RU2299040C1 - Method for restoring lateral teeth groups in totally destroyed dental coronal part using interlaced reinforcing wire pin - Google Patents

Abstract

FIELD: medical engineering.

SUBSTANCE: method involves producing cavities at least in one of dental root canals. Destroyed dental root walls and dental coronal part walls are restored with macrofilled composite material to gum level and to occlusion surface level with coronal damping cavity being formed. Coronal damping cavity skeleton is produced from gilt metal grid matching cavity surface shape. The coronal damping carcass is fixed in addition on root by means of adhesive reinforcing wire pin having apical end manufactured from folded 0,6 mm thick wires. Carcass cavity is filled to gum level with glass ionomer cement, and with macrofilled composite material from gum level to tubercles level. The tubercles are restored using macrofilled composite material.

EFFECT: excluded pin shaking in root canal; high stability and service life of repaired teeth.

2 cl

Description

The invention relates to medicine, namely to methods for restoring lateral teeth, destroyed below the level of the gums, using methods of reinforcing dentistry.

Lateral teeth are called “millstone” teeth. Their main function is to grind. To ensure a positive result of prosthetics of the posterior teeth, it is extremely important to take into account the nature of the movements associated with chewing, the size and orientation of the functional load.

The prior art method for the restoration of chewing groups of teeth in the complete absence of the crown according to the patent of Russian Federation No. 2238696. When implementing the known method, the walls of the coronal part are restored from the base of the root to the level of occlusal contact with the teeth by antagonists. The restored walls are strengthened with the help of a reinforcing bowl-shaped structure made of fine-mesh gilded mesh 0.2-0.4 mm thick. The known method of restoration is effective in eliminating the destruction of the crown of the tooth at the level of the gums. In this case, a bonding adhesive force holding the root and crown of the tooth is sufficient to adequately counteract the functional load.

However, in case of destruction of the crown of the tooth below the level of the gums, the stability and strength of the restoration in a known manner will not be provided.

In this case, the problem can be solved by the proposed method for restoration of the posterior teeth, in particular through the use of a reinforcing interlocking wire-adhesive pin in combination with a crown-root cup-shaped mesh frame. Moreover, the longevity of the restoration of the claimed method will be provided both when restoring single-rooted and multi-rooted teeth. The cup-shaped frame, as in the known method, is formed from a gold-plated metal mesh with a thickness of 0.2-0.4 mm. To form an intertwined wire-adhesive pin, thickened wires freed from a gold-plated metal dental mesh 0.6 mm thick are used.

The prior art, in particular from the patent of the Russian Federation No. 2238698, it is known the formation of the root of the mesh-adhesive pin from wires of gold-plated metal mesh with a thickness of 0.4 mm In the known pin, the root part is made in the form of mesh wires tightly twisted together to stiffen the root part and enable the pin to be installed in the root channel. In the root canal, twisted wires of the root part of the pin under the action of the elastic force partially unwind, exerting pressure on the channel walls, similar to the action of the active pin.

In contrast to the known pin, the intrachannel part of the inventive pin is formed by interlacing bent wire halves. With this design, the intra-channel part has a strictly specified diameter, not more than the diameter of the root channel, which allows passive fixation of the pin without additional impact on the walls of the root channel. In addition, the apical end of the intracanal part is a solid bent in half wire, which, in comparison with the known pin, eliminates the possibility of its oxidation.

The subcanal part of the inventive pin is an ongoing wire of its intracanal part, which are intended for additional mechanical fixation of the reinforcing crown-root frame. As a result, with the help of the inventive reinforcing twisted wire-adhesive pin, the crown-root frame is firmly held at the root of the tooth, which ensures the stability of the subsequent restoration.

In the root canal, the intra-channel part of the pin is located in the environment of glass ionomer cement, which penetrates through the interweaving of wires. With this design, the in-channel part acts as a compensator for polymerization shrinkage, providing a good marginal adhesion of cement to the walls of the root canal. As a result, the pin is loosened in the root canal.

