RU2240753C1 - Method for splinting frontal teeth - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves making horizontal parallelepiped-shaped groove on oral dental surface. Splinting member like rectangular cross-section wire manufactured titanium nickelide and shaped as frontal dental arch is arranged in the horizontal groove following frontal dental arch in shape determined from diagnostic model. The groove is produced with 45-60° large deviation from vertical axis in the direction from oral dental surface to pulp chamber. An oblique canal is additionally produced in each tooth under stabilization repair beginning from vestibular dental surface to couple it with the groove and recess 1-2 mm deep into its inferior wall. Closure member is mounted in the oblique canal to hold the splinting member in the horizontal groove. The pin is arranged in the oblique canal 1.5 mm far from the vestibular dental surface, its inferior end being thrust against hard dental tissue.

EFFECT: enhanced effectiveness in splinting mobile prostheses; simplified process.

2 cl, 2 dwg

Description

The invention relates to orthopedic dentistry and can be used for splinting teeth with periodontal diseases.

For the treatment of periodontal diseases, the most common therapeutic measures are those that eliminate the inflammatory process in periodontal tissues, eliminate locally acting etiological factors and stop the development of the disease. However, depending on the stage of the pathological process in the periodontium, irreversible changes, partial resorption of periodontal tissues, organic changes in the vascular system in combination with incompletely restored blood flow occurred (blood outflow from the periodontium is difficult). As a result, the adaptive capacity of the dentofacial system is reduced and the conditions for the development of relapse remain. In order to prevent the development of relapse and to maintain a state of remission for a long period, it is necessary to use splinting medical devices.

The modern principles of orthopedic treatment of periodontium using apparatuses and prostheses for permanent use are as follows:

1. To bring into functional correspondence the strength of the masticatory muscles and the functional endurance of the periodontium to the loads.

2. To immobilize a group or all mobile teeth of the dentition in order to eliminate pathological mobility and bring mobility closer to physiological norms.

3. Evenly distribute the chewing pressure between the teeth at all chewing cycles, which will allow to unload the teeth with the most affected periodontal and use the compensatory capabilities of each tooth and the entire dentition.

4. Prevent tooth overload.

5. Eliminate the effect on the teeth with periodontal lesions of the I-II degree of the horizontal component of chewing pressure, and in the presence of functional insufficiency, the defeat of the II-III degree and the vertical component (V. M. Kopeikin. Guide to orthopedic dentistry. M: Medicine, 1993 city, p. 310).

A known method of immobilization of the anterior teeth in periodontal diseases (A.S. No. 1718891, M.cl. A 61 C 7/34, BI No. 10, 1992), when they form vertical grooves in the tooth canal and horizontal grooves on the crown surface of the tooth . The distance between the channels and composite materials is determined by the pins - tires in the form of a metal comb in the tooth channels, and the intermediate part is fixed in horizontal channels.

The disadvantages of the method are as follows:

1. Mandatory depulpation of teeth to be immobilized;

2. The rigid design of the comb tire leads to frequent breakdowns of the composite material due to different tooth mobility in the vertical direction;

3. The different size between the channels of the splinted teeth does not allow standardizing the dimensions of the splinting structure;

4. Horizontal grooves form only a rectangular shape, which reduces the locking capabilities of the method under vertical load.

The closest method selected as a prototype is the method according to patent RU 2150913 C1, 06/20/2000, splint element in it is made in the form of a beam of titanium nickelide. The properties of titanium nickelide are used to ensure structural strength under alternating loads, namely, superelasticity of the material and its high corrosion resistance are used. In this case, stabilization of moving teeth and simultaneous normalization of their function is achieved while simplifying the installation of splinting element. However, in this patent, the shape memory effect of titanium nickelide structures is not used in any way, and it is not possible to install this structure on the front teeth.

