RU2479278C2 - Method for dental crown restoration - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, particularly to dentistry, and aim at the use for the purpose of restoration of a crown of a damaged tooth. A carious cavity is prepared. A required length of the tape is determined. A leading end of the tape is impregnated in a photo adhesive. A portion of a thin fluid composite is applied on a side wall of the cavity within an attachment line of the tape ends. The end tapes are pressed to the wall by pressing it into the composite, and exposed. Then, the thin fluid composite is applied again to the side wall of the cavity. The extra tape is moistened in the adhesive, ring-shaped and placed in the cavity. The tape end is pressed to the cavity wall tightly to the leading end along the line, and exposed. The framed reinforcement is used for the following restoration of the dental crown by a photo composite according to standard procedure.

EFFECT: method enables reliable fixation and aesthetic effect of the restoration of the dental crown by using a ring-shaped polymer tape placed into the cavity.

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Description

The invention relates to medicine, namely to dentistry, and can be used to restore a tooth crown damaged by a carious process or as a result of an injury.

The treatment of dental caries and its complications (pulpitis, periodontitis) remains one of the most pressing problems of therapeutic dentistry. This is due not only to the complexity of endodontic root canal treatment, but also to the need for subsequent restoration of the anatomical and functional integrity of the tooth crown [3, 4, 6].

The restoration of teeth destroyed by the carious process by more than ½ of the crown volume, to date, seems relevant, since the methods available to the doctor are reduced to covering the tooth with a restoration crown, or to replacing missing tissues with one or another filling material. The service lives of such restorations rarely exceed 1-2 years. This is largely due to the small area of contact between the fillings and hard tissues of the tooth [2, 3, 8].

To solve this problem, various elements are used that allow, on the one hand, to increase the fixing surface of the seal, and on the other, to reinforce its structure, which strengthens the connection of the structure with the tooth and its strength [2, 9].

So, it is known the use of parapulpar metal pins (pins) for filling carious teeth [8]. The technique is mainly used on teeth with live pulp. The condition for fixing the pin in the near-pulp tissue is its screwing into the gum wall of the cavity. The elastic modulus of the metal does not coincide with the elastic modulus of the hard tissues of the tooth, which can lead to the appearance of dentin microcracks with subsequent weakening of the fixation of the pin and the entire filling [1].

It is known the use of intra-channel metal pins on depulled teeth to strengthen the fillings. The intra-root part of the pin is fixed in the root canal, and the protruding supra-root part serves as reinforcement for the future filling or tab [2].

The main purpose of the pin is to create a reliable connection between the root of the tooth and the crown restoration. This should be done in such a way as to avoid the risk of a tooth root fracture. Pins made of metal by precision casting or factory manufacturing have been used for a long time. However, it was noted that the cause of tooth loss in 60% of cases are longitudinal root fractures with a pin made of metal [1]. This aggressive property of metal pins is associated with the high-energy potential of the metal crystal lattice. In metal, the elastic modulus (or Young's modulus) is in the range of 75-150 GPa, in ceramics - 200 GPa, in the main structure of the dentin tooth, where the chewing load passes, Young's modulus is 18-22 GPa. Such a mismatch in the parameters, especially during cyclic loading, which the teeth are subject to, leads to a transverse split of the root.

The disadvantage of this method is the weak adhesion of the filling material to the metal of the pin due to the mismatch of the elastic modulus of the pin and composite material, which leads to a break in the connection between the pin and the restoration [1].

As a prototype taken the restoration of a chewing tooth using a metal reinforcing mesh according to the patent of the Russian Federation No. 2238696 [5].

The method involves the preparation of a tooth to healthy tissues, the use of a metal gilded mesh 0.4 mm thick as a reinforcing element for restoring a tooth crown with a composite material. The mesh is modeled in the form of a ring placed in a carious cavity. The mesh located in the cavity is the basis for the restoration of the crown of the tooth from the composite.

The disadvantage of the prototype is not sufficiently reliable fixation of the mesh to the tooth tissue and the filling due to the mismatch of the elastic modulus of the reinforcing element (metal), filling, hard tooth tissues. This leads to the appearance of stress zones along the border “reinforcing element-hard tooth tissue” and “reinforcing element-seal”, which can lead to chipping of the restoration sites or its complete loss.

