UA52225A - Method for polymerization of photocomposite materials for filling caries cavity and device for its realization - Google Patents

Abstract

The method for polymerization of the photocomposite materials for filling the caries cavity comprises the insertion of the photocomposite filling material at the angle to the walls and the bottom of the caries cavity followed by the polymerization of the material through the wall of the filled cavity. At the same time the polymerization of the filling material is performed from the side of the masticatory surface of the cavity with the light beam dividing into two mutually perpendicular directions. The device for polymerization of the photocomposite materials for filling the caries cavity comprises the electronic control and indication unit, the heat withdrawal system, the source of the light, the optical filter, and the light-guide. The latter is equipped with the divider of the light beam output and in its turn consists of two terminal light-guides arranged at an angle to one another.

Description

Description of the invention

The invention relates to medicine, and more precisely, dentistry, and can be used for the polymerization of 2 photocomposite materials when filling carious cavities.

There is a well-known method of polymerization of photocomposite materials when filling carious cavities using the phenomenon of "directed shrinkage of the filling material", chosen by us as a prototype

Borysenko A.V. Composite sealing materials. - M.: Book Plus, 1999. -1756.|.

All dental filling materials, as a rule, have polymerization shrinkage (reduction in volume 70 of the material after the end of the hardening process), which in materials with a light polymerization activator is directed toward the light of the polymerization lamp. In that case, if you carry out "direct" polymerization of the material in the carious cavity (irradiate the material by directing light directly at it), the polymerization shrinkage will be directed away from the walls of the carious cavity, and microcracks will form between the tooth wall and the filling material. To reduce the polymerization shrinkage of dental materials, the 12th method of "directed" polymerization is used, which consists in irradiating the material first through the wall of the carious cavity (through the wall of the tooth), and then directly. Thus, the prototype method is intended for the polymerization of photocomposite materials with significant shrinkage, since "direct" polymerization of the material can lead to separation of the material from the walls of the carious cavity.

The prototype method is used as follows. After preliminary preparation of the carious cavity (preparation of the carious defect, medical treatment, isolation from saliva, etching of enamel and dentin, removal of the etching, drying of the cavity, application of the adhesive system in accordance with the instructions of the company - the manufacturer), the filling photocomposite material is applied in separate portions with a thickness of 2 mm to Zmm ( in accordance with the selected composite material and recommendations for its use). At the same time, several layers of composite material corresponding to the level of dentine and tooth enamel are formed. The first portion of the material is placed obliquely to the vestibular or oral wall and the bottom of the carious cavity and is polymerized using a device for polymerization of photocomposite materials that emits a light stream with a wavelength of 450-B00nm and the power of this stream is at least 300mW/cm? (Petrushenko D.K. Dental photopolymerizers //News of dentistry. - 1998.- Mo 1.-S.-52-53). The light guide of the device, which directs the light to the filling material, is placed in such a way that the emitted light flow also passes through the hard tissues of the tooth, keeping the direction of the light from the neck of the tooth to "glue" the material to the bottom of the cavity. Each subsequent portion of the material is applied to the opposite wall of the carious cavity and polymerized in a similar way, simulating the anatomical shape of the dentin of the occlusal surface. see

After "directed" polymerization through the tooth wall of each portion of the composite material, He polymerization of the entire surface of the seal from the occlusal surface is carried out for 40 seconds. Next, the top of the enamel is restored in the same way. The work is completed by grinding and polishing the seal. at

However, the prototype has a number of shortcomings. When using it, it is possible to reduce the polymerization shrinkage of the seal, however, the shrinkage of even each portion of the material occurs unevenly - during the polymerization of the composite, the material layer of each portion that is farthest from the polymerization lamp shows more significant shrinkage than the opposite. In not all clinical cases, it is possible to carry out polymerization through the tooth wall and at the same time to regulate the polymerization shrinkage of the material, for example, when the vestibular or oral wall of the carious cavity is completely absent and when there are significant defects of the teeth, as well as in the rostral area of carious cavities, located on the contact surfaces of molars and premolars (Class 2 according to Vlek), incisors and canines (Class C and Class 4 according to

In drag). In carious cavities located in the vertebral region of all groups of teeth (class 5 according to Vlek), it is practically impossible, taking into account the thickness of the hard tissues of the tooth, to carry out "directed" polymerization of sl 395 material.

When using this method, the sequential polymerization of the material from the vestibular, oral, and co-occlusal surfaces dramatically increases the duration of the restoration. A well-known device for polymerization of photocomposite materials when filling carious cavities is the dental photopolymerizer Tgapziikh (Kyigeg), chosen by us as a prototype (Instructions for using 50 photopolymerizer Tgapziikh (Kyigeg), Petrushenko D.K. Dental photopolymerizers // News of dentists. - 1998. - Mo. 1. - S. - 52 - 53). The photopolymerizer includes a housing that consists of an electronic control and display unit, a heat removal system (fan), a radiation source - a halogen lamp with a 100W reflector, an optical light filter that passes the entire light stream in the wave range of 450 - 50 Ohms, and a fiber optic cable with a diameter mm The case is connected to the power source (2208) using a cord with a plug. in. The prototype device can be used for "directed" polymerization of photocomposite materials that have significant shrinkage during polymerization. However, it should be emphasized that a certain intensity of the light flux (not lower than 300mW/cm2) is necessary for complete polymerization of the photocomposite sealing material. During the "directed" polymerization of the material, the intensity of the light flux when passing through the hard tissues of the tooth decreases sharply depending on the thickness of the tooth tissues: the thicker the layer of enamel and dentin, the lower the intensity of the light flux at the border of the hard tissues of the tooth and a portion of the photocomposite material. The intensity of the light flux when passing through the layer of the already polymerized portion of the photocomposite material also decreases. Thus, in the case when the intensity of the light flux is not sufficient due to significant losses when it passes through a layer of hard tissues, the previous portions of the composite material or the layer of hard tissues with previous portions of the composite material will not reach maximum polymerization, the most distant layer of the material from this polymerization device .

