RU93671U1 - REDUCED SUPPORT FOR PROSTHETICS - Google Patents

Abstract

 1. The gingival support for prosthetics, including the crown of the artificial tooth and the gingival support placed therein, while the surface of the gingival support facing the gingival surface is congruent with the surface of the alveolar bone interacting with it, characterized in that the gingival support is made of titanium or dioxide zirconium, and in the crown, the gingival support is placed inside, fixed in the crown inseparably, hollow, curly, symmetrical in the vertical plane of the metal part, the cross section of which d is either an equilateral polygon or a circle, and the vertical section has the form of two glasses rigidly connected to each other by a common bottom, one of which is facing the gingival side, and the other is towards the occlusal surface, in the crown and in the bottom of the glasses are made coaxially through axial holes, while in the hole in the bottom of the glasses a thread is made and a screw is screwed into it from the side of the occlusal surface, while the gingival support is inserted into the glass, facing the gingival surface, so that in the initial state, it is firmly pressed to the bottom of the glasses with the side facing the occlusal surface, and its other side, congruent to the mucous membrane of the alveolar process interacting with it, faces the gingival surface and protrudes out of the glass, while part of the gingival support located inside the glass congruent to its inner surface. ! 2. The plumbing support for prosthetics according to claim 1, characterized in that in the curly symmetrical part, the cross-sectional size of the cup facing ok

Description

The utility model relates to the field of medicine, namely to orthopedic dentistry, and can be used to treat patients with partial tooth loss.

A patent information search showed that the closest to the proposed one is the gingival support, including a crown for an artificial tooth, in which the glass gingival support is permanently attached, while the gingival surface of the support is made congruent to the corresponding surface of the alveolar ridge (“New prosthesis system on glass supports ZX -27 ", doctor of medical sciences Arutyunov SD, candidate of medical sciences Karapetyan KL - see Appendix, source of information INTERNET).

The disadvantage of the well-known gingival crown, first of all, is the presence of contraindications that reduce the physiology of the well-known gingival support, as they impose restrictions on its use and narrow the range of possible patients. Namely: contraindications to the use of glass supports determine very specific requirements for the morphometric characteristics of the alveolar ridge. Firstly, this is a limitation in the compliance of the mucous membrane on the alveolar process from 2 to 3 mm. This requirement for compliance of the mucous membrane was the result of the experience of using the known method and is optimal to ensure reliable pressure of the glass gingival support to the mucous membrane of the alveolar process. Failure to comply with this requirement, for example, when using a support as a gingival support of a bridge in the presence of an end defect, increases the cantileverness of the entire prosthesis, and therefore increases the likelihood of a fracture of the prosthesis near the abutment teeth. When using the gingival support as an additional support when the length of the dentition defect is large, when the pressure density is weakened, the gingival support loses the main function for this case - reducing the masticatory load on artificial teeth, which leads to deformation or fracture of the prosthesis. As a result, the reliability and physiology of the gingival support are reduced.

This also explains contraindications for the width of the alveolar ridge: it is not allowed to use the well-known gingival support for narrow alveolar processes, since this reduces the reliability of the clamping of the gingival support due to possible movements of the support in the transverse direction. It also increases the likelihood of a fracture of the prosthesis, reduces its reliability and physiology.

Moreover, since the stump of the supra-gingival support is fixed in one piece, the density of the clamp to the mucous membrane of the alveolar bone is determined, in fact, only by the morphometric characteristics of the mucous membrane of the alveolar bone of this patient, which change over time and can significantly differ from the original. As a result of the mismatch between the morphometric characteristics of the mucous membrane of the alveolar ridge and the initial clamp density of the gingival support, it deteriorates over time, which decreases its reliability because it increases the cantilever of the prosthesis or the load on artificial teeth (depending on the use of the gingival support made according to a known method) and can lead to fracture of the prosthesis, as well as physiology, as it does not allow the patient to comfortably use the prosthesis with a known supra-gingival support. In addition, since the gingival support is fixed in one piece in the corresponding crown, as a result, the discrepancy between the morphometric characteristics of the mucous membrane of the alveolar process and the initial one requires replacing the prosthesis, and this reduces the duration of use of the prosthesis with a known gingival support.

