RU2494700C2 - Method of manufacturing non-detachable dental prosthesis - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to field of medicine and medical equipment and is intended for application in orthopedic dentistry and dental prosthetics for programming occlusive contacts of artificial teeth of dentitions of non-detachable and bridge-like prostheses. Method of manufacturing non-detachable dental prosthesis consists in manufacturing prosthesis from ceramic block by method of milling with reconstruction of occlusive surface, basing on principles of modern gnathology, founded by mathematical modelling. Preliminary functional orientating wax modelling of occlusive interrelationships in form of cones for transfer of desired patient's occlusive reference points into apparatus software is performed on working gypsum models in articulator. After patient's approval and confirmation on X-ray picture, replacement is performed by means of optic impression of modelled situation in computer with further milling from ceramic block.

EFFECT: manufacturing non-detachable dental prosthesis, ensuring reconstruction and formation of occlusive surface, harmonic occlusive contacts of relationships of dentitions, ensuring increased efficiency of chewing, and ensuring prevention of temporo-mandibular joint diseases.

Description

The invention relates to medicine and medical technology and is intended for use in orthopedic dentistry and dental prosthetics for programming occlusal contacts of artificial dentitions of fixed single and bridge prostheses.

One of the most significant problems in modern dental practice is the reproduction and formation of the occlusal surface, harmonious occlusal contacts of the relationship of the dentition, which creates the conditions for the restoration of the patient's masticatory function, using therapeutic and orthopedic methods.

3D computer-aided modeling of the restorations allows the dentist and dental technician to form a more accurate relief of the occlusal surface of the teeth with the necessary slope angles of the tooth tubercles for harmonious work of the chewing and frontal teeth.

The software of the Cerec device allows for accurate comparison and overlapping of virtual models of restored teeth (an optical impression in the oral cavity or an optical impression from a gypsum model) with a virtual model with wax landmarks.

The CEREC computer milling method is an alternative to the creation of prostheses by powder coating and firing in a dental laboratory. The use of CEREC technology has proven itself in the prosthetic restoration of the masticatory group of teeth with artificial crowns, provided that the indications are thoroughly observed, sufficient experience with this technique, as well as strict observance of the rules for fixing prostheses using binders (adhesives) and composite cements (S.D. Arutyunov, I.Yu. Lebedenko, VN Trezubov "Prosthetic restoration of teeth. Cerec system" St. Petersburg 2003 p. 60).

The undoubted advantages of all CAD / CAM systems are the high accuracy of the dentures and the high productivity of the technology.

The disadvantages include the higher cost of almost all CAD \ CAM manufactured dentures.

The objective of the invention is to increase the efficiency of replacing defects in teeth and dentitions by reproducing the occlusal surface based on the principles of modern gnatology, justified by mathematical modeling of the contours of the prosthesis, especially the occlusal relationship of the dentition.

The technical result of the invention consists in the manufacture of a fixed denture that ensures the reproduction and formation of an occlusal surface, harmonious occlusal contacts of the relationship of the dentition, providing increased efficiency of chewing and prevention of diseases of the temporomandibular joint.

The technical result is achieved due to the fact that the method of manufacturing a fixed denture is that the prosthesis is made of a ceramic block by milling with reproduction of the occlusal surface based on the principles of modern gnatology, justified by mathematical modeling as follows, on the working gypsum models in the articulator a preliminary functional approximate wax modeling of the occlusal relationships in the form of cones, for transfer we wish x occlusal patient landmarks in software providing unit after approval and confirmation of the patient on the radiograph substitution is made with an optical imprint modeled situation in the computer followed by milling of the ceramic block.

A fixed denture is made as follows:

1. Impressions are taken for the manufacture of diagnostic models.

2. On the obtained wax models, optimal occlusal relationships are formed by means of special wax.

3. Models are scanned by the InEos apparatus (Sirona, Germany) - the gypsum model is mounted on a stage with further programmatic processing (Cerec 3D, (Sirona) of an optical impression by conversion to a 3D model on a computer.

4. Teeth are prepared and receive an optical impression of the dentition.

5. Virtual prosthesis modeling using Cerec 3D software (Sirona, Germany).

6. Installing the ceramic block in the holder of the inLab_MC_XL milling module.

7. Installation of 4 mills of the required diameter.

8. Milling of a denture from a ZirCad block (IvoclarVivadent, Liechtenstein) or analogues.

9. Separate the resulting structure from the fastener of the ceramic block by cutting off the retaining element (shank) and store on the model.

10.Passure and fix the prosthesis in the oral cavity.

Claims (1)

A method of manufacturing a fixed denture, namely, that the prosthesis is made of a ceramic block by milling with the reproduction of the occlusal surface, based on the principles of modern gnatology, justified by mathematical modeling as follows: on the working gypsum models in the articulator, preliminary functional approximate wax modeling of occlusal relationships in in the form of cones, for transferring the desired occlusal landmarks of the patient to the software Sintered apparatus, after consultation with the patient and to confirm the radiograph produce substitution using simulated optical print situation in the computer followed by milling of the ceramic block.