of 2-3 using a diamond burr with an average grain size of 50-120 mcm and water cooling at a water temperature of 32-37°C and at a feed rate of 50-70 ml/min, a pasty composite pre-heated to 40-45°C is used as nano-filled composite. At that, in the step-by-step application, pasty composites preheated to 40-45°C are used as well, and a layer of glycerin with a thickness of 1-2 mm is applied using a brush with artificial fibers before photopolymerization. At that, drug treatment of the carious cavity is carried out with a 2% aqueous solution of chlorhexidine bigluconate.

EFFECT: method allows to obtain high strength of the restored surface along with safety and painless treatment.

2 cl, 5 ex

Description

The invention relates to medicine, namely to dentistry, in particular to the problem of restoration of teeth subject to increased abrasion.

A known method of tooth restoration with increased abrasion, in which etching of the defect enamel is carried out by 1-1.5 mm along the perimeter, dentin is etched, a primer adhesive layer is applied to the entire surface of the defect, polymerization is carried out with light, the tooth crown is restored by forming dentin from dentine shades nano-filled composite material, form the transparent part of the cutting edge by introducing nano-filled composite material of transparent shades, restore the enamel surface from the vestibule the oral and oral sides of the tooth crown with an enamel shade of a nanofilled composite material in accordance with the main shade of the cutting edge with a thickness of 1-2 mm with an increase from the base to the coronal part to the cutting edge (patent RU 2360638, IPC А61С 5/00; В82В 1/00; 2009 g.). The known method allows to reduce the invasiveness of processing, to increase the stability of the restoration to stress.

However, the known method does not provide high strength restored teeth in the case of restoration of the chewing group of teeth of the lower and upper jaw by increasing the hardness of the cured composite. In this case, cracks and chips may appear on the restored tooth surface in the future.

Thus, the authors were faced with the task of developing a method of tooth restoration with increased abrasion, providing high strength restored teeth during restoration of the chewing group of teeth of the lower and upper jaw.

The problem is solved in the proposed method of tooth restoration with increased abrasion, including hygienic preparation, cleaning of the tooth surface, determination of tooth shades and dominant color shade, moisture isolation, infiltration or conduction anesthesia according to indications, preparation of the cavity with a diamond boron on a turbine tip using water cooling , drug treatment of the cavity with a disinfectant solution, application of a bonding system, phased application of nanofilled th system in combination with nanofilled adhesive systems, including the formation of an adaptation layer at the bottom of the defect cavity by applying a nanofilled composite, photopolymerization and polishing, in which the preparation is carried out intermittently with a contact time of 2-3 s using a diamond bur with an average grain size of 50-120 μm and water cooling at a water temperature of 32-37 ° C and with a feed rate of 50-70 ml / min, a pasty composite preheated to 40-45 ° C is used as a nanofilled composite, a phased applied also use preheated to 40-45 ° C pasty composites, and before photopolymerization is applied to the reconstructed surface enamel layer glycerin 1-2 mm thick with a brush with artificial fiber.

Currently, from the patent and scientific and technical literature there is no known method for restoration of teeth with increased abrasion, which is characterized by the proposed sequence of medical procedures performed under certain conditions.