The invention is based on the task of ensuring high-quality polymerization of the material in the event of minimal shrinkage of the material layer and shortening the polymerization time due to the redistribution of the light flux (polymerization of the material from two sides at the same time) by using a special device for polymerization of photocomposite materials when filling carious cavities.

The task is solved by the fact that the polymerization of a portion of the filling material is carried out simultaneously from two mutually perpendicular sides (vestibular and occlusal) by using a 7/0 device for polymerization of photocomposite materials when filling carious cavities, in which the light guide is equipped with a light flux power divider and has, in its turn, two final light guides that are located at an angle to each other.

The novelty of the method consists in the simultaneous influence of the light flux of the photopolymerization lamp from two mutually perpendicular sides, which ensures the simultaneous conduct of two types of polymerization - 7/5 "directed" and "direct", which allows reducing the polymerization shrinkage of each portion of the material due to more uniform irradiation of portions.

The essence of the method is explained by drawings. Fig. 1 shows the location of light guides in relation to the carious cavity, where 1 - carious cavity, 2 - portion of material, C, 4 - light guides.

The method is carried out as follows (Fig. 1). After selecting the colors of the dentin and enamel, the carious cavity (1) is prepared. Next, the cavity is medicated with weak solutions of antiseptics and isolated from saliva, after which the enamel and dentin are etched with 3795 orthophosphoric acid gel for 15 seconds, the etching is removed with a jet of water and the cavity is dried with an air jet. After that, an adhesive system is applied (according to the instructions of the company - the manufacturer) and the sealing photocomposite material is applied in separate portions with a thickness of 2mm to 3mm (according to the selected composite material and recommendations for its use). The first portion of the material (2) is placed obliquely to the vestibular or oral wall and the bottom of the carious cavity and is polymerized with the help of two light guides, which are placed from the vestibular (4) and occlusal (3) sides of the carious cavity. At the same time, the light flux of the polymerization lamp of the first light guide will pass through the hard tissues of the tooth, keeping the direction of the light from the neck of the tooth to "glue" a portion of the material to the bottom of the cavity, the light of the second light guide provides a direct

From the polymerization of the material. Next, the following portions of the material are introduced and polymerized in a similar way. After polymerization of the entire seal, grinding and polishing are carried out. with

To implement this method of polymerization, the device of Fig. 2 is used. The device for polymerization of photocomposite materials when filling carious cavities consists of an electronic control and display unit (1), a heat removal system (fan) (2), a radiation source (a halogen lamp with a 150W reflector) (3), an optical light filter (4), which transmits the wave range of 450 - B50 Ohm from the entire light flux, the light guide (5), which is equipped with a light flow power divider (b), and has, in turn, two final light guides (7, 8), which are located at an angle to each other.

Thus, our proposed method of polymerization of photocomposite materials when filling carious cavities and the device for its implementation allows polymerization of photocomposite "70 material using two light guides, while the intensity of the light flux is redistributed according to c due to the simultaneous conduct of two types of polymerization - "directed" and "direct". "Directed" polymerization. provides "gluing" of a portion of the material to the wall of the tooth, and "direct" - polymerization of the opposite from the wall and? tooth part of the portion, which allows to reduce the polymerization shrinkage of each portion of the material due to more uniform irradiation of portions of the composite material.

The use of this method of polymerization of material simultaneously from the vestibular or oral and occlusal surfaces significantly reduces the duration of the restoration. If the polymerization of one layer of dentin in the carious cavity on the chewing surface of the first molar (class 1 according to Vlek) according to the prototype method requires an average of about 160 seconds (on the Z portion of the material - 120 seconds of "directed" polymerization through the tooth wall and 40 seconds of " "direct" polymerization), then according to the proposed method, the duration of work is reduced by 60 seconds. where In some clinical cases (significant tooth defects, gingival areas of carious cavities of 2, 3, and 4 sp classes), the proposed method makes it possible to choose the polymerization mode more flexibly, taking into account all clinical factors and recommendations of companies producing photocomposite materials.

Claims (2)

The formula of the invention of R 1. The method of polymerization of photocomposite materials in the filling of carious cavities, which includes introducing the photocomposite filling material obliquely to the wall of the bottom of the carious cavity, into the polymerization of the filling material through the wall of the carious cavity to which it adjoins, which differs in that the polymerization of the filling material is simultaneously carried out with chewing surface of the carious cavity by dividing the light flux in two mutually perpendicular directions. 2. A device for the polymerization of photocomposite materials when filling carious cavities, which consists of an electronic control and display unit, a heat removal system, a radiation source, 65 optical light filters, a light guide, which is characterized by the fact that the light guide is equipped with a light flow power divider and has, in in turn, two end light guides, which are located at an angle to each other. Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2002, M 12, 15.12.2002. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. "IS) sch s s IS c) shi s ;" 1 name) name) with 50 sl 60 b5