RU2463994C2 - Method of manufacturing for additional lock fastening of clasp telescopic prostheses - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to field of medicine, namely to orthopedic dentistry and can be used in manufacturing of clasp telescopic prostheses with additional lock fastening. Method of manufacturing of additional lock fastening for clasp telescopic prosthesis includes several stages. At the stage of modelling wax reproduction of internal telescopic crowns on their distal surfaces performed is installation of additional lock fastenings in form of industrial workpieces of attachment with preservation of diametrical location of support teeth. Casting from metal of internal telescopic crowns with spherical projections is carried out. Fixation of medium rigidity matrices is performed on spherical projection of internal telescopic crown, model is prepared for process of duplication with isolation of clearance between lower matrix surface and mucosa of prosthesis bed. Wax modelling of framework of clasp telescopic prosthesis with external telescopic crowns on fireproof model is carried out. After casting framework of clasp prosthesis by traditional method, inside framework of detachable part of clasp prosthesis socket for installation of matrices under spherical projection is formed. After casting framework of clasp prosthesis by traditional method, fitting of metal construction without matrices is performed.

EFFECT: increased quality of prosthetics due to application of additional lock fastening, with possibility of its re-activation and ensuring prolongation of prosthesis service terms, without essential change of traditional process of manufacturing of telescopic clasp prostheses.

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Description

The invention relates to medicine, namely to prosthetic dentistry, and can be used in the manufacture of clasp telescopic prostheses.

To date, various types of orthopedic constructions in combination with a variety of fixation systems, including telescopic ones, are used in prosthetics clinic for prosthetics of partial dentition defects. A negative point in the application of this fixation system is the difficulty in ensuring sufficient fixation of the prosthesis with significant taper of the support crowns, as well as the restoration of the lost adhesion force due to the gradual wear of the metal of the telescopic crowns.

A known method of using telescopic locking systems of clasp prostheses in combination with an additional lock fastening. This lock mount contains a cylindrical body and a locking rod included in it. The stem is made of metal and is equipped with a supporting shoulder and a working end stowed in the form of a hemisphere. A spring is put on the rod body in a preloaded state, resting on a platform rolled in the body. The mount is made non-separable. The outer surface of the body is provided with a retention thread, with which the lock fastening is fixed in the arch of the clasp prosthesis. Under the working surface of the stem on the outer surface of the inner telescopic crown there is a special recess in which the working surface of the stem is installed under spring pressure when combining the internal telescopic crowns with a removable clasp prosthesis on the prosthetic bed (patent No. 2326623, IPC АС 13/267, application. 20.12 .2006, publ. 06/20/2008, bull. No. 17) (prototype).

The disadvantages of using this type of telescopic clasp prosthesis fixation systems in combination with an additional lock fastening are: the inability to re-activate an additional lock fastening due to a gradual decrease in the fastening force due to abrasion of the metal surface of the working part of the stem, as well as the surface of the inner telescope, the reduction in the fixation of the prosthesis for a gradual decrease in the pressure force of the spring on the locking rod, the complexity of manufacturing this type of structure.

In this regard, the most important task is to create a new type of clasp telescopic prostheses with an additional lock fastening, which allows initially to extend the life of prostheses.

The technical result of the claimed method is to improve the quality of prosthetics through the use of an additional lock to the clasp telescopic prostheses in the form of attachments of a spherical type, with the possibility of its re-activation and to extend the life of prostheses without significantly changing the traditional manufacturing process of telescopic clasp prostheses and increase material and technical costs to production.

The technical result is achieved by the fact that at the stage of modeling the wax reproduction of the inner telescopic crowns, installation is made using a parallelometer on the distal surfaces of the inner telescopic crowns, observing the diametrical arrangement of the abutment teeth, additional lock fasteners in the form of industrial blanks of the attachment VSK-SG-type (Bredent company ( fig. 1). Next, metal casting of internal telescopic crowns with spherical protrusions is performed (Fig. 2). Then, medium-hard matrices are fixed on the spherical protrusion of the internal telescopic crown and the model is prepared for the duplication process with isolation of the gap between the lower surface of the matrix and the mucous membrane of the prosthetic bed. Then carry out wax modeling of the clasp of the clasp telescopic prosthesis with external telescopic crowns on the refractory model. After casting the skeleton of the clasp prosthesis in the traditional way, fitting of the metal structure without matrices is carried out.

Activation of additional locking fastening by pressing the matrices into the socket is carried out only after a significant loss of the adhesion force of the telescopic crowns, as well as with an insufficient degree of fixation of prostheses due to the significant conicity of the supporting teeth during the work. Depending on the need to provide a different degree of fixation of the arch prosthesis, it is possible to use standard matrix parts of the VSK-SG-type with different markings (Fig. 3). The installation of replaceable matrix parts does not present significant difficulties and does not require the use of additional materials and technical means.

Given the above, the proposed differences meet the requirements of "novelty" and "inventive step".

An example of the use of this type of constructs is presented in the clinical case of patient B., 46 years old, who came to the clinic 4 years ago with a diagnosis of partial secondary adentia in the upper jaw I class 1 Kennedy subclass. The patient was made a telescopic clasp prosthesis on the upper jaw according to the proposed technology with fixation on 1.3, 1.4, 2.3 teeth (Fig. 4). After 4 years, the patient noted a decrease in the strength of fixation and the appearance of vertical microexcursions of the telescopic clasp prosthesis relative to the prosthetic bed. To eliminate the above complaints, the standard matrices of the VSK-SG-type spherical attachments with an average degree of rigidity were pressed into pre-formed nests (Fig. 5). After fitting the prosthesis in the oral cavity with an activated additional lock fastening, it was rigidly fixed on the prosthetic bed (Fig. 6).

To determine the degree of reliability of the proposed method, we carried out orthopedic treatment of a group of patients of 17 people who were made 24 telescopic clasp dentures using the proposed technology.

The observational data allow us to conclude that the claimed invention meets the requirement of "industrial applicability".

The advantages of the claimed method. Using the manufacturing method of clasp telescopic prostheses with additional locking fastening allows you to:

• initially increase the life of telescopic clasp prostheses;

• guarantee the provision of sufficient fixation of the prosthesis in a clinical setting with significant conicity of the supporting teeth.

Thus, everything as a whole allows to provide an increase in the quality of prosthetics.

Claims (1)

A method of manufacturing an additional locking fastener for clasp telescopic prostheses, characterized in that at the stage of modeling the wax reproduction of internal telescopic crowns on their distal surfaces, additional locking fasteners are installed in the form of industrial attachments of the attachment, observing the diametrical arrangement of the supporting teeth, metal casting of internal telescopic crowns is performed with spherical protrusions, fixation of matrices of medium rigidity on a spherical protrusion internal telescopic crown, prepare the model for the duplication process with isolation of the gap between the lower surface of the matrix and the mucous membrane of the prosthetic bed, perform wax modeling of the clasp of the clasp of the telescopic prosthesis with external telescopic crowns on the refractory model, after casting the clasp of the clasp prosthesis in the traditional way inside the frame of the removable part of the clasp prosthesis form a nest for installing matrices under a spherical protrusion, after casting the skeleton of the clasp prosthesis Dietary method of fitting metal structure without matrices.

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