RU2123820C1 - Fixed denture and method of its manufacturing - Google Patents

Abstract

FIELD: dental prosthetics. SUBSTANCE: fixed denture contains metal carcass, continuous porcelain ground layer, porous porcelain ground layer, polymer composite interlayer, and plastic face. Denture manufacturing method includes manufacturing metal carcass and applying two ground layers, the first one consisting of porcelain material and the second one of porcelain-polymer mixture at ratio from 60:40 to 50:50. Ground layers are successive baked and resulting porous surface is covered with organosilicon compound layer. Further, polymerization at common temperature and pressure is carried out. Plastic face obtained after solidification of composite is mechanically treated. EFFECT: increased service time of denture and full-value esthetic restoration of dental defect attained. 2 cl, 2 dwg

Description

 The invention relates to medicine, namely to dentures, and can be used in orthopedic dentistry.

 Known denture containing a metal frame and plastic lining, a layer of titanium-containing varnish, masking the transmission through the plastic of the metal frame.

The disadvantages of the known device:
- darkening of the plastic lining on its periphery due to the fragility of the lacquer coating and, as a result, the loss of aesthetic qualities after ≈ two years;
- the difficulty in selecting the shade of the plastic lining, due to the standard color of the varnish;
- insufficient adhesion of the plastic cladding to the frame and, as a result, the prosthesis service life limited by 3-4 years:
A known method of manufacturing a fixed dentures comprising obtaining a metal frame and its processing, obtaining on its surface an oxide film, facing the frame and finishing the lining.

The specified method is traditional in relation to the number of operations that are the components of the process of manufacturing metal-ceramic dentures and leads to the manufacture of a traditional product, the disadvantages of which include:
- the hardness of the porcelain lining, exceeding the hardness of the tooth enamel;
- high cost of facing.

 The purpose of the present invention is to increase the service life of a fixed denture and achieve a full aesthetic restoration of tooth defects (abutment or decayed tooth).

 This goal is achieved by the fact that a fixed denture with a metal frame and plastic cladding contains a double porcelain layer and a composite layer between the primer and plastic layers, as well as the fact that in the method of manufacturing a fixed denture containing a metal frame and its processing, obtaining oxide film, applying the porcelain mass and its firing, finishing and polishing the prosthesis, after obtaining the oxide film, the first porcelain is applied to the surface of the metal frame layer and burn it, then a second soil layer containing porcelain and polished powders in the ratio of 60:40 - 50:50, respectively, and burn it, after which a composition containing an organosilicon monomer polymerized under ordinary conditions is applied to the obtained porous surface ( room temperature and pressure).

 A study of the level and technology found that non-removable dentures with a metal frame and plastic cladding containing solid and porous porcelain layers and a layer of composite between the porous layer and the plastic cladding are not detected.

 Known fixed denture containing a metal frame coated with a titanium-containing varnish, and a plastic lining.

 However, a comparison of the properties of the combination of features of the known device and the claimed one shows that in the known device the plastic cladding is attached directly to the metal frame, and in the claimed one through the intermediate porcelain-plastic layers (the 1st layer is solid porcelain, the 2nd layer is porous porcelain, 3 -th layer - a polymer composition based on organosilicon compounds, the so-called composite), performing the functions of both fasteners and agents masking the metal frame.

 In the known device, the color masking of the metal frame is carried out using a titanium-containing varnish capable of partially dissolving under the influence of the operating environment over time. Saliva, food have aggressive properties, due to the presence of weak organic acids and bases, enzymes.

 Therefore, over time, the prosthesis loses its aesthetic properties, due to the transmission of metal through a layer of plastic.

 In the inventive device, two soil layers reliably hide the metal frame, and their chemical resistance to the operating environment is obvious.

 In the known device, the plastic is attached to a metal frame. At the same time, as practice shows, the film of camouflage varnish does not affect the fastening strength, that is, adhesive properties are not detected. Local dissolution of varnish can only have a negative effect on the strength of the metal to plastic.

 Currently, as is widely known, there are no sufficiently reliable methods of fixing plastic to metal using an adhesive. Devices containing this kind of combination of plastic and metal do not, under their intended purpose, experience loads characterized by significant shear stress. If it is necessary to create a sufficiently strong connection of metal and plastic, fasteners are used. In the transition to such designs as, in our case, a denture, the use of attachment types distributed in the technique is not possible, because along with the strength of the denture, aesthetic requirements are made.

 Increases in the strength of the prosthesis are achieved by creating undercut zones where the facing material flows and after polymerization is fixed in these areas. The bond strength is increased by preventing the lining from moving in the direction of the shear stress.

 To create zones of undercutting, the metal frame is cast with protrusions towards the cladding - with retention devices (for example, in the form of spheres with a truncated base).

 However, such a solution to the problem, as practice shows, imposes significant restrictions on the life of the prosthesis, since micro-leakage of growth fluid is possible around the periphery of the frame, capable of dissolving the varnish film over time.

 As a result, the metal-plastic denture loses its aesthetic properties, on the one hand, due to exposure and transmission through the lining of the metal frame and, on the other hand, due to the peripheral coloring of the prosthesis with food coloring.

 In the inventive device, the metal frame is reliably masked by two primer layers, and the plastic is fixed to the porous porcelain layer through the composite layer.

 The strength of the combination of plastic and porous porcelain layer is due to two factors. The fastening is effective due to the developed surface of the layer and, on the other hand, in this case there is a rule known in chemistry: like connects to like (porcelain, like plastic, is polymer, but natural). Along with the capillary effect, the forces of intermolecular interaction during the polymerization process occur directly on the porcelain surface due to the formation of donor-acceptor coordination bonds.

