UA8178U - Method for modeling denture construction - Google Patents

Abstract

The method for modeling the denture construction provides for the use the ashless self-hardening plastic material.

Description

Description of the invention

The useful model relates to medicine, namely to orthopedic dentistry and can be used 2 to model various designs of dental prostheses with subsequent replacement with a permanent structural material.

When modeling orthopedic structures, different waxes are used. In particular, Lavaks modeling wax is used to obtain an impression from the canal walls. Produced under this name in the form of lancet-shaped sticks. Composition by weight b: paraffin - 78.92; ceresin - 12.0; carnauba wax - 7.0; Avax synthetic wax - 2.0; dye - 0.08. Differs in minimal shrinkage and ashiness. It is used to create wax models during prosthetics with fixed structures, in particular pin teeth, pin tabs, etc. At a temperature of 372C, the wax becomes so hard that the resulting impression is easily removed from the tooth canal without any delays. When burning, the wax does not leave a dry residue. |V.N. Kashirin Zubotehnicheskoe materialovedenie - Moscow: Medicine, 1973. - p.68).

For non-removable bridge-like prostheses, modeling wax is produced in the form of rectangular bars of blue color, size 40x9x9mm. Intended for the design and modeling of various parts of a fixed prosthesis (crowns, cast teeth, inlays, etc.). The wax in the next one is changed to a structural material (metal, plastic) |Doinikov A.Y., Sinitsyn V.D. Dental material science. - Moscow: Medicine, 1981. - p.140).

Recently, metal-ceramic and metal-plastic dentures have been widely used, where it is necessary to obtain an all-metal substrate followed by its facing with ceramics or polymer. Immersed wax is used to model the caps. Immersed wax is produced in bars of different colors that contrast with the color of the plaster model (yellow, green, brown, etc.). It is used for the production of wax caps by the dipping method. With prolonged immersion in 1 second, a wax cap with a thickness of 0.4 mm can be obtained. 29 In order to avoid defects on the inner surface of the cap, the punch should be immersed in the bath with a quick and uniform movement, while the hand should have support. After 2 seconds, the stamp is pulled out of the wax with a uniform movement, but for some time maintaining contact with the surface of the liquid wax, so that excess wax flows. This avoids the drip at the end of the cap. The thickness of the wax cap will be uneven due to wax runoff, especially in the cervical area. |(V.P. Golyk, A.Yu. Nikonov, I.V. Yanishen Modeling dental materials. - co

Kharkiv: KhSMU, 2000 - P.211. what-

The method of modeling orthopedic dental structures using wax compositions is the closest to the declared one in terms of technical essence and the result that is achieved, and we chose it as the closest analog. ee)

A feature of wax compositions is a large coefficient of thermal expansion or compression, which is negative

With the properties of waxy materials. According to M.A. Napadova, A.S. Sapozhnikova, M.M. Gerner |Material! for prosthetics in dentistry. - Kyiv: Health. - p. 129| when wax is cooled from the temperature of the human body - 36.62 to room temperature - 2023, its linear dimensions decrease (shrinkage), reaching 1295. This can be accompanied by deformation caused by a change in the shape of the softened mass. Therefore, with the help of wax, it is not possible to obtain an accurate cast model of a metal inlay, semi-crown, beam splints and other 70 dental prosthetic structures. c In connection with the above, the basis of the useful model is the task of increasing the accuracy of modeling "c" of orthopedic dental structures.

The problem based on the useful model is solved by the fact that in the known method of modeling the dental structure, which includes the use of dental materials, according to the useful model, the model is made of bo 75 ashless self-hardening plastic.

The positive effect of a useful model, namely an increase in the accuracy of the model, is due to the fact that ashless self-hardening plastics are a material that does not deform when working with it and does not settle, which allows -1 modeling of accurate and fine details of dental prostheses and tires.

The method is performed as follows:

IR f) 50 Ashless self-hardening plastic is prepared by mixing monomer with polymer powder. In practice, the volume ratio of monomer to polymer is usually 1:2. Polymerization of plastic occurs spontaneously when mixing powder with liquid. When working with self-hardening plastic, the following must be taken into account: the powder must be well saturated with monomer and thoroughly mixed; the mass should be mixed in a closed vessel, the volume of which should correspond to the amount of mass being mixed; necessary in the process of solidification of the mass

So" (if possible) to create pressure.