The reinforced composite crown of the lateral tooth restored by the claimed method, fixed with a pin on its root, is able to withstand prolonged chewing loads.

The technical result achieved by the implementation of the claimed method is to simplify the design of the pin, to increase the stability of its fixation, as well as the stability and strength of the restoration when the crown part of the tooth is destroyed below the gum level.

The benefits of restoring the posterior teeth of the claimed method:

1. The intra-channel part of the pin provides channel reinforcement.

2. Due to the interweaving of the wires of the intra-channel part of the pin and the passive fixing of the pin, there is no voltage in the root channel, which eliminates the fracture of the root under the influence of the functional load.

3. Due to the penetration of glass ionomer cement between the interlacing of the pin wires, a through connection of cement and the root walls is ensured.

4. The apical end of the root of the pin is a solid wire bent in half, which eliminates its oxidation in the root canal.

5. The subcanal wire part of the pin provides additional mechanical fixation of the reinforcing crown-cushioning framework and the root base and provides reliable fixation of the restored crown part of the tooth to the roots.

6. The subcanal wire part of the pin provides reinforcement of the root base to the gum level.

7. The supracanal wire part of the pin is located no higher than the level of the gum inside the cushioning cavity of the root base, which ensures restoration of the crown part of the tooth, taking into account its anatomical structure.

SUMMARY OF THE INVENTION

This method offers preliminary endodontic treatment. Root canals should be sealed to the physiological opening and should not have periapical changes.

Mechanically, toothbrushes using toothpastes clean the surface of the teeth that are next to the defect and determine their color according to the generally accepted VITA scale.

First, they begin the restoration of the destroyed walls of the root base. To do this, the root base is prepared, demineralized tissues are removed, and after acid etching and adhesive treatment, the destroyed base root walls with a thickness of 1.5-2 mm are formed using macrophilized composite rollers. to gum level. As a result, on the basis of the root, the restored walls form an amortization cavity of a cup-shaped form. After the depreciation cavity is formed, depending on the clinical situation in the root canals, cavities are created to a depth of at least 1/3-1 / 2 of the root canal length. Then proceed to the manufacture of a reinforcing interlocking wire-adhesive pin.

The manufacture of a reinforcing twisted wire-adhesive pin.

For the manufacture of this pin using gold-plated metal wire with a thickness of 0.6 mm At least two wires are bent in half and, starting from the bend, from the apical end of the pin, are intertwined, forming a twisted intra-channel part of the pin. The length of this part of the pin should be no more than the depth of the root canal cavity, which is 1/2 or 2/3 of the length of the channel. The number of wires is selected based on the diameter of the root canal. The diameter of the intracanal part of the pin is formed not more than the diameter of the root canal. Due to the interweaving of the wires, the in-channel part of the pin becomes stiff. The apical end of the intracanal part is a solid bent in half wire, and the supercanal part of the pin is the ends of the continuing wires of its intracanal part. The manufactured pin is tried on, installing in the root canal. The intracanal part of the pin should be without voltage located in the cavity of the root canal, and the wires of the supracanal part should be in the formed shock cavity. Depending on the number of developed root canals, 1-3 pins are produced in a similar manner. After fitting and correction, the pins are removed from the channels. An acid etching of the surface of the depreciation cavity and the cavity of the channel (respectively, of the root canal cavities) is carried out to create a microrelief. The acid is applied with a brush, on average, for 15-20 seconds, then it is washed off with a stream of water when the saliva ejector and the vacuum cleaner are working. After acid etching, the root canal cavities are closed with cotton and restoration of the missing crown part of the tooth is started by the reinforcement method.

An adhesive is applied to the surface of the cushioning cavity. The adhesive is slightly flushed with air for even distribution, applied repeatedly and again flushed with air. Within 10 seconds, polymerized by the standard method.

