RU2332187C1 - Method of tooth reconstruction with short clinical crown - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves manufacturing of cast stump pin insert, formation of a seat for locking pin in the gum area of stump pin insert at the tongue side of lower jaw teeth and at the palatine side of upper jaw teeth. Then an artificial crown is made simultaneously with formation of perforation hole for locking pin mounting according to the position of the seat in metal pin insert stump.

EFFECT: improved efficiency of treatment of patients with hard tooth tissue pathologies by increased retention and fixation degree for artificial crown on artificial stump due to optimisation of pin construction manufacturing technology and creation of additional fixation elements in the form of locking pin.

Description

The invention relates to medicine, in particular to orthopedic dentistry, and can be used for restoration of hard tissues of teeth with a low clinical crown by pin designs.

One of the urgent problems in orthopedic dentistry is the timely restoration of hard tissues of damaged teeth, which, in turn, is the prevention of dentition deformities.

In clinical practice, clinical situations are often determined when there is a reduced interocclusal distance, and restored teeth have a low clinical crown. At the same time, the impossibility of manufacturing a high-quality component of the pin structure - the cover structure (artificial crown), which has optimal retention properties, naturally increases the risk of possible uncementation of the future artificial crown.

Despite the publications available in the literature, the authors did not find a method that allows high-quality production of pin designs with low clinical crowns of teeth and a reduced interocclusal distance.

A known method of manufacturing a pin structure in conditions of insufficient retention, where the locking elements were anchor pins passing through perforated holes in a metal frame into one of the channels of the tooth. (Abramov A.E. Small teeth - not a problem for aesthetic prosthetics / A.E. Abramov // Dentistry for everyone. - 1999. - P.4-5), which includes the following clinical and laboratory stages of manufacture:

Stage 1. The preparation of the supragingival part of the tooth and the formation of a seat for anchor (screw-in) pins in the root canals of the root with standard root scans under the cult tab.

2 stage. Obtaining two-layer impressions with silicone material (for example: Speedex (Coltene, Switzerland) in order to clearly display the channels for anchor pins of a future orthopedic design. An anatomical impression of the opposite dentition (antagonist teeth) is obtained with an alginate impression material (for example: Ypeen (Spofa Dental, Czech Republic) using a standard metal impression tray.

3 stage. Production of a working model of dental rad from super gypsum. A silicone impression of the dentition is poured with mixed super gypsum (for example: “Convertin hart” (Spofa Dental, Czech Republic). The super gypsum is mixed in a rubber flask with the required amount of water to obtain a creamy consistency to obtain a model, then a small portion of super gypsum is applied to the protruding part of the impression (arch print) palate, transitional folds on the lingual side.) By lightly tapping the edge of the rubber flask, this portion of the super gypsum is moved into the deepened imprints of the teeth and alveolar process. If you are casting it, put the remaining super gypsum on the table for making models with a slide, turn the impression spoon over and lightly press it on the table so that the surface of the impression spoon is parallel to the table surface, while making sure that the base of the model is at least 2 cm high, spread the plaster with a spatula with the edges of the print. The release of the model begin after the hardening of the super gypsum.

4th stage. Fit in seats on the gypsum model of the anchor pin.

5 stage. Installation of plaster models in the articulator (for example: “Gnatomat” (“KaVo”, Germany).

6 stage. Modeling the frame of a future collapsible prosthesis with the simultaneous formation of a hole in the frame of the supporting crown for fixing the anchor pin.

7th stage. Replacement of wax reproduction of the prosthesis frame with metal by precision casting.

8 stage. Fitting the metal frame of the structure on the gypsum model.

9th stage. Fitting the metal frame of the structure in the oral cavity with anchor pins.

10 stage. Two-stage prosthesis fixation is carried out:

a) cement is introduced into the tooth canal and into the crown of the prosthesis;

b) after the prosthesis is fixed, the anchor pin is fixed.

11 stage. Sealing a hole in an artificial support crown for an anchor pin with a composite material.

However, a disadvantage of the known manufacturing method is the large steps in the complexity and duration of the manufacture of the pin structure. In addition, the use of anchor (screw-in) pins can suggest the appearance of tension in the root of the tooth, which can subsequently lead to a split of the root.

