RU2250091C1 - Intra-root pivot tooth - Google Patents

Abstract

FIELD: medical engineering.

SUBSTANCE: device has crown part, intra-root part and hollow fixing root part. The cylindrical fixing root part has open-end surface turned towards the intra-root part. Cylinder axis coincides with intra-root part axis. Ratio of internal diameter of the fixing root part to intra-root part diameter in front of fixing root part generatrix is equal to 1.5-6.5.

EFFECT: increased fixation reliability.

21 cl, 3 dwg

Description

The invention relates to medicine, namely to dentistry, and can be used in prosthetics of a lost crown of a tooth.

Known intra-root pin tooth (see Russian patent No. 2095031, CL A 61 C 13/30, 1992), containing the crown and intra-root parts mounted coaxially to each other, and a hollow root retainer located between the crown and intra-root parts and having an open end surface facing the side of the root portion, while the root retainer has the shape of a cylinder, the axis of which coincides with the axis of the root portion.

The main disadvantage of the known design is that it does not provide reliable fixation on the root of the tooth, because the ratio of the main installation dimensions of the structure (the internal diameter of the root fixative and the diameter of the intra-root part) may not correspond to the landing dimensions of the root section.

The technical result, which is achieved by using the proposed design, is to increase the reliability of fixing the intra-root pin tooth on the seat by providing the optimal ratio of the inner diameter of the root fixer to the diameter of the intra-root part of the pin tooth.

The technical result is achieved due to the fact that the ratio of the inner diameter (D) of the root fixator to the diameter (d) of the intra-root portion lying opposite the generatrix of the fixative is from 1.5 to 6.5.

The rationale for the causal relationship between the technical result and the features of the main claim.

When the ratio of the inner diameter (D) of the root fixer to the diameter (d) of the intra-root part is more than 6.5, the internal diameter of the fixator may be larger than the medial-distal axis of the root section of the tooth, and this will cause injury to the periodontal tissue surrounding the root and the inability to install an artificial crown on construction. In addition, reducing the diameter of the intra-root portion to the above ratio will lead to a sharp decrease in the strength characteristics of the structure, and as a result, to a loss of its stability at the root of the tooth.

If the ratio of the inner diameter (D) of the fixative to the diameter (d) of the intra-root part is less than 1.5, it will be difficult to form a landing cylindrical protrusion under the root fixator on the tooth root, and an increase in the diameter of the intra-root part to the above ratio will necessitate a significant expansion of the root canal, and as a result, to a sharp thinning of the walls of the landing ledge, which will significantly reduce the fixing properties of the structure.

Thus, the optimal ratio of the diameter (D) of the root fixative to the diameter (d) of the intra-root portion can be considered a ratio lying in the range from 1.5 to 6.5.

The specific D / d ratio is chosen by the dentist immediately before the operation of preparing the landing bed on the root of the tooth, depending on the size of the root section and the treatment method.

Other features included in the dependent claims reinforce the above technical result.

The novelty of the proposed technical solution consists in the fact that a new design of the intra-root pin tooth with a new set of features that differ from the prototype is proposed.

All the signs characterizing the claimed object and included in the claims are essential, because only due to their combination the technical result is achieved that is expected from the use of the proposed design.

In addition, these distinguishing features exhibit new properties.

The device also has the feasibility.

Thus, this technical solution meets the criteria of the invention of “novelty”, “industrial applicability” and “inventive step”.

The invention is illustrated by drawings, where in Fig.1 shows an intra-root pin tooth with a root retainer; pin tooth with root fixer; figure 2 - a special circular cutter (trepan) for preparation on the tooth root of the landing ledge under the root retainer; figure 3 - intra-root pin tooth mounted on the landing protrusion of the tooth root.

The intra-root pin tooth comprises a crown part 1, an intra-root part 2 mounted coaxially to each other, and a hollow root fixator 3 located between the crown and intra-root parts 1, 2. The retainer 3 has an open end surface 4 facing toward the intra-root part 2, and has the shape of a cylinder, the axis of which coincides with the axis of the intra-root part 2. The main installation dimensions of the pin tooth are the inner diameter D of the root fixer 3 and the diameter d of the intra-root part 2, which lies opposite the generatrix 5 f Ixator 3, while D / d should be from 1.5 to 6.5.

The intraroot portion 2 is formed by a combination of a cylindrical portion 6 and a conical portion 7, the cylindrical portion 7 being located opposite the generatrix 5 of the root retainer 3.

On the root part 1 of the tooth can be performed retention points 8 for better fixation of the artificial crown. Retention points 8, as a rule, have the form of annular grooves 9 of various profiles.

Retention points 10 in the form of annular grooves 11 with an inclined lateral surface 12 are also made on the intraroot part 2, and the angle of these surfaces 12 with the axis of the intraroot part 2 is an angle of 10 ° to 30 °. This interval value maximally approximates the shape of the intra-root part 2 to the natural profile of the root canal. To maximize the approximation of the shape of the crown part 1 to the shape of the front teeth (incisors and fangs), a beveled portion 13 with a predetermined (defined) radius of curvature is made on the lateral surface of the crown part 1. To improve the fixation of the crown part 1 on the landing protrusion 14 of the tooth root, through the channels 15 for the release of the fixing material (glue, cement, etc.) can be made on the forming 5 of the retainer 3.