From the corrugated composite material, the walls of the crown of the tooth are formed with a thickness of 1.5-2 mm to the level of the occlusal contact surface with the antagonist teeth. The restored walls form a coronal cavity. The coronal cavity and the cushioning cavity form a common corona-cushioning cavity. Then proceed to reinforcing the inner surface of the corona-damping cavity. For reinforcement, a fine-mesh gilded metal mesh 0.4 mm thick is used. Using a plug-in, the grid is shaped to repeat the inner surface of the crown-damping cavity. The reinforcing crown-cushioning frame thus formed is tried on and removed from the cavity after correction.

To fix the frame, an adhesive is applied to the inner surface of the corona-cushioning cavity, slightly blown with air for even distribution, the adhesive is applied again, again blown with air and polymerized by the standard method. The reinforcing corona-damping mesh frame is fixed in the corona-damping cavity using glass ionomer cement. The fixed reinforcing crown-cushioning frame simultaneously strengthens the thin walls of the crown part of the restored tooth and the root base.

Then proceed to the mechanical fixation of the reinforcing crown-cushioning cage to the base of the root. To do this, in the projection of at least one root canal, the reinforcing crown-cushioning frame is perforated and cotton is removed from the root canal through perforation. Repeated fitting and correction of the reinforcing interlocking wire-adhesive pin (respectively, several pins. The interchannel part of the pin should be without tension located in the root channel. Using glass ionomer cement, which fill the channel cavity to the level of the frame perforation, the pin (respectively, several pins alternately) is fixed channel.

The wires of the supercanal part of the pin located above the base level of the reinforcing crown-cushioning frame are opened, distributed in a "fan" order and pressed tightly to the surface of the crown-root frame. Distributed wires form the “head” of a twisted reinforcing wire-adhesive pin, which is located in the area of the cushioning root base below the level of the gums.

The pin mechanically fixes the reinforcing crown-damping frame to the roots of the tooth. The location of the "head" of the fixed pin below the level of the gums, that is, in the root part of the tooth, provides the final restoration of the crown part, taking into account the anatomical structure of the tooth.

Thus, a fixed reinforcing twisted wire-adhesive pin located in the root of the tooth below the gum level consists of:

interlocked inter-channel part,

sub-channel part in the form of continuing wires of the intra-channel part.

Then proceed to the final restoration of the crown of the tooth, taking into account its anatomical structure. The cavity of the crown-cushioning frame is filled with glass ionomer cement to the level of the gums. The cavity of the coronal part of the crown-cushioning cage is filled with microfilted composite material from the gum level to the level of the tubercles, and the tubercles are restored with a macrophilic composite.

Before polishing and control polymerization, occlusal editing is performed. Final grinding and polishing is carried out on the 2nd day after polymerization.

Complications after the restoration by the above method were not identified.

Claims (2)

1. The method of restoration of the lateral groups of teeth with the complete destruction of the crown using a reinforcing twisted wire-adhesive pin, including preliminary endodontic treatment of the root canals, the formation of a cavity in at least one of the root canals, restoration of the destroyed root walls and walls with macrophyllic composite material the coronal part of the tooth, respectively, to the level of the gum and to the level of the occlusal surface with the formation of a crown-cushioning cavity and subsequent reinforcing the corona-cushioning cavity by means of a corona-cushioning cage pre-formed from a gold-plated metal mesh in accordance with the shape of the cavity surface, while the corona-cushioning cage is additionally fixed to the root with a reinforcing wire-adhesive pin with an apical end made of 0-thick bent wires in half , 6 mm, the in-channel part of which, made by interlacing these wires, is installed through the perforation of the frame into the cavity of the root canal and they are coked with glass-resin cement, and the supercanal part of the pin, in the form of continuing wires of its intracanal part, is distributed and fixed on the surface of the corona-cushioning carcass below the gum level, followed by filling the carcass cavity to the gum level with glass ionomer cement, and from the gum level to the level of the tubercles - microfiled composite material, tubercles are restored from macrophilic composite material. 2. The method according to claim 1, including fixing the crown-cushioning frame to the root using additional pins installed through additional perforations of the frame in the projection of the previously formed root canal cavities.