The closest technical result achieved is a method of manufacturing a pin structure with a low clinical crown of the tooth in order to solve the problem of retention of fixed orthopedic structures on the teeth (I. Lebedenko, Locking dentures / I. Yu. Lebedenko, A.B. Peregudov, T .E. Khapilina. - M.: Young Guard, 2001. - 160 p.), Which includes the following steps:

Stage 1. Preparation of the supragingival part of the tooth.

2 stage. Disclosure of root canals of the root with standard root scans.

3 stage. Fixing in previously opened root canals of bushings having an external thread (for holding in the root canal) and internal (for screwing in the screw).

4th stage. Screwing the impression pin into the sleeve to transfer the direction of the sleeve from the oral cavity to the impression.

5 stage. Obtaining an impression with a corrective layer of silicone material (for example: Speedex (Coltene, Switzerland) using an individual spoon. An anatomical impression of the opposite dentition (antagonist teeth) is obtained with an alginate impression material (for example: Ypeen (Spofa Dental, Czech Republic) using standard metal impression tray.

6 stage. Installation in the finished silicone impression of the impression pin.

7th stage. Screwing on an impression pin of an analog sleeve (similar to that fixed in the oral cavity).

8 stage. Production of a working model of the dentition from super gypsum. A silicone impression of the dentition is poured with mixed super gypsum (for example: “Convertin hart” (Spofa Dental, Czech Republic). The super gypsum is mixed in a rubber flask with the required amount of water to obtain a creamy consistency to obtain a model, then a small portion of super gypsum is applied to the protruding part of the impression (arch print) palate, transitional folds on the lingual side.) By lightly tapping the edge of the rubber flask, this portion of super gypsum is moved into the deepened imprints of the teeth and alveolar ridge. Filling with some excess If you are casting it, put the remaining super gypsum on the table for making models with a slide, turn the impression spoon over and lightly press it on the table so that the surface of the impression spoon is parallel to the table surface, while making sure that the base of the model is at least 2 cm high. the gypsum is flush with the edges of the print, and the model is released after the super gypsum has completely hardened.

9th stage. Installation of plaster models in the articulator (for example: “Gnatomat” (“KaVo”, Germany).

10 stage. Modeling the frame of a future collapsible prosthesis with the simultaneous formation of a hole in the frame of the supporting crown for fixing the screw.

11 stage. Replacement of wax reproduction of the prosthesis frame with metal by precision casting.

12 stage. Fitting the metal frame of the structure on the gypsum model and in the oral cavity.

13th stage. A 2-stage fixation of the prosthesis is performed:

a) fixing the finished coating structure in the oral cavity;

b) after fixing the prosthesis itself, an additional screw fixation is made on glass ionomer cement (for example: “Fuji” (GC, Japan).

However, the known method is not without drawbacks, which are large in the complexity and duration of the laboratory stages, as well as the need for standard bushings, impression and clinical screws for the implementation of the manufacturing steps of this pin design.

The authors propose an effective method of manufacturing a pin structure with a low clinical crown of the tooth, which allows to achieve adequate retention of fixation of the cover artificial crown - an integral part of the pin structure, and accordingly increase the efficiency of rehabilitation of patients with pathology of hard tooth tissues.

The technical result of the claimed invention is to increase the effectiveness of treatment of patients with pathology of hard tooth tissues by increasing the degree of retention and fixation of the cover artificial crown on an artificial stump by optimizing the manufacturing technology of the pin structure and creating additional fixation elements in the form of a locking pin.

The technical result is achieved by the fact that the manufacture of the pin structure with a low clinical crown consists in the manufacture of a cast stump pin insert, a cover artificial crown and a locking pin, forming a perforation hole for installing a locking pin in an artificial crown from the palatine surface - in the region of the upper jaw and lingual surface - in the region of the lower jaw, and the seat in the cult of the pin tab according to the projection of the perforation in the artificial crown.

The method is as follows.

