UA59119A - Device for polymerizing photocomposites upon filling caries cavities - Google Patents

Abstract

The device for polymerizing the photocomposites upon filling the caries cavities comprises two electronic control and indication units, two systems of heat withdrawal, two sources of the light, two optic filters, two lightguides fixed one to another with the aid of fixing device. One of the lightguides contains the light filter providing for varying the intensity of the light flux. The angle between the lightguides is variable.

Description

Description of the invention

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

A well-known device for polymerization of photocomposite materials when filling carious cavities is the dental Tgapzitsykh (Kyigeg) photopolymerizer, chosen by us as a prototype (Instructions for using the Tgapziykh (Kyigeg) photopolymerizer, Petrushenko D.K. Stomatological photopolymerizer! // Stomatological News. - 1998. - Mo1. - P.-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 450-500nm wave range from the entire light stream, and a fiber optic cable diameter Zmm. The case is connected to the power source (2208) using a cord with a plug.

The prototype device can be used for the polymerization of photocomposite materials, the hardening process of which takes place under the influence of a light flux with an intensity of at least 30ΩmW/cm 2 and a wavelength of 450-50О0nm, as well as for "directed" polymerization of photocomposite materials that have significant shrinkage during polymerization.

However, the prototype has a number of shortcomings. The process of shrinkage of photocomposite materials (reduction in volume during curing) is directed towards the light of the polymerization lamp. When carrying out "direct" polymerization of these materials in the carious cavity (irradiation of the material directly), polymerization shrinkage will be directed away from the walls of the carious cavity. If the photopolymerizer emits a light flux of high power, the polymerization process occurs very quickly, causing high stresses in the photocomposite material, which can lead to cracking of the hard tissues of the tooth, a violation of the marginal fit of the coating material, and the formation of microcracks. 29 In order to reduce the shrinkage of photocomposite materials, the method of "directed" polymerization is used, which consists in irradiating the material first through the wall of the carious cavity (tooth tissue). But when using the prototype, the thickness of the hard tissues of the tooth at the bottom and walls of the carious cavity, which significantly reduces the intensity of the light flux, is not taken into account. In addition, it is not possible in all clinical cases to carry out polymerization through the tooth wall and at the same time to regulate the polymerization shrinkage of the material, Ф for example, when the vestibular or oral wall of the carious cavity is completely or partially absent, when filling carious cavities located in the cervical region of the tooth, and also with large defects of the teeth.

The basis of the invention is the task of ensuring high-quality polymerization of the material, taking into account the losses - the intensity of the light flux when the light passes through the hard tissues of the tooth with the occurrence of minimal (Ge) shrinkage of the material layer due to the redistribution of the total intensity of the light flux through the use of a device for polymerization of photocomposite materials when filling carious cavities , about a special cell for a light filter.

The task is solved by using a device for polymerization of photocomposite materials when filling carious cavities, which includes two electronic control and display units, two heat removal systems, two radiation sources, two optical light filters, two light guides, which is distinguished by the fact that light guides are fixed to each other at different angles with the help of a fixator, in addition, one of the light guides of the device contains a cell for a light filter, which ensures a given change in the intensity of the light flow.

The novelty consists in the simultaneous influence of the light flux from the device for polymerization of photocomposite materials when sealing carious cavities from two sides, taking into account the loss of the intensity of the light sl 395 flux when passing through the hard tissues of the tooth, the intensity of the light flux on the young of one of the light guides is made with the possibility of changing due to a light filter , the location of the light guides is made with (Ce) the possibility of changing the angle between them. - The essence of the device is explained by the drawings. Fig. 1 shows the device proposed by us, Fig. 2 shows a schematic version of its use. - 70 The device for polymerization of photocomposite materials when filling carious cavities includes two electronic control and display units 1, two heat removal systems (fans) 2, two radiation sources (halogen incandescent lamps with a reflector with a power of 150 W) 3, two optical light filters that the wave range of 450-50 Ohm 4, two light guides 5 are passed through the entire light stream. The light guides are fixed to each other at different angles with the help of a fixator 7. One of the light guides of the device contains 59 cells for a light filter b, which ensures a given change in the intensity of the light stream. As a the light filter uses a metal mesh with a defined size of links. Depending on the size of the links, it is possible to adjust the decrease in the intensity of the light flux.

For "directed" polymerization of the material with a tooth tissue thickness of 1 mm, the intensity of the light flux at the end of one of the light guides of the device is bOOmW/cm (taking into account the loss of the intensity of the light flux 60 when passing through the hard tissue of the tooth, which is 320 mW/cm 2-5396) (A .A.Udod, A.B.Moroz.Measurement of the intensity of the light flux when the ego passes through a sample of hard tooth tissues//Visnyk stomatologii. - 2000. - Mo4(28). -P.14-17.1. The intensity of the light flux at the end of the second light guide to ensure "direct" polymerization of the material is reduced due to the cell with variable light filters and is 65,250 mW/cm2 (depending on the selected light filter). The total intensity of the light flux (520 mW/cm?), which is necessary for complete polymerization of the material, consists of the intensity light flux of the first and second polymerizer.

The device can be used in this way (Fig. 2). After selecting the colors of dentin and enamel, the carious cavity is prepared 1. Next, the cavity is medicated with weak antiseptic solutions 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 photo composite material is applied in separate portions with a thickness of 2 mm to 3 mm (according to the selected composite material and recommendations for its use). The first portion of material 2 is placed obliquely to 70 of the vestibular or oral wall and the bottom of the carious cavity and polymerized. One of the light guides of the C device is placed from the vestibular wall of the carious cavity, while the light flux of the polymerization lamp passes through the hard tissues of the tooth, keeping the direction of the light from the neck of the tooth for gluing the material to the bottom of the cavity. The second light guide of the device 4 with the cell 5 and the light filter 6 fixed on it (with a specified decrease in light intensity) is placed from the occlusive surface, bringing it as close as possible 7/5 to the surface of the portion of the material. Fix the optical fibers with the help of the fixator 7 perpendicular to each other.

Next, the following portions of the material are introduced and polymerized in a similar way. After polymerization of the entire filling, after removing the light guides from the oral cavity, grinding and polishing of the filling is carried out.

Thus, the device proposed by us allows the polymerization of a photocomposite material using two light guides that emit light streams of different intensities (with 2o taking into account the loss of light when passing through the hard tissues of the tooth during "directed" polymerization), but the total intensity of these light streams is sufficient for ensuring high-quality polymerization.

When using this device, the duration of restoration work is significantly reduced (by 13-12).

In some clinical cases, taking into account the thickness of the walls of the carious cavity, the proposed device for polymerization makes it possible to more flexibly select the mode of polymerization, taking into account all clinical factors and recommendations of companies producing photocomposite materials. "

Claims (3)

The formula of the invention 1. A device for polymerization of photocomposite materials when filling carious cavities, which "- includes two electronic control and display units, two heat removal systems, two radiation sources, "- two optical light filters, two light guides, which is distinguished by the fact that the light guides are fixed one to each other at different angles with the help of a clamp, in addition, one of the light guides of the device contains a cell for /-F) 35 light filter, which ensures a given change in the intensity of the light flux. yu 2. The device for polymerization of photocomposite materials when filling carious cavities according to claim 1, which differs in that the intensity of the light flux at the end of one of the light guides is made with the possibility of change due to a light filter. 3. A device for polymerization of photocomposite materials when filling carious cavities according to claim 1, 2, "which differs in that the location of the light guides is made with the possibility of changing the angle between them. with c ;" 1 se) - - 50 iChe) P 60 b5