After the plastic is mixed, it goes through several stages of polymerization (sand stage, thread stage, plastic dough stage, rubbery and solid stage). To model dental structures, plastic is used in the stage of threads and plastic dough. An important characteristic of self-hardening plastic is viability (the time during which the plastic retains its technological properties). 60 Viability should be sufficient to be able to do technical operations in time.

The shelf life of ashless self-hardening plastic at room temperature lasts an average of 3-5 minutes. This time is usually sufficient for modeling dental structures during preliminary preparation. With the variety of dental structures, it is not possible to describe them all. As an illustration, some individual cases are described in the following examples. because Example 1

Patient U, 30 years old, applied to the clinic of orthopedic dentistry for the purpose of dental prosthetics.

Objectively: the 11th tooth is destroyed to the level of the gums, the other teeth are intact. The canal has been sealed for years. On the K-gram, the tooth canal is sealed to the apex. There are no pathological changes in the region of the root tip.

The softened tissues of the tooth were removed instrumentally, and 3/4 of its canal was traversed. A pin with a diameter narrower than the root canal is made of ashless self-hardening plastic. With the second portion of self-hardening plastic, the adhesion to the canal walls was refined according to the principle of "rebasing" from this plastic dough, the stump of the crown part of the tooth was modeled taking into account the bite. If necessary, plastic was cut or added. Then the plastic structure was sent to the foundry to be replaced with metal. After fixing the metal 7/0 Kuksova tab, a metal-ceramic crown was made. Functionally and aesthetically, the dentition has been completely restored.

Example 2

A 37-year-old patient came to the clinic of orthopedic dentistry with complaints about the absence of teeth on the upper jaw on the left. Objectively: 14, 15 teeth are missing. The 13th tooth is sealed, the crown part of the 16th tooth is destroyed by 7/5 ZA. On the radiograph, canal 13 and canals 16 of the tooth are sealed to the apex. There are no pathological changes in the periodontium of the named teeth.

The 13th tooth was prepared for a metal-ceramic crown, the canals of the 16th tooth were developed for 1/2 of the length, and the remaining stump was prepared for the next prosthesis with an all-cast fixed structure.

An impression was made with silicone impression material from the entire dentition, including the walls of the canals of tooth 16, 2o along with the remaining stump. The dental laboratory received a collapsible model. On it, with the help of ashless self-hardening plastic, a collapsible stump insert was modeled, which was replaced by metal. Then 16 teeth in the patient's mouth were fitted and fixed in the canals. Further stages were carried out according to the classic scheme for the production of a metal-ceramic prosthesis.

Example C

A 40-year-old patient applied to the clinic of orthopedic dentistry with complaints about the defect in the crown of tooth 36 and the impossibility of its elimination by therapeutic methods due to constant loss of fillings. Objectively: in the 36th tooth, from the medial side, there is a class 2 cavity (according to Black), of medium depth, which does not connect with the cavity of the tooth, the destruction extends to the masticatory, external, and internal surfaces of the tooth. A preparation was made, during which a step-like cavity was formed. Impressions were obtained with silicone materials from both jaws. On the collapsible combined model of the lower jaw, the part of the tooth row in the Zb region is made of super plaster, and the other parts are made of ordinary plaster, and the 36th tooth was pulled out of the model on a pin. -

The reproduction of the tab was modeled with ashless self-hardening plastic. After polymerizing the plastic, a place for the ceramic was chosen with abrasive tools, taking into account the bite and the adjacent tooth. After replacing plastic with metal in the foundry laboratory, the resulting workpiece was sent to the clinic, where it was tried on in the patient's mouth, and the color of the ceramic lining was also determined. Ceramics were applied in the laboratory. Then they tried it on again in the patient's mouth. The occlusal relations and tight contact with the neighboring tooth were specified. After glazing, it was fixed on cement. With such a tab, the morphological and aesthetic integrity of the crown of tooth 36 is completely restored. "

Claims (1)

- The formula of the invention 40 s The method of modeling the dental structure, which includes the use of dental materials, which differs in that the model is made of ashless self-hardening plastic. 45 Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2005, M 7, 15.07.2005. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. - -I so 70 Su; 60 b5