In the proposed method, before the installation of the splinting element, the necessary shape of the dental arch is set, in each case according to the diagnostic model. This allows, along with the technical result provided by the patent RU 2150913, to obtain an additional technical result. The splinting element, having a given curvature of the dental arch, tends to return to this form with any deformation. When the shape memory effect is manifested, the splint element not only simultaneously takes the shape of the dentition, but also when the teeth work under load, the effect continues, since when the teeth are chewed by the applied forces, the position of the teeth changes and the splint element deforms. At the same time, the shape memory effect begins to appear again and forces arise that are directed in the direction opposite to the forces during chewing, which makes it possible to reduce their effect. Due to such compensation of forces, stabilization of teeth and normalization of dental functions are much better than in patent No. 2150913.

The objective of the present invention is to ensure the stabilization of movable teeth and the normalization of the function while simplifying the installation of splinting element.

This is achieved by the fact that when splinting the anterior teeth, a horizontal groove is made in the form of a parallelepiped on the oral surface of the teeth. In the horizontal groove, a splint element is installed in the form of a straight wire of titanium nickelide, which is set in the shape of a dental arch established by the diagnostic model. The groove is performed with an inclination of 45-60 degrees from the vertical axis in the direction from the oral surface of the tooth to the pulp chamber. In addition, in each stabilized tooth, an inclined channel passes from the vestibular surface of the tooth to the center to mate with the groove and with a recess in its lower wall by 1-2 mm. A locking element in the form of a pin is installed in the inclined channel with the possibility of holding the splint element in a horizontal groove. The pin is placed in an inclined channel at a distance of 1.5 mm from the vestibular surface, and the lower end rests on the hard tissue of the tooth.

The novelty of the invention is as follows:

- a horizontal groove in the shape of a parallelepiped is performed with an inclination of 45-60 degrees from the vertical axis in the direction from the oral surface of the tooth to the pulp chamber;

- splint element in the form of a straight wire;

- in addition, in each stabilized tooth, an inclined channel passes along the center of the tooth from the vestibular surface of the tooth to the interface with the groove and with a depression in its lower wall by 1-2 mm;

- the pin is placed in an inclined channel at a distance of 1.5 mm from the vestibular surface, the lower end of the pin rests on the hard tissue of the tooth.

The implementation of the horizontal groove of the proposed method and its shape can reduce the volume of preparation of hard tooth tissues, remove one of the overhanging edges of enamel, devoid of nutrition. The locking element in the form of a pin, overlapping the splinting element, allows it to be more securely fixed and to choose the shape of the splinting element in the form of a straight wire, simpler, greatly facilitating its introduction into the horizontal groove.

The invention is illustrated in figures 1 and 2, which shows a diagram of the formation of a groove and channeling with the installation of a structure of splinting and locking elements.

Figures 1 and 2 show a horizontal groove 1 in which a splint element 2 is installed, an inclined channel 3, in which a locking element in the form of a pin 4 is installed, filling material 5.

The method is as follows.

On the teeth selected for splinting, on the oral surface perform a horizontal groove 1 in the form of a parallelepiped on all splinted teeth. Groove depth not more than 2.5 mm, width not more than 1 mm. The groove is performed with an inclination of 45-60 degrees from the vertical axis from the oral surface to the pulp chamber using the fissure bur. Depending on the topography of the pulp chamber for intact teeth and the anatomical shape, an inclined channel 3 is made in the center of the tooth, with a diameter of 0.8 mm, in such a way that channel 3 overlaps the horizontal groove 1 and extends into the hard tooth tissue by 1-2 mm In the horizontal groove 1 fit splinting element 2, made of titanium nickelide in the form of a straight wire. Before installing the splinting element, the necessary shape is set in each case according to the diagnostic model. The length of the splint element corresponds to the length of the horizontal groove passing through all splint teeth. After installing the splint element 2 in the inclined channel 3 insert the locking element in the form of a pin 4. The diameter of the pin is 0.5 mm The pin 4 is installed in the inclined channel 3 so that one end reaches the bottom of the channel and rests on the hard tissues of the tooth, and the upper end should not reach the vestibular surface by 1.5 mm. Then the horizontal groove with splinting element and the inclined channel with the locking element are closed with composite material 5, taking into account the occlusion and the color of the teeth.

Example 1

Patient A was admitted to the clinic with complaints of exposed neck and tooth mobility 31, 32, 41, 42.

From the anamnesis it was found that the patient suffers from diabetes, mobility appeared 6 months ago.

