UA28288U - Pin for reinforcing crown of canine - Google Patents

Abstract

A pin for reinforcing the crown of the canine comprises supradentine part and cylindrical intradentine part.

Description

Description of the invention

A useful model refers to medicine, namely, to orthopedic dentistry, | can find application 2 for reinforcing the crown part of an intact canine, in particular for the restoration of an abraded incisal edge.

When preparing teeth for restorations with cast metal frameworks and ceramic restorations, it is necessary to observe five basic principles, which are: 1. the maximum possible preservation of tooth tissues; 2. ensuring sufficient retention and stability of the restoration; 70 3. ensuring high strength of the restoration; 4. achieving optimal marginal fit of the restoration; 5. preserving the healthy state of periodontal tissues.

The closest analogue is a metal titanium foam consisting of supradentinal and intradentinal parts of the traditional design - both parts are made in the form of a cylindrical rod 19 with a thread. The ratio of the length of these parts is 1:1, the pin has the shape of a cylinder with a diameter of 1 ml along the entire length of the foam. The foam is manufactured in factory conditions and is produced in special sets, which include metal foams of several standard sizes, a drill, and special drills. Foams were fixed with a hybrid SIT (glass-inomer cement) for gaskets or light-curing polymer material | see Nikolaev A.I., Tsepov L.M. -

Practical orthopedic stomatology. - St. Petersburg - St. Petersburg. - Institute of Stomatology. - 2001. - Articles 177-1811.

The disadvantage of the closest analogue is that it is made of titanium and has the shape of a cylinder that is screwed. In canines that have old trunk cracks (often due to increased functional load), it is not possible to screw in metal parapulpal foam mechanically, because this creates excessive pressure and young cracks are formed, and in old ones there is an increased susceptibility to bacterial invasion. In order to carry out the restoration after 22 installation of the metal pin, it is necessary to first apply: - o - Adhesive system (to ensure the connection between the metal and the photopolymer). - Opposite (to mask the color of the metal). - Artificial dentin (to mask the color of the metal). And only then artificial enamel (to add aesthetics).

To apply all the layers, you need a sufficient reserve of space (when using metal foam, it is necessary to apply all the layers with 30, otherwise its color cannot be masked), so it is not possible to increase the diameter of the supradentinal part by more than 1-1.5 mm and create a support platform for distributing the chewing load, since the area of the tooth does not allow placing a structure with a diameter of more than 1-1.5 mm and 4 layers of restoration. high school

During operation, due to the different distribution of masticatory stress between the metal cylindrical foam and the restorative material, microfractures (cracks) may also occur, which pass along the metal foam through the restorative material. This leads to increased permeability of the microflora and the development of recurrent caries (between the filling and the tooth) and recurrent caries (under the filling). With a large number of load cycles, there is an accumulation of small amounts of plastic deformation and a stronger fatigue of the material occurs. In this case, even a small stress can lead to its "destruction." C 40 In addition, the inconsistency of the physical and chemical properties (thermal conductivity, fracture strength, bending, modulus of elasticity) of metals, restorative material and hard tissues of the tooth also lead to the formation of cracks

From" both in the restorative material and in the hard tissues of the tooth. Chemical degradation of tissue (enamel and dentin) in the area of restoration edges is the most important cause of marginal permeability and bacterial invasion. To eliminate the resulting complications when using metal foams, it is necessary to remove the previous restoration and additional removal of the infected hard tissues of the tooth. o The basis of a useful model is the task of creating such a pin, in which by changing its design and

Ge | material, it is possible to increase the contact area and reliability of its connection with dentin and photopolymer material, which provides high-quality reinforcement of tooth tissue and restoration with increased service life of the fastening element. The redistribution of the load both during the installation of the foam and during its operation (since the area of redistribution of the chewing load on the tooth tissues increases significantly) reduces the probability of the appearance of micro cracks. This, in turn, leads to a reduction in the invasiveness of the treatment, as well as an extension of the service life of the restoration of the crown part of the tooth reinforced with a new fiberglass structure and prevention of complications that arise when using metal parapulpal stumps.

The task is solved by the proposed foam for reinforcing the canine crown, which consists of a supradentine part and a cylindrical intradentine part, which, according to a useful model, is made of fiberglass material, and the supradentine part has the shape of a truncated cone.