In addition, the prosthesis made with the well-known gingival support is securely fixed only on the abutment teeth, since the reliability of fixation of the distal end of the prosthesis (or the area with artificial teeth with the gingival support as an additional) is directly dependent on the morphometric characteristics of the mucous membrane of the alveolar process, which, as shown above, change over time. Since the stump of the support is fixed in the corresponding crown one-piece, this does not allow you to adjust the density of the clamp to the mucous membrane of the alveolar process and it is determined only by the morphometric characteristics of the mucous membrane of the alveolar process of this patient. This leads to an inevitable increase in the cantileverness of the prosthesis or an increase in the load on artificial teeth and, as a result, to a fracture of the prosthesis, shortens the duration of use of the prosthesis made using the gingival support. In addition, an increase in the cantileverness of the prosthesis or an increase in the load on the artificial teeth leads to loosening of the supporting teeth, which reduces the physiological nature of the gingival support, as well as shortens the duration of use of the prosthesis made with the known gingival support.

In addition, there are known cases where the glass support has cracked. This fact reduces the reliability of the known gingival support. Moreover, glass in itself is not physiological for the human body, which also reduces the physiological nature of the known support.

Thus, the gingival support for prosthetics identified as a result of a patent search during implementation does not ensure the achievement of a technical result consisting in reducing the number of contraindications for use, in increasing physiology, in the possibility of lengthening the time of use of a prosthesis with a gingival support, in increasing reliability.

The claimed gingival support for prosthetics solves the problem of creating a gingival support for prosthetics, the implementation of which allows to achieve a technical result consisting in reducing the number of contraindications for use, in increasing physiology, in the possibility of lengthening the time of using the prosthesis with gingival support, in increasing reliability.

The essence of the claimed utility model "Gingival support for prosthetics" is that in the gingival support for prosthetics, including the crown of the artificial tooth and placed on it gingival support, while the surface of the gingival support, facing the gingival surface, is congruent to the interacting alveolar surface of the appendix, it is new that the gingival support is made of titanium or zirconium dioxide, and in the crown the gingival support is placed inside, fixed in the crown, one-piece, polo th, shaped, symmetrical in the vertical plane of a metal part, the cross section of which is either an equilateral polygon, or a circle, and the vertical section has the form of two glasses, rigidly interconnected by a common bottom, one of which is facing the gingival, and the other in side of the occlusal surface, in the crown and in the bottom of the glasses are made axially through axial holes, while in the hole in the bottom of the glasses a thread is made and a screw is screwed into it from the side of the occlusal surface, while the gum support is inserted into the glass, facing the gingival surface, so that in the initial state it is firmly pressed to the bottom of the glasses with the side facing the occlusal surface, and its other side, congruent to the mucous membrane of the alveolar process interacting with it, is turned to the side the gingival surface and protrudes from the glass to the outside, while part of the gingival support located inside the glass is congruent to its inner surface.

In addition, in a symmetrical figured part, the size of the cross section of the glass facing the side of the occlusal surface is smaller than the size of the cross section of the glass facing the side of the gum surface, which, in addition, is equipped with a vertical cut. At the same time, a part of the gingival support placed inside the cup facing the gingival surface, in cross section, has a locking tongue corresponding to the place of cut, and the shaped part, rigidly fixed in the crown, is made of titanium.

The technical result is achieved as follows.

The features of the utility model formula: “The gingival support for prosthetics, including the crown of an artificial tooth and the gingival support placed in it, while the surface of the gingival support facing the gingival surface is congruent with the surface of the alveolar process interacting with it ...” are signs that ensure the declared functionality supra-gingival support for prosthetics, and, therefore, they ensure the achievement of the claimed technical result.