In addition, when modeling a flat metal mesh into a ring by forcing it into a carious cavity, folds are inevitably formed, which leads to deformation and thickening of the ring. Due to this, it is impossible to precisely adapt the mesh ring to the walls of the tooth, which also weakens the fixation of future reinforcement and the entire structure.

The metal mesh differs from the filling material in optical properties, can be visible through the seal, which violates the requirements of cosmetics for such structures. This prevents the use of the prototype method for the restoration of anterior teeth (incisors, fangs).

To improve fixation, prevent chips and improve the aesthetic qualities of the restoration, reinforcement made of polymer photopolymerizable tape (such as Construct, FiberSplint ML) is used for permanent restoration.

The invention is illustrated in the diagram and is illustrated by photographs, where in Fig.1. The scheme of applying a reinforcing polymer tape is presented and the numbers indicate:

1. The side wall of the cavity.

2. The line of attachment of the edges of the tape.

3. The starting edge of the tape.

4. The end edge of the tape.

5. The fixed part of the ring.

6. The free part of the ring.

Figure 2-7 shows photographs of the stages of clinical restoration of teeth, presented in the examples of specific performance.

The method is as follows. Carious cavity is prepared with the formation of steep side walls 1, which serve as platforms for attaching the edges of the tape. Then measure the required length of the tape using dental floss (floss). To do this, the thread is laid in the form of a ring in a cavity around the perimeter of the carious cavity and cut. The length of the extracted thread is transferred to a polymer tape, cut off a strip of tape of the desired length.

Then the polymer tape is placed in the carious cavity around the perimeter and adapted so that a ring is obtained. For this, the initial edge of the tape 3 is impregnated with a photo-adhesive, a portion of the fluid composite is applied to the side wall 1 of the cavity in the region of the line of attachment of the edges of the tape 2, the edge of the tape 3 is pressed against the wall, pressing it into the composite, and illuminated. The edge of the tape 3 is attached to the side wall 1 of the cavity.

Then, the fluid composite is again applied to the side wall 1 of the cavity, the remaining free part of the tape is moistened with adhesive, laid in a cavity in the form of a ring, the end edge of the tape 4 is pressed against the cavity wall close to the initial edge 3 along line 2 and illuminated.

Thus, an armature conditionally consisting of two parts is obtained. The first (fixed) part 5 of the ring is attached to the preserved side walls 1 of the tooth, the second (free) part 6 creates a frame for future restoration (see Figure 1).

Based on the obtained reinforcement, a further restoration of the tooth crown is carried out with a photocomposite material according to the standard method.

The tape is made from woven polymer fibers impregnated with a photo-adhesive. The width of the tape varies from 1 to 4 mm (for individual manufacturers - up to 9 mm), the thickness is up to 0.5 mm, the length depends on the specific task. After impregnation with adhesive and photopolymerization, the tape becomes stiff.

The main scope of the described tapes at present is splinting of movable teeth during periodontitis by combining them with each other and (or) with motionless teeth [7].

It should be noted that the elastic modulus of the polymer fiber (in the cured state) is 21-23 GPa.

In dentin, where the entire chewing load passes, the modulus of elasticity is 18-22 GPa. In other words, dentin is able to withstand less tensile resistance before transitioning to an irreversible state (in a real situation, this is a splinter of the tooth wall) than metal structures can do (for example, in the prototype). In polymeric materials, this indicator is close to the elastic modulus of dental dentin. The probability of fracture of the tooth wall when applying the proposed method is thus reduced to zero.

Adaptation of the polymer tape to the walls of the cavity (in contrast to the prototype) occurs without the formation of folds, which ensures a tight fit of the reinforcement to the walls of the cavity and reliable fixation.

Another important advantage of the proposed method is the high cosmeticity of the resulting restoration (the tape is similar in color and transparency to tooth tissues).

An example of a specific performance No. 1

Patient P., 43 years old, turned to the dentist. Clinic of the Chita State Medical Academy with complaints of severe destruction of the tooth crown 27. Anamnesis: the tooth was depulped 4 years ago, tooth fillings periodically occur.