When using fiberglass foam, it is necessary to apply only adhesives and enamel, since it has a transparent white color. This requires much less space, and it allowed to increase the size of the supradentinal 60 case of the parapulpal foam, changing its shape to a truncated cone. This led to optimization of the distribution of masticatory load and made it possible to significantly reduce the time of restoration. When using fiberglass foam, the restoration will be stronger because only enamel is used, and enamel is stronger than opac and dentin (in the case of metal foam). And also the absence of chemical and micromechanical connection between the metal and the adhesive indicates a clear advantage of fiberglass foam. because Fiberglass construction consists of glass fiber manufactured in factory conditions and liquid flowing material.

Functional elements of the proposed new construction of fiberglass parapulpal foam: - the intradentinal part has a cylindrical shape with a length of 3 to 4 mm. and with a diameter from 0.6 to 1.5 mm; - the supradentine part has the shape of a truncated cone (converted part) with a diameter of the larger base from 2 to 4 mm and a diameter of the smaller base from 0.6 to 1.5 mm.

The essence of the production of a new design for the reinforcement of a photo-polymer restoration of an abraded cutting canine is explained by the diagram.

Fig. 1 shows a sagittal projection of the structure. 70 Fig. 2 shows the frontal projection of the structure.

Fig. 3 shows the construction in cross section.

The pin for reinforcing the canine crown consists of a supradentinal part 1, which has the shape of a truncated cone, which has a diameter of a larger base of 2mm, a smaller base of 2mm height, and an intradentinal part 3, which has a cylindrical shape with a diameter of 1mm and a height of 4mm. At the point of transition of the intradentinal part into the 7/5 supradentinal part, the diameter is expanded by a support platform 2 with a width of 0.5 mm.

The method of using foam.

When restoring a worn cutting edge, a channel for foam is created in the tooth with the help of boron and a turbine tip with constant water cooling. The foam is treated with an adhesive (glue) and illuminated with a photopolymerization device. The foam channel is treated with 3295 phosphoric acid, which improves fixation

Foam. After that, the channel is treated with an adhesive (glue), a liquid-flowing photopolymer material is applied to fix the foam. The intradentinal (cylindrical) part of the foam is placed in the formed channel, and the supradentinal part (in the form of a truncated cone) remains outside and is illuminated with a photopolymerization device for 60 seconds.

The use of the proposed foam leads to obtaining a strong micromechanical connection at the micron level.

The expanded supradentine part creates stable fixation and redistributes the chewing load.

To date, the dental market does not offer fiberglass parapulpary structures - for reinforcing the crown part of intact canines, namely the cutting edge.

The proposed design was applied for the first time on 7 patients, in all cases a positive result was obtained. During the year, no destruction of the restoration or tooth tissues was observed, the structure is stable under load, has high fixing and aesthetic qualities, restored click functions. The application of the useful model showed that the fiberglass structure is stronger than metal pins, has high aesthetic qualities, which allows it to be used to reinforce the frontal group of teeth. It does not require the use of a masking agent (used to mask the color of the metal foam), which weakens the bond between the metal foam and the tooth tissues. At the same time, there is no need to use special drills and screwdrivers, which simplifies the reinforcement procedure and requires much less time. co

For fixation of the fiberglass structure, it is possible to use only the adhesive system of the fifth generation, which ensures perfect chemical and mechanical fixation of the structure. Good light conductivity makes it possible to reduce the load on the material during the polymerization process, especially at the border of foam - polymer material, polymer material - tooth tissue. This factor reduces the formation of cracks in the tissues of the tooth adjacent to the restoration, in addition, the controlled soft polymerization of the composite is considered preferable, since the shrinkage of the composite « 0 is directed towards the light source, therefore the connection between the foam and the material does not break, does not cause formation in c slits.

The fiberglass structure does not break, is biologically compatible with the tissues of the tooth, does not corrode, does not;" causes allergic and toxic reactions, provides protection of the pulpal dentine complex.

The morpho-functional advantage of this design allows you to adapt it to any clinical situation and

Use it for neuromuscular dysfunction. Thanks to giving the supradentine part a cone-shaped shape

GI significantly increased support form, which increases the area of redistribution of masticatory load on tooth tissues, simplifies restoration modeling. The larger the volume of the supradentine part of the reinforcing structure, the less it is necessary to use

GI of the restorative material, which reduces the risk of fracture and chipping by 50

Claims (1)

The formula of the invention IR e) Foam for reinforcing the canine crown, consisting of a supradentinal part and a cylindrical intradentinal vv part, which is distinguished by the fact that it is made of fiberglass material, and the supradentinal part c has the shape of a truncated cone. 60 b5