Introduction to the design of the gingival support for prosthetics, which is rigidly fixed in the crown for the gingival support, of a hollow, figured part, provides the possibility of non-rigid fastening of the gingival support in the crown. The implementation of the curved part symmetrical with a vertical section in the form of two glasses rigidly connected to each other by a common bottom, one of which is facing the gingival side, and the other to the side of the occlusal surface, made it possible to form two cavities coaxial in the vertical plane, one of which is facing toward the gingival, and the other toward the occlusal surface.

A rigid connection between them by a common bottom made it possible to carry out a common axial hole for both cavities, which ensured the communication of the cavities, and threading in the axial hole made it possible to place a screw in it. Since the gingival support is inserted into the glass, facing the gingival surface, so that in the initial state it is pressed to the bottom of the glasses with the side facing the occlusal surface, while the part of the gingival support located inside the glass is congruent to its inner surface, then As a result, the screw interacts with the non-gingival support. Moreover, the interaction of the screw with the gingival support is provided starting from the extreme upper position of the support, which allows you to adjust the pressure density of the gingival surface of the support already at the initial stages of changing the morphometric characteristics of the mucous membrane of the alveolar process, compared with the initial ones, which increases the physiology of the declared non-gingival support for prosthetics.

Performing coaxially with the through hole in the bottom of the glasses of the through axial hole in the crown, as well as the screw being screwed in from the side of the occlusal surface, provides the ability to manipulate the screw: screwing in and out of the screw when using the gingival support in the prosthesis fixed on the supporting teeth. Moreover, since the gingival support is inserted, in the glass facing the gingival surface and, in addition, in the initial state, with the side facing the occlusal surface, it is firmly pressed to the bottom of the glasses, and its other side, congruent with the mucous membrane of the alveolar process, facing toward the gingival surface and protrudes out of the glass outward, the translational movement of the screw leads to the translational movement of the supra-gingival support, which allows you to adjust the density of the clamp support to izistoy shell alveolar bone that provides achievement of the claimed technical result. Moreover, since the part of the gingival support located inside the cup is congruent to its inner surface, this provides a tight hold on the side surface of the support to the surface of the inner wall of the cup, which in turn ensures smooth adjustment and reliable preservation of the achieved position of the gingival support in the figured part , and, therefore, the achievement of the claimed technical result.

Since the glass facing the gingival surface is provided with a vertical cut, and the part of the gingival support located inside the glass facing the gingival surface has a locking tab in cross section corresponding to the place of cutting, this eliminates the turning of the gingival support during translational movement of the screw, which eliminates injury to the mucous membrane, ensures the physiological design of the prosthesis, and also increases reliability.

Due to the fact that the gingival surface of the gingival support is congruent to the corresponding surface of the alveolar process, a physiological uniform pressure of the gingival support to the surface of the mucous membrane of the alveolar process is ensured, which ensures its physiology.

The implementation of the curly part increases the adhesion surface of the material of the crown with the part, which ensures the adhesion of the material of the crown to the surface of the part and ensures its permanent fixation in the crown, ensures the operability of the structure, and, therefore, ensures the achievement of the claimed technical result. The performance of the metal part ensures the strength of the structure, and the execution of titanium ensures the strength of the structure, reduces the weight of the curly part and facilitates the adjustment of the density of the clamp of the gingival support to the mucous membrane of the alveolar bone, thereby increasing its physiology.

Due to the fact that the curly part is symmetrical in the vertical plane, while the cross section of the part is either an equilateral polygon or circle, and the fact that the curly symmetric part in the vertical section has the form of two glasses connected by a common bottom, the load is distributed evenly on the support as a result of chewing efforts, which ensures uniformity of the pressure density of the support against the mucous membrane, increases physiology, increases the reliability of the structure. In addition, since the part is symmetrical in the vertical plane, the screw is screwed into the axial hole of the bottom of the glasses, and the part of the gingival support located inside the cup is congruent to its inner surface, then with the translational movement of the screw, uniform pressure is applied to the gingival support, which ensures uniform pressure density of the gingival surface support to the mucous membrane of the alveolar process.

