RU106525U1 - CULTURE TAB REPRODUCTION - Google Patents

Abstract

 1. A reproduction of the stump insert, containing the crown part, made entirely in the form of a truncated cone-shaped body corresponding in shape to a tooth prepared under an artificial crown, the upper base of which is the lower boundary surface of the root zone of the crown part, corresponding in shape to the masticatory and equatorial sections of the specified tooth, and the lower base - the upper boundary surface of the intra-pulp zone of the coronal part, corresponding in shape to the pulp chamber of the specified tooth, and sleep bzhenny through channels, the inlet and outlet openings of which are located respectively on the upper and lower bases of the crown part, correspond in diameter to the bases of the natural anatomical channels of the roots of the tooth, and their axis is a continuation of the axes of these channels, characterized in that the crown part is additionally equipped with graphite rods, installed in the through channels of the crown part. ! 2. The reproduction of the stump tab according to claim 1, characterized in that if there is at least one channel with a base diameter equal to or more than 1.5 mm in the tooth, prepared for an artificial crown, the crown part is additionally equipped with a lower base and made entirely with the root pin, the diameter and angle of inclination of the axis of which relative to the horizontal plane correspond to similar parameters of the specified channel of the root of the tooth.

Description

The utility model relates to medicine, namely to orthopedic dentistry, and can be used to make a stump insert (hereinafter referred to as “KB”) for prosthetics of a lost crown part (hereinafter referred to as “CF” / of multi-rooted teeth, including those with narrow, non-parallel canals roots, as well as with a large angle of divergence of root canals.

Known collapsible reproduction of KB / hereinafter - "RKV" / plastic [1], containing a cnc in the form of a truncated cone, consisting of two elements - the crown part 1 / hereinafter - "KCH1" / and the crown part 2 / hereinafter - "KCH2" / on which the plastic root pins are placed: on KCH1 - one root pin, on KCH2 - two parallel to each other root pins. In the finished collapsible KB KCH1 and KCH2 are combined along an inclined plane.

Known RKV [1] does not allow to obtain a technical result achieved using the claimed solution, for the following reasons. According to the KB manufacturing methodology provided in [1], plastic ashless pins of various lengths and diameters (depending on the parameters of the root canals prepared for artificial tooth crowns / hereinafter referred to as “PPIKZ”) are used as intrachannel pins at the stage of RKV modeling [1]. However, according to the authors of the utility model, plastic pins with a diameter of less than 1.5 mm do not have the rigidity necessary and sufficient to introduce them into the prepared root canal to the required depth (for example, according to the results of testing pins with a diameter of (0.4-0, 8) mm: 12% of the pins were inserted to the required depth, 74% of the pins due to their deformation were inserted to 1/2 of the required depth, and 14% only to the mouth of the prepared channel / i.e. approximately 1/5 of the required depth / ) In this regard, the inability to use plastic pins in the presence of root canals with a base diameter of less than 1.5 mm (hereinafter referred to as “narrow channels”) inevitably leads to the need to expand the latter (by drilling a root canal with a drill of the corresponding diameter using a standard bur) . Carrying out this procedure is associated with a relatively high risk of perforation and fracture of the walls of the root of the tooth, which subsequently leads to the removal of the latter. In addition, due to its design features (placement of pins relative to each other in assembled form: two pins are parallel to each other, one pin is not parallel to them; relatively large diameter of pins) the known analogue [1] cannot be used in cases where the angle of divergence the root canal exceeds 60 ° and / or when a large angle of divergence occurs more than two channels of a multi-root tooth. In these cases, the implementation of KB fixation during the implementation of the known solution [1] in the future (after fixation of the prosthesis or artificial crown) contributes to the occurrence of a wedge effect during chewing load, which causes a relatively high probability of splitting of the roots of the teeth along their axes.

The closest to the claimed solution for the totality of signs is RKV from wax [2], containing cn, made entirely in the form of a truncated cone-shaped body, corresponding in shape to PPIKZ, the upper base of which is the lower outer boundary surface of the root zone of the cn / further - "NZKCH" / corresponding in shape to the masticatory and equatorial sections of the PPIKZ, and the lower base - the upper outer boundary surface of the inner-pulp zone of the cnc (hereinafter referred to as the “ccn”). The cn is equipped with a root pin placed on its lower base and made integrally with the VZKCH, the diameter and inclination of the axis of which relative to the horizontal plane correspond to similar parameters of the specified root canal. The CN is also made with through channels, the inlet and outlet openings of which, respectively, located on the upper and lower bases of the CN, correspond in diameter to the bases of the natural anatomical non-parallel channels of the tooth roots. Wax RKV [2], adopted as a prototype, serves as the basis for KB, which is a prefabricated metal structure that is attached to the tooth, after which KB is first fixed to the cement with a wide pin, then, in series, pins corresponding to narrower channels.

