RU2547581C1 - Dental prosthesis and method for making it - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: in the presented dental prosthesis comprising a polymer frame having a lining coating, the lining coating consists of an intermediate diffuse layer and an upper lining coating, the upper lining coating is made of colourless metal oxides specified in a group of: zirconium oxide, aluminium oxide, titanium oxide.

EFFECT: higher life time, lower porosity and surface finish, risk of allergic reaction and hydrophilic nature of the dental prosthesis.

3 cl

Description

The invention relates to medicine, namely to orthopedic dentistry, and can be used in the manufacture of fully removable, partially removable and non-removable dentures with high biological compatibility and stability with respect to living tissues, increased prosthesis life, which contribute to an improvement in the quality of life and social rehabilitation of patients using fixed dentures.

Known myodynamic (soft) full denture, consisting of several layers interconnected, combined into a single integral product, has four layers interconnected by chemical and mechanical bonds (RF Patent No. 2384308, IPC АС 13/00, prior. From 04/01/2008, published March 20, 2010).

Known removable denture, which includes an elastic lining and a hard basis with artificial teeth, and the hard basis is made of a polyurethane composition, and a method for its manufacture. (RF patent N 2396937, IPC A61K 6/09, A61C 13/007, A61C 13/07 prior. 06/20/2009, publ. 08/20/2010).

Known removable dentures made in the form of a basis of a composition based on a polymeric material and dye (RF Patent N 92324, IPC A61C 13/107, prior, from 09.11.2009, publ. 20.03.2010).

A disadvantage of known dentures is their relatively low durability.

The closest is a non-removable combined denture containing a polyurethane frame with a facing coating applied to it, while the frame is made of a polyurethane composition containing isocyanate and polyhydric alcohol, where a mixture of pseudo-prepolymers based on oligoesterdiol containing 30-70 wt. Part 4,4-diphenylmethanediisocyanate, and using pseudo-polymers containing NCO-groups in the amount of 15.0-25.0%, and as a polyhydric alcohol, a mixture based on oligotriol containing 15-40 wt.h. oligotetrol, while oligomers with a molecular weight of 200 to 500 are used in a mixture of oligotriol and oligotetrol with a ratio of components, parts by weight: said pseudophoropolymer - 100, said polyhydric alcohol - 300-3000. A method for manufacturing a fixed fixed denture with a framework of the above polyurethane composition is also proposed (RF Patent N 2491048, IPC A61K 6/09, A61C 13/00, prior dated 02.28.2011, published on 08.27.2013 - prototype).

The prosthesis obtained by the known method has low durability, high porosity, roughness and hydrophilicity, and can also cause allergic reactions.

In addition, the known fixed denture during its use has the following disadvantages:

- does not provide a high-quality non-removable denture with high properties for biological compatibility and biological stability in relation to the living tissues of the patient,

- does not always provide a sufficient degree of aesthetic imitation of the manufactured denture with its closest approximation to the natural look,

- insufficiently provides an increase in the life of the manufactured fixed denture,

- insufficiently provides an improvement in the quality of life and social rehabilitation of a patient using a fixed denture.

The technical problem to which the invention is directed is to increase durability, reduce surface roughness and porosity, reduce the risk of allergic reactions and hydrophilicity of the denture while maintaining high aesthetics, and improve hygiene of the denture.

The stated technical problem is solved in that in a denture containing a polymer frame with a facing coating applied according to the invention, the facing coating consists of an intermediate diffusion layer and the upper facing layers, the facing coating is made of colorless metal oxides.

In addition, metal oxides selected from the group: zirconium oxide, alumina, titanium oxide are used as colorless metal oxides.

In addition, the prosthesis is made in the form of a single crown.

The stated technical problem is also solved by the fact that in the method of manufacturing a denture, which consists in manufacturing a prosthesis from a polymer composition and applying a coating on the denture, according to the invention, the surface of the denture is first cleaned and disinfected, the external surface of the denture is ionically cleaned, then the prosthesis is heated to a temperature of 25-150 ° C and a coating of colorless metal oxides is applied by ion-plasma or magnetron sputtering, forming when th intermediate diffusion layer.

In addition, metal oxides are selected from the group: zirconium oxide, alumina, titanium oxide.

The technical result consists in increasing durability, reducing porosity, surface roughness, the risk of allergic reactions and the hydrophilicity of the denture.

The method consists in first performing a preliminary cleaning and degreasing of the surface of the denture, after which the products are loaded into a vacuum ion-plasma or magnetron installation and ion cleaning of the outer surface of the denture is carried out. Then the prosthesis is heated to a temperature of 25-150 ° C and a coating is sprayed, consisting of colorless ceramic metal oxides. As colorless metal oxides, metal oxides selected from the group are used: zirconium oxide (ZrO ₂ ), aluminum oxide (Al ₂ O ₃ ), titanium oxide (TiO ₂ ). By heating the product, a diffusion polymer-ceramic layer is formed with a smooth increase in the concentration of ceramics from depth to surface, which significantly increases the adhesive strength of the coating. At the same time, a high esthetics of the dental coating is maintained.

An example of the application of the proposed method can be the process of coating a series of prostheses made of acrylic plastic.

Pre-clean and degrease the surface of the denture. The product is placed in a vacuum magnetron installation and create a vacuum of 2 · 10 ^-5 mm RT.article Perform ion cleaning at a mixing voltage of 1000 V, in argon, vacuum 5 · 10 ^-3 mm RT.article, time 15 minutes Then a ZrO ₂ coating of 6 μm thickness is sprayed (mixing voltage 0 V, in an oxygen environment, zirconium target, vacuum 5 · 10 ^-3 mm Hg, time 90 min). Moreover, according to the obtained experimental data, the thickness of the diffusion layer is up to 50 μm.

Compared with the prototype, the wear resistance of the coating is increased by 2.2 times, the roughness is reduced by 1.7 times, full hydrophobicity. Moreover, according to clinical trials, the denture fully complies with sanitary and hygienic requirements. The denture prior to sputtering had C2 color according to the standardized scale of shades of visual perception of tooth color; after sputtering, the color did not change.

A denture can be made using methods known in the art. Therefore, it meets the criterion of “industrial applicability”.

Using the proposed method provides a significant increase in durability, reducing surface roughness and porosity, the risk of allergic reactions and the hydrophilicity of the denture.

Claims (3)

1. A denture containing a polymer frame with a facing coating on it, characterized in that the facing coating consists of an intermediate diffusion layer and the upper facing layers, the facing coating is made of colorless metal oxides selected from the group: zirconia, alumina, oxide titanium. 2. A denture according to claim 1, characterized in that it is made in the form of a single crown. 3. A method of manufacturing a denture, which consists in manufacturing a prosthesis from a polymer composition and applying a coating on the denture, characterized in that the surface of the denture is cleaned and disinfected first, the external surface of the denture is ionically cleaned, then the prosthesis is heated to a temperature of 25-150 ° C and is coated with colorless metal oxides by ion-plasma or magnetron sputtering, forming an intermediate diffusion layer, while metal oxides are selected and group: zirconium oxide, aluminum oxide, titanium oxide.