From the above it follows that the main difference between the claimed gingival support for prosthetics and the prototype is that in the crown, the gingival support is placed inside, fixed in the crown, one-piece, hollow, curly, symmetrical in the vertical plane of the metal part, the cross-section of which is an equilateral polygon , or a circle, and the vertical section has the form of two glasses, rigidly interconnected by a common bottom, one of which is facing the gingival side, and the other is facing okl Zeon surface. The presence of two coaxial cavities in the curved part made it possible to introduce an adjustment element - a screw for changing the density of the gingival surface of the gingival support against the mucous membrane of the alveolar process, placing it in the cavity facing the occlusal surface, and placing the gingival support in the cavity facing the gingival surface . As a result, the translational movement of the screw in the figured part leads to the translational movement of the support, which allows you to adjust the density of the support of the support to the mucous membrane of the alveolar process and ensures the achievement of the claimed technical result.

Thus, in the claimed supra-gingival support for prosthetics, by translationally moving the screw interacting with the supra-gingival support, it is possible to adjust the density of the gingival surface of the gingival support against the mucous membrane of the alveolar process. This allows you to adjust any undesirable changes in the density of the gingival support to the mucous membrane of the alveolar process, due to the morphometric characteristics of the mucous membrane of the alveolar process that change over time, which eliminates the requirements for compliance of its mucous membrane. In addition, the claimed supra-gingival support for prosthetics allows, by adjusting the pressure density of the contact surface of the supra-gingival support to the mucous membrane, to minimize its own transverse movement, and, consequently, the transverse movement of the prosthesis that uses it, and to reduce the likelihood of the prosthesis sliding off the alveolar process, which increases its physiological and reliability. In addition, providing the required pressure density reduces the cantileverness of the prosthesis with the gingival support, and this reduces the likelihood of a fracture of the prosthesis and loosening of the supporting teeth. At the same time, the comfort of using both the gingival support and the prosthesis with its use is increased, which also increases the physiology of the declared gingival support.

In addition, since the gingival support has the ability to adjust the density of the gingival surface to the mucous membrane of the alveolar process, this allows you to adjust the density of the grip of the support repeatedly, which allows multiple adaptation to the mucous membrane of the alveolar process of the supragingival support without replacement and extends the time of use of the prosthesis with the gingival support. At the same time, the inconsistencies in the morphometric characteristics of the alveolar process with the initial ones that appear over time are eliminated, which increases the physiological nature of the declared supra-gingival support for prosthetics.

In addition, unlike the prototype, which has limitations on the width of the alveolar ridge, the claimed prosthesis, due to the property of titanium and zirconium dioxide: ensuring computer precision in manufacturing and designing, allows using computer technology to produce a supragingival support with a gingival surface of any shape for any the width of the alveolar process, which, together with the ability to adjust the density of the clamp of the supra-gingival support to the mucous membrane of the alveolar process, removes restrictions on the width alveolar bone.

In the claimed invention, the gingival support is made of titanium or zirconia.

Today, zirconium dioxide is one of the most advanced dental materials. Zirconium dioxide has such important qualities as: biocompatibility; ease of construction; durability and ease of use; protection against caries under crowns; the absence of a negative reaction to heat and cold in the teeth; hypoallergenic materials used for the manufacture of prostheses, which allows the use of zirconia prosthetics for people suffering from allergic diseases; strength. The strength of zirconia significantly exceeds the strength of many metals used in dentistry. In addition, zirconia provides computer precision manufacturing and design (http://www.clinicalmeda.ru/spagels/365_koronki_dioksid_ceny.html).