Objectively: the crown is destroyed by 2/3 of the volume (only the distal wall of the crown is preserved), there is a deep carious cavity, the root canals are sealed, no periapical changes in the radiograph were revealed.

The patient was offered restoration of tooth 27 according to the developed technique. A cavity was prepared and sheer walls were formed (Figure 2).

The surface of the future contact is etched with acid and treated with a photo-adhesive. The length of the future ring, which amounted to 9 mm, was measured with a thread. A tape 9 mm long was cut from a roll of Construct 3 mm wide polymer material. The initial edge of the tape is attached to the side wall of the cavity by impregnation with adhesive, applying a fluid flowing composite and exposure, after which the tape is completely saturated with adhesive, laid in the form of a ring and the end edge of the tape is attached close to the first one in a similar way (Figure 3.)

On the basis of the obtained reinforcement, the restoration of the tooth crown 27 was carried out by the Filtek composite (Figure 4.).

An example of a specific performance No. 2

Patient K., 36 years old, turned to the dentist. ChGMA clinic with complaints of destruction of the tooth crown 36. Anamnesis: the tooth was depulped 3 years ago, periodically, the fillings drop out.

Objectively: the crown is destroyed by ½ of the volume, there is a deep carious cavity, the root canals are sealed, radiological periapical changes were not detected.

The patient was offered tooth restoration according to the developed technique. Carried out the preparation of the cavity and the formation of sheer walls (Figure 5).

The perimeter of the cavity was measured with a thread and a polymer tape 3 mm wide and 10 mm long was cut along it from the roll. Consistently, both edges of the tape are attached to the side walls of the cavity by impregnating with adhesive, applying a fluid flow composite, and illuminating (Fig. 6.)

Based on the obtained reinforcement, the restoration of the tooth crown 36 was carried out with the Estet-X composite (Fig. 7).

In total, during the development of the method, 36 tooth restorations were performed with the destruction of the crown over 1/2 of its volume. Long-term results during the year showed the absence of any fillings, their complete or partial destruction, and color changes were not noted, which indicate good fixation, sufficient strength and high cosmeticity of the obtained restorations.

Literature

1. Grigoryev A. Postendodontic restoration of teeth. // Dentistry today. - 2008. - No. 7 (77). - S. 57-59.

2. Borovsky EV, Popova A.I. Intracanal pins when preparing teeth for restoration of the crown. // Clinical dentistry. - 2000. - No. 2. - S. 32-35.

3. Klemin V.A., Borisenko A.V., Ishenko P.V. Combined dental fillings. - M .: Medical Information Agency LLC, 2008. - 304 p.

4. Cohen S., Burns R. Endodontics (8th ed., Rev. And add.). - M.: Publishing House "STBOOK", 2007. - 1021 p.

5. Melikyan M.L., Melikyan G.M., Melikyan K.M. The method of restoration of chewing groups of teeth in the complete absence of the crown using a reinforcing mesh ring. / Patent RU No. 2238696, А61С 5/08, А61С 13/00. - Publ. bull. from 10.27.2004. - Application No. 2003129456/14 dated 03.10.2003.

6. Nikolaev A.I., Tsepov L.M. Practical therapeutic dentistry. - St. Petersburg: Institute of Dentistry, 2001. - 390 p.

7. Periodontology (Under the general editorship of prof. L.Yu. Orekhova). - M .: PolyMediaPress, 2004 .-- P.363-8.

8. Restoration materials and the basics of practical endodontics. / Surzhansky S.K., Palamarchuk Yu.N., Stroyakovskaya O.N. et al. - Kiev: Book Plus, 2004. - 320 p.

9. Terry D.A. Making restorations based on root pins. // New in dentistry. - 2006. - No. 4. - S.18-22.

Claims (1)

A method of restoration of a tooth crown, including the use of a reinforcing element, characterized in that a polymer tape of woven polymer fibers impregnated with a photo adhesive is used as a reinforcing element, a length equal to the perimeter of the cavity, the tape is laid in a cavity in the form of a ring, and fixed to the cavity walls with a fluid composite , photopolymerize and restore the crown with a composite material.

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