It is now known that preheating in the temperature range of 40-55 ° C of fluid composites used in tooth restoration can improve the conversion level, reduce the curing time, increase the depth and strength of curing (http://smile-center.com.ua / en / articles / klinicheskie-preimushestva-nagretix-kompozitov /). However, it was necessary to conduct additional clinical trials to find the optimal conditions for the restoration of the chewing group of teeth with increased abrasion. The studies conducted by the authors allow us to conclude that only if treatment is carried out with the proposed sequence of treatment procedures and all the proposed conditions are met, treatment efficiency can be achieved by obtaining high restoration strength and safety and painlessness of treatment. The authors used paste-like composites as filling material. Studies have shown that heating paste-like composites also increases their conversion and improves the strength of restoration, without affecting the coefficient of thermal expansion and thermal conductivity of the composite, which is not obvious without additional research. Heating paste-like composites in the temperature range of 50-70 ° C improves their handling properties and increases strength (Ivashov A.S., Mandra Yu.V. "Influence of the polymerization temperature on the strength properties of modern composite materials under compression." Problems of Dentistry, 2013, no. 5). However, additional studies allowed the authors to specify the temperature range as 40-45 ° C. It is this interval that provides, on the one hand, high plasticity and good adaptation to the walls of the cavity, which provides high restoration strength, and on the other hand, cannot cause thermal burn of the pulp and post-filling pain in the patient. In this case, the formation of dentin, the formation of a transparent part of the cutting edge, and the restoration of the enamel surface are also carried out by nanofilled composites preheated to a temperature of 40-45 ° C, which contributes to obtaining a durable, restored surface. In addition, the authors developed optimal conditions for the preparation of the cavity of the affected tooth as a preliminary treatment procedure before applying the filling material, which, along with safety and painlessness, provides high strength of the restored surface due to the high adaptation of the filling material to the bottom and walls of the cavity. Thus, the intermittent nature of the preparation reduces the risk of overheating of hard tooth tissues and thermal burn of the pulp. When using diamond boron with an average grain size of less than 50 microns, water cooling at a water temperature of less than 32 ° C and with a feed rate of more than 70 ml / min, the adhesion and filling material to the walls and bottom of the cavity may be disturbed. When using diamond boron with an average grain size of more than 120 μm, water cooling at a water temperature of more than 37 ° C and with a feed rate of less than 50 ml / min, along with the danger of thermal burns of the pulp, the adhesion of the filling material to the walls and bottom of the cavity can also be violated. Drug treatment of the cavity with a 2% aqueous solution of chlorhexidine bigluconate increases the stability of the adhesive compound of the fill composites. An essential step of the proposed method of treatment is the coating of the restoration with glycerol, which provides oxygen-free polymerization conditions, thereby preventing the formation of an oxygen-inhibited (“sticky”) layer, which increases the color stability of the fillings.

Thus, the authors propose a method of tooth restoration with increased abrasion as a set of sequentially carried out medical procedures performed under the proposed conditions, which improves the strength of the restoration. The strength of the filling material when filling facets with increased abrasion is very important, since increased abrasion is accompanied by hypertonicity of the masticatory muscles.

The proposed method of tooth restoration with increased abrasion can be implemented as follows.

Hygienic preparation is carried out, which includes several sequentially carried out measures: conducting a conversation with the patient about the need for professional oral hygiene, about the dangers of dental plaque and dental deposits for hard tissues of the tooth and gums and forming the patient's understanding of the importance of this issue, teaching the patient the rules individual oral hygiene, preparation of the oral cavity by irrigation with a weak solution of an antiseptic, removal of supra- and subgingival dental deposits; carry out cleaning of the tooth surface from plaque and dental pellicle using abrasive paste; determine the color shades of the tooth and the dominant color shade, for which they use the VITAPAN Classical scale, since it is systematic and very similar to real teeth, the samples in it are grouped according to the dominant color: white, yellow, red-brown, brown and gray. When determining the color, the doctor is at a distance of 50-70 cm from the patient, the light should fall from the side at an angle of 45 °, the appropriate sample is taken from the scale and the accuracy of the selection is checked near the surface of a dry tooth that has been moistened with saliva. Then, macro- or micro-isolation from moisture is carried out, the excessive presence of which may subsequently adversely affect the bonding strength of the composite layers. An infiltration or conduction anesthesia is performed, as a rule, application anesthesia to relieve sensitivity from the mucous site where treatment is necessary. In the case of pulp surgery, canal filling, infiltration anesthesia is used, if this type of anesthesia is not effective, conduction anesthesia is used, which acts on the teeth of the lower jaw, the area of the lower lip, on the gum adjacent to the lower teeth and half of the tongue. The preparation of the carious cavity of the tooth is carried out intermittently with a contact time of 2-3 s using a diamond bur with an average grain size of 50-120 μm and water cooling at a water temperature of 32-37 ° C and with a flow rate of 50-70 ml / min. Drug treatment of the cavity is carried out with a 2% aqueous solution of chlorhexidine bigluconate, after which the bonding system is applied. The bonding system is a complex of complex fluids that contribute to the microreferential attachment of composite materials to the hard tissues of the tooth - enamel and dentin. The bonding system consists of three components: an etching agent (conditioner), a primer, an adhesive. The etching agent is usually phosphoric acid at a concentration of 35-37% in the form of a gel. The next component of the system is the primer necessary for dentinal adhesion. The primer enters the dentinal tubules and serves as a conductor for the adhesive. The adhesive strands provide a reliable bond of the composite material with enamel and dentin, creating microrecent adhesion due to the polymerization of monomers. The bonding system is applied in stages: etch the defect enamel by 1-1.5 mm along the perimeter for 25-30 s, etch dentin for 15 s, apply a primer layer on the entire surface of the defect, blow it with air, and polymerize with light for 10 sec Then, nanofilled paste-like composites, preheated to a temperature of 40-45 ° C, are layer-by-layer applied, and an adaptation layer is formed at the bottom of the defect cavity by applying a nanofilled composite, dentin is formed from the dentin shades of the nanofilled composite material depending on the color of the dentin adjacent teeth to enamel of the dentin border, the transparent part of the cutting edge is formed by introducing nano-filled composite material in transparent shades, and the enamels are restored the enamel surface of the tooth crown with the enamel shade of the nanofilled composite material from the vestibular and oral sides of the tooth, after which photopolymerization and polishing are carried out, and before photopolymerization, a layer of glycerol 1-2 mm thick is applied to the restored enamel surface using a brush with artificial fiber.