With an increase in allergic reactions to various metals and metal alloys used in medicine and dentistry, titanium, like zirconium dioxide, is considered as a decisive alternative. Due to the remarkable biocompatibility and incredible stability of titanium, this metal has attracted the attention of medicine. High biocompatibility is due to the ability of titanium to form a protective oxide layer on its surface in a fraction of a second, due to which it does not corrode and does not give away free metal ions, which are capable of causing pathological processes at the sites of metal contact with living tissue.

Titanium is a pure chemical element, metal; serial number in the periodic system of elements 22.

In dental practice, pure titanium is used. Titanium has the ability, while in the body, to remain inert for a long time; the density of titanium is about four times lower than the density of gold; low thermal conductivity; biocompatibility, corrosion resistance; neutral taste does not cause unpleasant taste sensations; lack of metal taste in the mouth (http://www.ros4you.ru/mats/titan/).

Titanium, as well as zirconium dioxide, provides computer precision manufacturing and construction.

From the above it follows that the implementation of the gingival support of titanium or zirconium dioxide reduces the number of contraindications to the use of the claimed gingival support for prosthetics and increases its physiology.

The implementation of the epigastric support of titanium or zirconium dioxide is not previously known. The implementation of the gingival support of titanium or zirconium dioxide is proposed for the first time by the inventor.

In addition, the property of titanium and zirconium dioxide: ensuring computer accuracy of manufacturing and designing, allows you to use computer simulation of the contact surface of the gingival support for milling the gingival support and milling it on numerically controlled machines (CNC). This, in turn, allows one to obtain high accuracy of the shape of the gingival surface of the gingival support, and, therefore, to obtain high biocompatibility of its surface with the surface of the mucous membrane of the alveolar process, which increases the pressure density, and, consequently, the physiology and reliability of the claimed gingival support for prosthetics.

Thus, from the foregoing, it follows that the claimed gingival support for prosthetics in the implementation ensures the achievement of a technical result, which consists in reducing the number of contraindications for use, in increasing physiology, in the possibility of lengthening the time of use of the prosthesis with gingival support, in increasing reliability.

On figa shows a fixed bridge for replacing a dentition with an end defect; figb depicts a fixed bridge for replacing the dentition with suprametal support as an additional support; figure 2 - nasal support for prosthetics, a vertical section.

A fixed bridge for replacing a dentition with an end defect (Fig. 1) and a fixed bridge for replacing a dentition with a gingival support as an additional support (Fig. 2) contains crowns 1 ₁ (1 ₂ ) for supporting teeth , artificial teeth 2 ₁ (2 ₂ ) and, located in the distal part of the prosthesis corresponding to the end defect (Fig. 1a), or in the interval between the artificial teeth (Fig. 1b), crown 3, in which the supra-gum support 4 of the bridge is placed. The surface of the gingival support 4, facing the gingival surface, is congruent with the surface of the alveolar process interacting with it. The gingival support 4 is made of titanium or zirconia. In the crown 3, the gingival support 4 is placed inside, fixed in the crown, one-piece, hollow, curly, symmetrical in the vertical plane of the metal part 5. The figured part 5 is made of titanium. The cross section of part 5 is either an equilateral polygon or a circle, and the vertical section has the form of two glasses 6 and 7, rigidly interconnected by a common bottom 8, one of which 6 is facing the gingival, and the other is towards the occlusal surface. In the crown 3 and in the bottom 8 of the glasses 6, 7 are made coaxially through axial holes 9 and 10, respectively. Moreover, a thread is made in the hole 9 in the bottom of the 8 glasses and a screw 11 is screwed into it from the side of the occlusal surface. At the same time, the gingival support 4 is inserted into the glass 6, facing the gingival surface, so that in the initial state it is firmly pressed to the bottom of the occlusal surface by 8 glasses 6 and 7, and its other side, congruent with her mucous membrane of the alveolar process, facing the gingival surface and protrudes from the glass 6 to the outside. At the same time, the part of the gingival support 4 located inside the glass 6 is congruent to its inner surface.