Depending on the treatment methodology and the specific task of restoring the lost tooth crown, the dentist can use an intra-root pin tooth with a different profile and shape of the crown part 1, for example, in the form of a truncated cone, or cylinder, or ball (for installing a removable denture).

The intra-root pin tooth can be made of titanium alloy or stainless steel and have a coating of titanium nitride or zirconium nitride on its surface.

Installation of an intra-root pin tooth is as follows.

Before installation, the dentist evaluates the condition of the root, the size of its cross section and the diameter of the root canal. After that, he selects the installation dimensions of the pin tooth, guided by the fact that the ratio of the inner diameter D of the root fixator to the diameter d of the intra-root part should be in the range from 1.5 to 6.5. After selecting the pin tooth of the necessary design, shape and size, the root canal 16 is machined under the intraroot portion 2 of the pin tooth. This operation is carried out by a set of special drills. The diameter of the final drill exceeds the diameter d of the intra-root part 2 by about 0.05 mm. After that, the base 17 of the tooth root is aligned using an end mill, and then a circular groove 18 is formed around the entrance to the root channel 16, the inner diameter of which is equal to the diameter D _{1 of the} special circular mill and less than the diameter D of the root fixer 3 by about 0.05 mm . This operation is carried out by a special circular mill (see figure 2), which has inclined cutting teeth 19 and a guide rod 20, which is inserted into the root canal and centers the mill relative to the working surface. The height of the guides 21 of the hollow circular cutter is equal to the depth of the circular groove formed by it 18. After that, the doctor can remove bone tissue around the circular groove 18 from the center to the periphery for the future artificial crown. To prevent injury to the root mucosa, you can use special thin plates placed between the tissue of the alveolar bone and the removed fragment. Before installing the pin tooth, the root canal is filled with fixing material. It is also applied to the free base of the landing protrusion 14 and to its side surface. The installation of the pin tooth is carried out by introducing the intra-root part 2 into the prepared root canal with the simultaneous installation of the root retainer 3 on the landing protrusion 14 and tightly pressing it at the place of landing.

Thus, the proposed design tightly covers the prepared bed on the root of the tooth, providing unloading of the root canal of the tooth and eliminating the split of the root.

Due to the optimal ratio of the inner diameter D of the root fixer to the diameter d of the intra-root part of the pin tooth, a significant increase in the reliability of fixing the structure to the root is achieved. In addition, the correspondence of all sizes of the pin design with the tools used allows literally a few minutes to prepare the supporting surface on the root of the tooth, eliminating the likelihood of error.

The proposed design of the pin tooth is recommended for widespread use in dental practice to restore the lost natural crown of the tooth and as supports for dentures.

Claims (21)

1. The intra-root pin tooth containing the crown and intra-root parts mounted coaxially to each other, and a hollow root retainer located between the crown and intra-root parts and having an open end surface facing towards the intra-root part, the root retainer having the shape of a cylinder, axis which coincides with the axis of the intra-root part, characterized in that the ratio of the inner diameter of the root fixator to the diameter of the intra-root part opposite the generatrix of the fixator is about t 1.5 to 6.5. 2. The tooth according to claim 1, characterized in that the intra-root portion is formed by a combination of cylindrical and conical sections. 3. The tooth according to claim 2, characterized in that the cylindrical section is located opposite the generatrix of the root retainer. 4. The tooth according to claim 1, characterized in that on the crown part retention points are made. 5. The tooth according to claim 1, characterized in that the retention points are made on the intra-root part. 6. The tooth according to claim 4, characterized in that the retention points on the crown part are made in the form of annular grooves of various profiles. 7. The tooth according to claim 5, characterized in that the retention points on the intra-root part are made in the form of annular grooves. 8. The tooth according to claim 7, characterized in that the annular grooves have inclined lateral surfaces directed towards the free end of the root portion. 9. The tooth according to claim 8, characterized in that the inclined side surfaces of the grooves make an angle from 10 to 30 ° with the longitudinal axis of the intra-root portion. 10. The tooth according to claim 1, characterized in that on the lateral surface of the crown part a beveled portion with a predetermined radius of curvature is made. 11. The tooth according to claim 1, characterized in that the entire intra-root portion is made in the shape of a cylinder. 12. The tooth according to claim 1, characterized in that on the generatrix of the root retainer is made through channels for the exit of the fixing material. 13. The tooth according to claim 1, characterized in that the crown part is made in the shape of a truncated cone. 14. The tooth according to claim 1, characterized in that the crown part is made in the shape of a cylinder. 15. The tooth according to claim 1, characterized in that the crown part is made in the shape of a ball for installing a removable denture. 16. The tooth according to claim 1, characterized in that longitudinal grooves are made on the lateral surface of the crown part for the release of the fixing material. 17. The tooth according to claim 1, characterized in that on the free end surface of the crown part a blind threaded channel is made for fixing the denture element with a locking screw. 18. The tooth according to claim 1, characterized in that the pin tooth is made of titanium alloy. 19. The tooth according to claim 1, characterized in that the pin tooth is made of stainless steel. 20. The tooth according to claim 1, characterized in that the surface of the pin tooth is coated with titanium nitride. 21. The tooth according to claim 1, characterized in that the surface of the pin tooth is coated with zirconium nitride.

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