 In the known method of manufacturing a fixed denture after receiving the oxide film, a porcelain mass is applied to the metal frame and burned. The following is the finishing and polishing of the prosthesis.

 In the inventive method, after obtaining an oxide film, a first layer of porcelain-based ground mass is applied to the metal frame and burned, then a second layer of ground mass containing porcelain and plastic in a weight ratio of 60:40 - 50:50, and the creation of the lining is preceded by the creation of a composite layer .

 Therefore, the claimed device and method of its manufacture meets the criterion of "significant differences".

 The invention is illustrated by drawings (Fig. 1 and a diagram (Fig. 2).

 The drawing shows a fixed denture in section (Fig. 1).

 The abutment tooth 1 is covered with a metal frame 2 of the prosthesis, on which a double layer is applied 3. Next is a layer of the composite 4 t plastic lining 5.

In FIG. Figure 2 shows a diagram of changes in the shear strength (σ, kg / cm ² ) of a joint depending on the materials to be bonded.

 1 - adhesion force (shear strength of the adhesive joint) of a porcelain soil layer prepared on the basis of a mixture of porcelain and plastic with Sinma facing plastic.

 2 - the adhesion force of a porcelain soil layer, prepared on the basis of a mixture of porcelain and plastic, with the Epacryl 02 composite.

 3 - the adhesion force of a porcelain primer layer, manufactured in the usual way without plastic powder, with the Evicrol composite.

 4 - the adhesion force of the porcelain soil layer, prepared on the basis of a mixture of porcelain and plastic, with the composite "Evicrol".

 5 - the adhesion force of the composite "Evikrol" with plastic "Sinma".

 The experiments were carried out after 24 hours of keeping glued images in water.

A significant difference in the results between groups 1 and 2 - t ^* = 4.39, p ^* = 0.001, - indicates that the composite is more firmly connected to the ground porcelain layer containing plastic powder than plastic.

 A significant difference in the results between groups 3 and 4 - t = 5.7, p = 0.001, - indicates that the composite is more firmly connected to the soil layer in the presence of plastic powder in it.

A significant difference in the results between groups 1 and 5 - t = 2.96, p = 0.05, - indicates that the adhesion force of the plastic to the composite is significantly higher than to the ground porcelain layer containing plastic powder
^* t - student criterion
p is the scattering factor
Plastic cladding is the most durable in the case of preliminary applying to the metal substrate a ground porcelain layer containing plastic powder (which, when fired, gives a porous porcelain surface), and a layer of composite, which provides a reliable connection with both the porous surface of the porcelain and the plastic cladding.

 The method is as follows.

 The tooth is dissected and a collapsible model is made from the prints, with which a metal frame is obtained by casting. This is followed by sandblasting the frame and obtaining an oxide film. Then, the first soil porcelain layer is applied to the frame and its second soil layer is fired, containing porcelain and polymer powders in a weight ratio of 60:40 - 50:50 and fired. An organosilicon monomer is applied to the obtained porous surface and kept at room temperature and pressure until it hardens.

 Then carry out modeling and obtaining a plastic cladding with its subsequent decoration and polishing.

 An example implementation of a method of manufacturing a fixed denture.

The tooth is steamed, impressions are made, a collapsible model is made, central occlusion is determined and models are compared in this position. Then sawed and get a model of the stump of the prepared tooth, on which the insulating layers are applied. A wax or plastic cap is obtained by a tightening method, a metal frame is modeled and obtained by casting. Fit a metal frame. Within 1 min at an air pressure in the compressed air line of 5 to 7 atm, the metal frame is mechanically treated in a sandblasting apparatus. Next, the metal frame is treated with a 20-25% solution of boric anhydride in methyl alcohol, after which the frame is burned for 5 minutes at atmospheric pressure and a temperature of 1000 - 1050 ^o C to obtain a uniform dark green oxide film. Then put the first layer of porcelain mass on a metal frame and carry out firing in a mode depending on the type of porcelain mass. Then a second soil layer is applied, for the preparation of which a mixture of a polymer powder, for example, polymethyl methacrylate (1.0 g), and porcelain powder (1.0 g) is used. Repeat the firing. Under the usual conditions (room temperature and pressure), a composite film, for example, of the Evicrol brand, is obtained on the obtained surface. Next, they model and obtain a plastic cladding, for example, from Sinma-M plastic in an express prepolymer at a pressure of 5 atm and a temperature of 120 ^o C for 25-30 minutes. After finishing and polishing the prosthesis, it is fixed in the oral cavity.

 The invention can be implemented in a dental clinic equipped with standard medical equipment and having materials traditional in orthopedic practice in its arsenal.

 This allows us to conclude that the present invention meets the criterion of "industrial applicability" (applicability in the national economy.

Claims (2)

 1. A fixed denture comprising a metal frame and a plastic cladding, characterized in that between the metal frame and the plastic cladding there is a continuous porcelain primer layer and a layer of polymer composite.  2. A method of manufacturing a fixed dentures, including obtaining a metal frame and its processing, obtaining on its surface an oxide film, facing the frame and finishing the lining, characterized in that after receiving the oxide film on the surface of the frame put the first porcelain primer layer and burn it, then the second soil layer containing porcelain and polymer powders in a ratio of 60: 40 to 50: 50, respectively, and burn it, after which organosilicon monomer is applied to the obtained porous surface polymerizing at room temperature and pressure.

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