Clinical research data on the application of the proposed method for tooth restoration with increased abrasion on patients who are volunteers of the dental clinic at the Ural State Medical University are illustrated by the following examples.

In order to study the therapeutic efficacy of the proposed method, a study group of 25 people (men and women aged 24-44 years) was recruited among patients who applied for dental care at the dental clinic of the Ural State Medical University during June 2015 - March 2016.

Example 1

Patient V., 24 years old. The diagnosis is increased tooth abrasion (I degree, generalized type, K03.0), average tooth decay 1.4 (Black class II, K02.1).

Hygienic preparation was carried out, the tooth surface was cleaned of plaque and tooth pellicle using Clinpro Prophy Paste, 3MESPE abrasive paste; tooth shades and the dominant color shade were determined using the VITAPAN Classical scale. Conducted macro insulation from moisture using cotton rolls. The cavity is prepared intermittently with a contact time of 2–3 s using a diamond bur with an average grain size of 50 μm and water cooling at a water temperature of 32 ° C and with a flow rate of 50 ml / min. The drug treatment of the cavity is carried out with a 2% aqueous solution of chlorhexidine bigluconate, after which the bonding system Adper Single Bond 2, 3M ESPE is applied. Layer-by-layer application of nanofilled pasty composites preheated to a temperature of 40 ° C is carried out, at the same time, an adaptation layer is formed at the bottom of the defect cavity by applying a nanofilled composite Filtek Ultimate, 3M ESPE, dentin is formed from the dentin shades of the nanofilled composite material Filtek Ultimate, 3M ESPE depending on the dentin colors of the adjacent teeth to the enamel-dentin border form the transparent part of the incisal edge by applying Filtek Ultimate nanofilled composite material, 3M ESPE transparent shades, restore the enamel surface from the vestibular and oral sides of the tooth crown with an enamel shade of the nanofilled composite material Filtek Ultimate, 3M ESPE, after which the Elipar S10, 3M ESPE lamp is photopolymerized and the fillings are polished and sanded, and a thick layer of glycerin is applied to the restored enamel surface before photopolymerization 1-2 mm using a brush with artificial fiber. Recommendations are given.

After six months of follow-up, there were no complaints. Upon examination, the restoration is fully preserved, the marginal fit of the seal is not broken.

Example 2

Patient V., 44 years old. The diagnosis is increased tooth abrasion (I degree, generalized type, K03.0), deep tooth decay 3.6 (Black class II, K04.0).