Known RKV [2] does not ensure the achievement of the technical result of the proposed device in view of the following. According to the manufacturing technique of KB based on the RKV prototype [2], the replacement of plastic pins (for narrow channels) and the wax RKV with a pin (in a wide channel) by a metal alloy is carried out separately. The experimental data of the authors of PM indicate that at the stage of pouring the molding (refractory) mass in the PCB, the indicated mass fills the holes with a diameter exceeding 1.5 mm, providing a jumper, which at the stage of casting KB with liquid metal allows you to create a through channel for the pin . Accordingly, the molding material does not penetrate the holes with a diameter of less than 1.5 mm, which completely excludes the possibility of creating through channels in KB for pins corresponding to narrow channels of tooth roots. In this regard, when using KB, made on the basis of the RKV prototype [2] (as well as in the case of using the RKV analog [2]), as a rule, the narrow channels of the tooth roots are artificially expanded, which causes negative consequences similar to described above for the RKV analog. In the presence of root canals with pronounced divergence, the RVC will be formed in a volume insufficient to ensure rigid fixation of KB in the root canal of the tooth, which can subsequently lead to depressurization of the prosthesis and, as a consequence, to its loss. Artificial expansion of narrow diverged canals can lead to perforation or fracture of the walls of the root of the tooth directly when drilling the root canal (as noted above). In addition, even if, in the presence of narrow diverged channels of the tooth roots, the KB was fixed without visible negative effects (no signs of perforation of the tooth root walls), then (after fixing the prosthesis or artificial crown) there is a risk of a wedge effect during chewing load, which leads to a split root of the tooth along its axis.

The objective of the utility model is to create an RVC, which eliminates the possibility of perforation and fracture of the walls of the root of the tooth at the stage of preparation of the sealed root canal of the tooth root for prosthetics KB, as well as splitting of the root of the tooth along the axis after fixing the prosthesis or artificial crown with chewing load at any angle of divergence of any number of channels tooth roots of any diameter, including with the predominance of narrow channels, due to the possibility of creating in KB through channels for pins with a cross-sectional diameter of (0.4-2.2) mm without artificial expansion of the root canal of the tooth.

The problem is solved in that in the RVC containing cn, made entirely in the form of a truncated cone-shaped body corresponding in shape to PPIKZ, the upper base of which is the lower outer boundary surface of the NZKCH, corresponding in shape to the chewing and equatorial sections of the PPIKZ, and the lower base to the upper outer the boundary surface of the SCLC, corresponding in shape to the pulsar chamber of the PPIKZ, and equipped with through channels, the inlet and outlet openings of which are located, respectively, on the upper and lower the bases of the cores correspond in diameter to the bases of the natural anatomical channels of the roots of the tooth, and their axes are a continuation of the axes of these channels, according to a utility model, the cores are additionally equipped with graphite rods installed in through channels of the cores. If there is at least one root canal with a base diameter equal to or more than 1.5 mm / further - “wide channel” /, it is most effective when the cn is additionally equipped with a root pin located on its lower base and made integral with it, the diameter and the angle of inclination of the axis of which relative to the horizontal plane correspond to similar parameters of the specified channel of the root of the tooth.

The achievement of the technical result provided by the utility model is due to the following. The implementation of the RVC with graphite rods (not subject to high temperatures) installed in the through channels of the cores corresponding to the narrow channels of the roots of the tooth, which at the stage of casting KB with liquid metal perform the function of a jumper, makes it possible to create through channels of KB, corresponding in diameter to the narrow channels. This eliminates the need for artificial expansion of narrow channels and, thereby, prevents a number of negative effects (described above): perforation and breaking of the walls of the root of the tooth, as well as splitting of the roots of the teeth along the axis after fixing the prosthesis or artificial crown during chewing load. Preservation of the natural anatomical narrow canals of the roots of the tooth in the complex with the use of pins corresponding to the diameters of the bases of these canals, makes it possible to use the declared RVC in the presence of narrow, non-parallel root canals, as well as root canals with pronounced divergence. The combined use of a root pin made entirely with cn and graphite rods in the presence of a combination of wide and narrow channels of the root of the tooth makes it possible to use the claimed RKV both in cases with a predominance of narrow channels and in the presence of wide and narrow channels.

The utility model is illustrated by graphic materials, in which Fig. 1 shows a diagram of RVC with graphite rods, and Fig. 2 shows a diagram of RVC with a root pin and graphite rods.