Stage 1. The preparation of the supragingival part of the tooth and the formation of a seat for the pins in the root canals of the root with standard root sweeps under the cult tab with the simultaneous formation of a ledge for the artificial crown.

2 stage. Obtaining a two-layer single-phase impression with silicone material (for example: “Speedex” (Coltene, Switzerland) with a standard metal spoon using plastic ashless pins (for example: “Uniclip” (Dentsplay, Germany) in order to clearly display the channel orientation for the pins of the future orthopedic design - for manufacturing working model An anatomical impression of the opposite dentition (antagonist teeth) is obtained with an alginate impression material (for example: “Ypeen” (Spofa Dental, Czech Republic) using a standard metal impression SKNOU spoon.

3 stage. Production of a working model of the dentition from super gypsum. A silicone impression of the dentition is poured with mixed super gypsum (for example: “Convertin hart” (Spofa Dental, Czech Republic). The super gypsum is mixed in a rubber flask with the required amount of water to obtain a creamy consistency to obtain a model, then a small portion of super gypsum is applied to the protruding part of the impression (arch print) palate, transitional folds on the lingual side.) By lightly tapping the edge of the rubber flask, this portion of the super gypsum is moved into the deepened imprints of the teeth and alveolar process. If you are casting it, put the remaining super gypsum on the table for making models with a slide, turn the impression spoon over and lightly press it on the table so that the surface of the impression spoon is parallel to the table surface, while making sure that the base of the model is at least 2 cm high. the gypsum is flush with the edges of the print, and the model is released after the super gypsum has completely hardened.

4th stage. Installation of plaster models in the articulator (for example: “Gnatomat” (“KaVo”, Germany).

5 stage. Modeling a wax reproduction of a cult pin tab.

6 stage. Formation of a seat for a locking pin in the gingival region of the wax reproduction of a cult pin inlay with a plastic ashless pin (for example: “Uniclip” (Dentsplay, Germany). The perforation hole for installing the locking pin in an artificial crown is located: from the palatal surface - in the region of the upper jaw and lingual the surface is in the region of the lower jaw, and the seat for the locking pin is formed in an artificial metal stump of a cast pin tab.

7th stage. Replacing the wax reproduction of the cult pin inlays with metal by precision casting.

8 stage. Fit cast stump pin tabs on the gypsum model.

9th stage. Fitting a cast stump pin in the mouth.

10 stage. Modeling the wax reproduction of the cover structure - artificial crown with the simultaneous formation of a perforation hole for installing the locking pin according to the orientation of the seat in the metal stump of the pin tab.

11 stage. Replacing a wax reproduction of an artificial crown with metal by precision casting.

12 stage. Fitting and determining the dimensionality of the metal frame of the cover structure - an artificial crown and a cast cult pin tab, as well as the perforation hole in the artificial crown for the seat located in the metal stump of the pin tab on the gypsum model and in the oral cavity.

13th stage. Pin design fixation:

a) Fixation cast cult pin tabs.

b) Fixation of the cover artificial crown with the simultaneous installation and fixation of the locking pin.

14th stage. Removing excess locking pin using a diamond shaped head and turbine tip under water cooling, followed by polishing this area.

The advantage over the known methods is to increase the degree of retention and fixation of the pin structure due to the additional locking element - locking pin. In the manufacture of the pin structure of the claimed method, there is no need for perforation of the artificial crown from the chewing surface, which is of great importance for the aesthetic potential of combined structures.

The inventive method allows to increase the degree of retention and fixation of the pin structure and the effectiveness of the treatment of patients with pathology of hard tooth tissues.

Claims (1)

A method for restoration of teeth with a low clinical crown, which consists in obtaining an anatomical impression of the dentition, manufacturing of working and auxiliary gypsum models of the jaws from super-gypsum, and installing gypsum models in an articulator, characterized in that the cast stump pin insert is made, and the seat for the locking pin is formed in the gingival region of the stump pin tab from the lingual surface of the teeth of the lower jaw and from the palatine surface of the teeth of the upper jaw, after which art is made crown with the simultaneous formation of a perforation hole for installing the locking pin according to the location of the seat in the metal stump of the pin tab.