длины корней.Objectively: mobility of the I degree, on R-graphy, atrophy of bone tissue on

root lengths.

Treatment: under the control of R-graphs determine the topography of the pulp chamber. A horizontal parallelepiped-shaped groove was made on the oral surface 31, 32, 33, 41, 42, 43 of the teeth so that the groove had an inclination of 45 degrees from the vertical axis in the direction from the oral surface of the tooth to the pulp chamber. An inclined canal was made from the vestibular surface on each stabilized tooth until it mated with a horizontal groove and the canal end was deepened by 2 mm into the hard tissue of the tooth. The prepared surfaces on each splinted tooth were subjected to etching and adhesive systems were applied. A titanium nickelide splinting element was given, by heating, the desired shape corresponding to the dental arch. A splint in the form of a wire with a diameter of about 0.8 mm was placed in a horizontal groove of 31, 32, 33, 41, 42, 43 teeth. Medically treated and dried locking elements in the form of pins were introduced into each oblique channel. The pins were chosen so long that they did not reach the vestibular surface by 1.5 mm, fixed them. The diameter of each pin is 0.5 mm. The entire structure was covered with composite material, taking into account the occlusion and the color of the teeth.

Control examination was performed after 6 months. No design changes were identified. The teeth function in the created block. No tooth decay was detected. The periodontal condition has improved.

Example 2

Patient B was admitted to the clinic with complaints of mobility 12, 11, 21, 22.

Anamnesis: mobility appeared due to trauma, about 1 month ago, due to traumatic pulpitis, the teeth were depulped.

Objectively: mobility II extent on R-graphy on bone atrophy _^third root length.

Treatment: a horizontal parallelepiped-shaped groove was made on the oral surface 13, 12, 11, 21, 22, 23 so that the groove had an inclination of 60 degrees from the vertical axis in the direction from the oral surface of the tooth to the pulp chamber. From the vestibular surface in the center of the tooth, from the upper edge on each splinted tooth, an inclined channel was made to mate with the groove and the channel end was deepened into hard tissue by 1 mm in the lower wall of the groove. Separated surfaces on each splinted tooth were subjected to etching, adhesive systems were applied. A splinted element in the form of a wire of titanium nickelide was given, by heating, the necessary shape corresponding to the dental arch at the splinting site. The splint element was placed in a horizontal groove of 13, 12, 11, 21, 22, 23 teeth. Pins were inserted into the inclined channels of each tooth. The pins were made so long that they did not reach the vestibular surface by 1.5 mm. The entire structure in a horizontal groove and inclined channels was closed with filling material, taking into account the color of the teeth and the bite. Drug therapy.

Control examination after 6 months. There are no mechanical damages to the structure and teeth, the periodontal condition has improved.

Thus, clinical testing showed that the method provides the following.

Creating a block from a group of teeth, with the restriction of their movement in three directions: vertical, vestibulooral and anteroposterior.

Stability and strength of fixation of the apparatus on the teeth.

Removing irritant effect on marginal periodontium.

Unhindered medical therapy and surgical treatment of the gingival pocket.

In addition, the proposed method for splinting teeth does not create retention points for food retention.

It does not create blocking moments for the movement of the lower jaw with its occlusal surface.

Does not disturb the patient's speech.

It meets aesthetic requirements, as it is practically invisible in the mouth.

Claims (2)

1. The method of splinting the front teeth, including the implementation of a horizontal groove on the oral surface of the teeth with the installation of the splinting element in the form of a wire of titanium nickelide, the passage in each stabilized tooth of the inclined channel from the tooth surface to the interface with the groove, the installation of the locking element in the form of a pin in the inclined channel with the possibility of holding the splinting element in the groove, characterized in that the groove is performed on the oral surface of the teeth in the form of a parallelepiped with an inclination of 45-60 ° from the vertical axis in n Direction from the oral surface of the tooth to the pulp chamber, a splinting element is placed in the horizontal groove, which is set to the shape of the dental arch established by the diagnostic model, the inclined channel passes from the vestibular surface of the tooth. 2. The method according to claim 1, characterized in that the pin is placed in an inclined channel at a distance of 1.5 mm from the vestibular surface.

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