In the curly symmetrical part 5, the size of the cross section of the cup 7 facing the occlusal surface is smaller than the size of the cross section of the cup 6 facing the gingival surface, which, in addition, is equipped with a vertical cut 12.

Part of the gingival support 4, placed inside the cup 6, facing the gingival surface, has a locking tab 13 in cross section (FIG. 2, view BB), corresponding to the place of cut 10.

In the exemplary embodiment, the curly symmetrical part 5 in a vertical section has the form of two U-shaped glasses. The vertical and transverse dimensions of the figured part 5 are determined by the shape and size of the tooth crown, which replaces the crown 3 of the artificial tooth of the gingival support 4. In this case, the external dimensions of the figured part 5 are close to the dimensions of the stump of the tooth turned under the crown and depend on the tooth (canine, premolar, molar) and methods of turning the tooth under the crown, characteristic of a particular orthopedic doctor. So, in our case, for canine, premolar and molars, these sizes fluctuated in the following limits: cup diameter 6 - from 5 to 7 mm (depending on the width of the tooth); the height of the part 5 is from 4 to 5 mm (depending on the height of the tooth); cup diameter 7 - from 2 to 2.5 mm (determined by the ability to obtain the desired shape of the upper part of the crown); step height from 2 to 2.5 mm (determined by the adhesion to the crown material and the possibility of obtaining the desired tooth shape).

The inner diameter of the cup 7 is determined by the diameter of the screw head 11 selected for adjustment. The inner diameter of the glass 6 is determined by the width of the alveolar process. Choose its size less than the width of the alveolar ridge from the condition of ensuring a stable position of the gingival support 4 on the alveolar process and the possibility of obtaining a saddle-shaped gingival surface of the gingival support 4.

In the proposed utility model, part 5 can be made unified with average parameters. Item 5 can be milled from titanium.

The gum support is made of titanium or zirconia. This allows you to use computer technology for its manufacture. For the manufacture of a gingival support by computer scanning the shape of the gingival support and its gingival surface and its milling on numerically controlled machines, for example, CAD / CAM equipment composed of products from Wieland, Germany (Modern CAD / CAM systems for dentistry can be used). Source - INTERNET.)

As a plastic dental material, wax may be used. The wax model of the gingival support is scanned using a scanner that converts the appearance information of the wax model into a computer file. Then, using a special computer simulation program, a gingival support is constructed. The program offers a design, and a technician can change it with a computer “mouse” in much the same way that a wax composition is made using an electric spatula on a plaster model. In addition, the design can always be viewed from any angle, “removed” from the model, considered any section, etc. The result is an optimal design of the gingival support.

After modeling, the file with the design of the gingival support is fed to the control unit of the milling machine. As a result, the material (from titanium or zirconium dioxide) embodies a three-dimensional model of the gingival support of the prosthesis, created in advance on a computer.

The gingival support for prosthetics is made and used as follows. Prepare abutment teeth for crowns 1 ₁ (figa) or 12 (fig.1b). Then, a working model of the jaw is made of gypsum. On the finished model, the installation site of the supra-gingival support 4 of the prosthesis is marked. Then a supra-gingival support 4 is made with a gingival surface, a congruent surface of the alveolar ridge at the marking site on the working model. To do this, take the curly part 5 and densely fill with wax the glass of part 5, facing the gingival side. Take wax so much that it protrudes out of the glass of part 5 and, upon receipt of the impression, forms a collar slightly covering the olveolar process (saddle-shaped form of the gingival surface of the support). Otherwise, the gingival support may rub the mucous surface. At the same time, it is ensured that the wax well fills the cut 10. To obtain an impression, part 5 is pressed tightly with wax to the installation site of the gingival support of the prosthesis, marked on the finished plaster model of the jaw. The resulting print has the shape of the gingival surface of the gingival support, congruent to the surface of the alveolar ridge at the marking site on the working model. The outer edge of the gingival support 4 extending from the cup 6 is drawn. Then, the wax model is removed from the cup 6 of the part 5, make sure that the part of the gingival support 4 located inside the cup 4 is completely congruent to its inner surface and the stop tab 13 is formed (view Bb). If necessary, make appropriate amendments, simulating the desired shape. Then, according to the wax model of the gingival support 4, computer scanning is performed. After that, the gingival support 4 is made, for which it is milled from titanium or zirconia on a numerically controlled machine.