Declared RKV consists of KCH 1, subdivided into root (NZKCH) 2 and intrapulpar (OZKCH) 3 zones. KCH 1 is made integrally in the form of a truncated cone-shaped body with upper 4 and lower 5 bases. Through channels 1 are made through channels in which graphite rods 6 are installed, while the inlet and outlet openings of these channels are located, respectively, on the upper 4 and lower 5 bases of the frequency converter (Figs. 1, 2). If there is at least one wide root canal in the IPPC, the cn is usually performed with a root pin 7 located on the lower base 5 of the cn and made integrally with the VZKCH (figure 2). RKV is usually made of wax or plastic.

The claimed RVC is used as follows. In the patient, the sealed canals of the tooth roots are prepared for the prosthetics of the collapsible KB with pins, during which the canals are unsealed for 1/3 of the canal and washed with a disinfectant solution (for example, chlorhexidine, hydrogen peroxide). The bottom and walls of the cavity of the pulp chamber of the tooth and the free part of the root canals are lubricated with liquid paraffin. One portion of the modeling wax (or polymer test) is filled into the intra-pulp cavity of the tooth and a cn is formed, for example, using a spatula or trowel, in the form of a truncated cone-shaped body corresponding to the shape of PPIKZ. If there is a wide channel in the tooth root, a standard plastic ash-free pin (root pin 7) is introduced through wax (or through a polymer dough) formed by a cn and formed from wax (or from a polymer test) WCC 3, corresponding in shape to the pulsation chamber PPIKZ, and NWCC 2 corresponding in form to the chewing and equatorial sections of the PPIKZ. Then, in the narrower root canals of the specified tooth, graphite rods 6 of the corresponding diameter are installed. In the absence of a wide root canal, PPIKZ is introduced into all root canals of the specified tooth through wax (or through a polymer dough) formed by cn graphite rods, after which they form VZKCH 3 and NZKCH 2 as described above. The graphite rods 6 are removed from the root canals of the PPIKZ and RKV together with the root pin 7 (if any) is removed from the oral cavity. Then, the graphite rods 6 are again installed in the corresponding through channels of the cores, thereby obtaining a ready-made wax (or plastic) RCC, which is sent to a foundry laboratory. Replace the wax (or plastic) RVC with a metal alloy at the same time (graphite rods are not removed from the RVC). After that, from KB, for example, drills of the appropriate diameter are drilled, graphite rods (not subjected to change during casting), as well as the hardened molding mass from the through channel, corresponding in diameter to the wide channel (if any). The metal structure obtained after casting and drilling is treated in a standard way, removing excess metal, thereby obtaining a ready-made collapsible HF. The resulting metal KB is attached to the tooth, and then fixed to the cement KB (with a wide pin, if any) and, in series, pins corresponding to narrow channels. As the latter use, for example, pins made of orthodontic wire.

Thus, the proposed RVC has an expanded field of application in comparison with the known analogues - its use is advisable for prosthetics of multi-rooted teeth both with a combination of wide and narrow channels, and with a predominance of narrow channels, including with pronounced divergence.

Information sources

1. RU 61547 U1, 03/10/2007.

2. Trezubov V.N., Mishnev L.M., Neznanova N.Yu., Fischev S.B.

Orthopedic dentistry. Technology of medical and preventive devices: Textbook for medical schools / Ed. prof. V.N.Trezubova. - SPb .: SpetsLit, 2003. - P.90-91.

Claims (2)

1. A reproduction of the stump insert, containing the crown part, made entirely in the form of a truncated cone-shaped body corresponding in shape to a tooth prepared under an artificial crown, the upper base of which is the lower boundary surface of the root zone of the crown part, corresponding in shape to the masticatory and equatorial sections of the specified tooth, and the lower base - the upper boundary surface of the intra-pulp zone of the coronal part, corresponding in shape to the pulp chamber of the specified tooth, and sleep bzhenny through channels, the inlet and outlet openings of which are located respectively on the upper and lower bases of the crown part, correspond in diameter to the bases of the natural anatomical channels of the roots of the tooth, and their axis is a continuation of the axes of these channels, characterized in that the crown part is additionally equipped with graphite rods, installed in the through channels of the crown part. 2. The reproduction of the stump tab according to claim 1, characterized in that if there is at least one channel with a base diameter equal to or more than 1.5 mm in the tooth, prepared for an artificial crown, the crown part is additionally equipped with a lower base and made entirely with the root pin, the diameter and angle of inclination of the axis of which relative to the horizontal plane correspond to similar parameters of the specified channel of the root of the tooth.