Hygienic preparation was carried out, the tooth surface was cleaned of plaque and tooth pellicle using Clinpro Prophy Paste, 3MESPE abrasive paste; tooth shades and the dominant color shade were determined using the VITAPAN Classical scale. Conducted macro insulation from moisture using cotton rolls. Sol.Ultracaini infiltration anesthesia was performed - 1.7 ml. The cavity is prepared intermittently with a contact time of 2-3 s using a diamond bur with an average grain size of 120 μm and water cooling at a water temperature of 37 ° C and with a feed rate of 70 ml / min. The drug treatment of the cavity is carried out with a 2% aqueous solution of chlorhexidine bigluconate, after which the bonding system Adper Single Bond 2, 3M ESPE is applied. Layer-by-layer application of nanofilled pasty composites preheated to a temperature of 45 ° C is carried out, at the same time, an adaptation layer is formed at the bottom of the defect cavity by applying a nanofilled composite Filtek Ultimate, 3M ESPE, dentin is formed from dentin shades of the nanofilled composite material Filtek Ultimate, 3M ESPE depending on the dentin colors of the adjacent teeth to the enamel-dentin border form the transparent part of the incisal edge by applying Filtek Ultimate nanofilled composite material, 3M ESPE transparent shades, restore the enamel surface from the vestibular and oral sides of the tooth crown with an enamel shade of the nanofilled composite material Filtek Ultimate, 3M ESPE, after which the Elipar S10, 3M ESPE lamp is photopolymerized and the fillings are polished and sanded, and a thick layer of glycerin is applied to the restored enamel surface before photopolymerization 1-2 mm using a brush with artificial fiber. Recommendations are given.

After six months of follow-up, there were no complaints. Upon examination, the restoration is fully preserved, the marginal fit of the seal is not broken.

Example 3

Patient N., 35 years old. The diagnosis is increased tooth abrasion (I degree, generalized type, K03.0), average tooth decay 2.7 (Black class I, K02.1).

Hygienic preparation was carried out, the tooth surface was cleaned of plaque and tooth pellicle using Clinpro Prophy Paste, 3MESPE abrasive paste; tooth shades and the dominant color shade were determined using the VITAPAN Classical scale. Conducted macro insulation from moisture using cotton rolls. The preparation of the carious cavity of the tooth is carried out intermittently with a contact time of 2-3 s using a diamond bur with an average grain size of 50 μm and water cooling at a water temperature of 37 ° C and with a flow rate of 60 ml / min. The drug treatment of the cavity is carried out with a 2% aqueous solution of chlorhexidine bigluconate, after which the bonding system Adper Single Bond 2, 3M ESPE is applied. Layer-by-layer application of nanofilled pasty composites preheated to a temperature of 45 ° C is carried out, at the same time, an adaptation layer is formed at the bottom of the defect cavity by applying a nanofilled composite Filtek Ultimate, 3M ESPE, dentin is formed from dentin shades of the nanofilled composite material Filtek Ultimate, 3M ESPE depending on the dentin colors of the adjacent teeth to the enamel-dentin border form the transparent part of the incisal edge by applying Filtek Ultimate nanofilled composite material, 3M ESPE transparent shades, restore the enamel surface from the vestibular and oral sides of the tooth crown with an enamel shade of the nanofilled composite material Filtek Ultimate, 3M ESPE, after which the Elipar S10, 3M ESPE lamp is photopolymerized and the fillings are polished and sanded, and a thick layer of glycerin is applied to the restored enamel surface before photopolymerization 1-2 mm using a brush with artificial fiber. Recommendations are given.

After four months of follow-up, there were no complaints. Upon examination, the restoration is fully preserved, the marginal fit of the seal is not broken.

Example 4

Patient A., 29 years old. The diagnosis is increased tooth abrasion (I degree, generalized type, K03.0), deep tooth decay 4.5 (Black class II, K04.0).