Then, the finished supra-gingival support 4 is inserted into the part 5 in the glass 6, facing the gingival side, so that in the initial state it is firmly pressed to the bottom of the 8 glasses with the side facing the occlusal surface, and its other side congruent to interacting with her mucous membrane of the alveolar process, facing the gingival surface and protruded from the glass 6 out. In this case, the locking tab 13 is fixed in the cut of the glass. After that, the part 5 in the assembly with the gingival support 4 is temporarily fixed on the working model in the place of marking and in the traditional way: the frame of the future prosthesis is formed, according to which the prosthesis is made with crowns 1 for abutment teeth, with artificial teeth 2 and crown 3 of an artificial tooth for gingival supports 4. After making the prosthesis, part 5 is permanently glued to the crown of the artificial tooth 3 for the gingival support 4. After that, the gingival support 4 is inserted into the part 5 in the above manner. Then the prosthesis is placed on the prosthetic bed and fixed on the abutment teeth. After that, visually assess the density of the clamp of the gingival support 4 to the mucous membrane of the alveolar process and, if necessary, the prosthesis is fixed in the place of fixation of the gingival support 4, changing the density of the clamp of the gingival support to the mucous membrane of the alveolar process by translational movement of the screw 11, thereby informing the support 4 of the translational motion down and increasing the density of the clip. The achievement of the nominal pressure density of the gingival surface of the support to the mucous membrane of the alveolar process can be judged by a change in the color of the mucous membrane: it should be slightly paler than neighboring areas.

After obtaining the desired result, the hole 10 in the crown 3 of the gingival support 4 and the glass 7, facing the occlusal surface, are stained with dental material.

After time, if necessary, increase the pressing force, the hole 10 and the glass 7 with the screw 11 are opened and the operation of increasing the density of the gingival surface of the gingival support 4 to the surface of the mucous membrane of the alveolar process is repeated.

Claims (4)

1. The gingival support for prosthetics, including the crown of the artificial tooth and the gingival support placed therein, while the surface of the gingival support facing the gingival surface is congruent with the surface of the alveolar bone interacting with it, characterized in that the gingival support is made of titanium or dioxide zirconium, and in the crown, the gingival support is placed inside, fixed in the crown inseparably, hollow, curly, symmetrical in the vertical plane of the metal part, the cross section of which d is either an equilateral polygon or a circle, and the vertical section has the form of two glasses rigidly connected to each other by a common bottom, one of which is facing the gingival side, and the other is towards the occlusal surface, in the crown and in the bottom of the glasses are made coaxially through axial holes, while in the hole in the bottom of the glasses a thread is made and a screw is screwed into it from the side of the occlusal surface, while the gingival support is inserted into the glass, facing the gingival surface, so that in the initial state, it is firmly pressed to the bottom of the glasses with the side facing the occlusal surface, and its other side, congruent to the mucous membrane of the alveolar process interacting with it, faces the gingival surface and protrudes out of the glass, while part of the gingival support located inside the glass congruent to its inner surface. 2. The gingival support for prosthetics according to claim 1, characterized in that in a curly symmetrical part, the cross-sectional size of the cup facing the occlusal surface is less than the cross-sectional size of the cup facing the gingival surface, which is also provided with a vertical cut. 3. The gingival support for prosthetics according to claim 2, characterized in that the part of the gingival support located inside the glass facing the gingival surface, in cross section, has a locking tongue corresponding to the place of cut. 4. The gingival support for prosthetics according to claim 2, characterized in that the shaped part, rigidly fixed in the crown, is made of titanium.