Hygienic preparation was carried out, the tooth surface was cleaned of plaque and tooth pellicle using Clinpro Prophy Paste, 3MESPE abrasive paste; tooth shades and the dominant color shade were determined using the VITAPAN Classical scale. Conducted macro insulation from moisture using cotton rolls. Sol.Ultracaini torus anesthesia was performed - 1.7 ml. The cavity is prepared intermittently with a contact time of 2-3 s using a diamond bur with an average grain size of 100 μm and water cooling at a water temperature of 37 ° C and with a flow rate of 50 ml / min. The drug treatment of the cavity is carried out with a 2% aqueous solution of chlorhexidine bigluconate, after which the bonding system Adper Single Bond 2, 3M ESPE is applied. Layer-by-layer application of nanofilled pasty composites preheated to a temperature of 45 ° C is carried out, at the same time, an adaptation layer is formed at the bottom of the defect cavity by applying a nanofilled composite Filtek Ultimate, 3M ESPE, dentin is formed from dentin shades of the nanofilled composite material Filtek Ultimate, 3M ESPE depending on the dentin colors of the adjacent teeth to the enamel-dentin border form the transparent part of the incisal edge by applying Filtek Ultimate nanofilled composite material, 3M ESPE transparent shades, restore the enamel surface from the vestibular and oral sides of the tooth crown with an enamel shade of the nanofilled composite material Filtek Ultimate, 3M ESPE, after which the Elipar S10, 3M ESPE lamp is photopolymerized and the fillings are polished and sanded, and a thick layer of glycerin is applied to the restored enamel surface before photopolymerization 1-2 mm using a brush with artificial fiber. Recommendations are given.

After six months of follow-up, there were no complaints. Upon examination, the restoration is fully preserved, the marginal fit of the seal is not broken.

Example 5

Patient S., 30 years old. The diagnosis is increased tooth abrasion (I degree, generalized type, K03.0), average tooth decay 2.6 (Black class II, K02.1).

Hygienic preparation was carried out, the tooth surface was cleaned of plaque and tooth pellicle using Clinpro Prophy Paste, 3MESPE abrasive paste; tooth shades and the dominant color shade were determined using the VITAPAN Classical scale. Conducted macro insulation from moisture using cotton rolls. The cavity is prepared intermittently with a contact time of 2–3 s using a diamond bur with an average grain size of 50 μm and water cooling at a water temperature of 32 ° C and with a flow rate of 50 ml / min. The drug treatment of the cavity is carried out with a 2% aqueous solution of chlorhexidine bigluconate, after which the bonding system Adper Single Bond 2, 3M ESPE is applied. Layer-by-layer application of nanofilled pasty composites preheated to a temperature of 40 ° C is carried out, at the same time, an adaptation layer is formed at the bottom of the defect cavity by applying a nanofilled composite Filtek Ultimate, 3M ESPE, dentin is formed from the dentin shades of the nanofilled composite material Filtek Ultimate, 3M ESPE depending on the dentin colors of the adjacent teeth to the enamel-dentin border form the transparent part of the incisal edge by applying Filtek Ultimate nanofilled composite material, 3M ESPE transparent shades, restore the enamel surface from the vestibular and oral sides of the tooth crown with an enamel shade of the nanofilled composite material Filtek Ultimate, 3M ESPE, after which the Elipar S10, 3M ESPE lamp is photopolymerized and the fillings are polished and sanded, and a thick layer of glycerin is applied to the restored enamel surface before photopolymerization 1-2 mm using a brush with artificial fiber. Recommendations are given.

After three months of follow-up, there were no complaints. Upon examination, the restoration is fully preserved, the marginal fit of the seal is not broken.

Thus, the authors propose a method of tooth restoration with increased abrasion, providing high strength of the restored surface along with the safety and painlessness of treatment.

Claims (2)

1. A method of tooth restoration with increased abrasion, including hygienic preparation, cleaning of the tooth surface, determination of tooth shades and the dominant color shade, moisture isolation, infiltration or conduction anesthesia, if necessary, preparation of the cavity with a diamond bur on a turbine tip using water cooling, drug treatment of the carious cavity with a disinfectant solution, applying a bonding system, the formation of an adaptation layer at the bottom of the cavity defect and by applying a nanofilled composite, photopolymerization and polishing, characterized in that the preparation is carried out intermittently with a contact time of 2-3 seconds using a diamond bur with an average grain size of 50-120 microns and water cooling at a water temperature of 32-37 ° C and at a speed at a flow rate of 50-70 ml / min, a pasty composite preheated to 40-45 ° C is used as a nanofilled composite, and pasty composites preheated to 40-45 ° C are also used for phased application, and before photopolymerization Using a brush with an artificial fiber, a layer of glycerol is applied on a restored enamel surface with a thickness of 1-2 mm. 2. The method according to p. 1, characterized in that the drug treatment of the carious cavity is carried out with a 2% aqueous solution of chlorhexidine bigluconate.