RU2465862C1 - Method for making supraginguival prosthetic abutment with adjustable clamp to alveolar process mucosa - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to orthopaedic dentistry, and may be used for treating partially edentulous patients. The method is implemented as follows: crown preparation of an abutment tooth is performed. A working cast is modelled. A seat of the supragingival prosthesis abutment 1 is marked on the working cast. The supragingival prosthesis abutment 1 is made of metal by the prepared working cast. Then it is modelled immediately on the working jaw model. A surface of the supragingival prosthesis abutment 1 facing towards a ginguival surface is saddle-like and congruent to an interacting surface of the alveolar process 11. A surface of the abutment 1 placed inside the crown 3 is dome-shaped with a vertical column 2 in the centre. The prepared supragingival prosthesis abutment 1 is temporarily fixed on the working jaw on the marked place. A pusher 4 is temporarily fixed thereabove along a general longitudinal symmetry of axis. The prepared structural assembly is used as a false tooth stump. A prosthesis is made. A through hole 5 for the supragingival prosthesis abutment is formed in the crown along the axial line with the pusher 4. The pusher 4 is demountably fixed in the crown 3. The supragingival prosthesis abutment 1 is inserted in the crown by force to make it vertically movable by an effector of the pusher 4.

EFFECT: simplified method for making the supragingival prosthesis abutment.

5 dwg

Description

The invention relates to medicine, in particular to orthopedic dentistry, and can be used to treat patients with partial tooth loss.

Closest to the proposed method for the manufacture of a gingival support for prosthetics with an adjustable clamp to the mucous membrane of the alveolar bone is the method implemented in the utility model of the Russian Federation, No. 93671, А61С 13/00, А61С 13/225, 01/25/2010, in accordance with which the supporting teeth under the crowns, then make a working model of the jaw of gypsum, on the finished model mark the installation site of the supra-gingival support of the prosthesis. Then a hollow, curly, vertically symmetrical metal part is made, the cross section of which 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, and the other - towards the occlusal surface. Model the supra-gingival support. For this, the glass of the curly part from the side of the gingival surface is filled with a molding mass. Then the glass of the shaped part with the molding mass is pressed tightly against the alveolar ridge on the working model in a marked place for installing the gingival support of the prosthesis. In this case, the surface of the gingival support interacting with the mucous membrane of the alveolar process, perform a saddle shape and congruent surface interacting with the alveolar process. Then, according to the model, a gingival support is made of metal with surfaces congruent to the surface of the alveolar ridge at the marking place on the working model of the prosthesis and the inner surface of the figured part. A metal gingival support is inserted into the figured part and together with the figured part is temporarily fixed on the working model, using them as a stump of an artificial tooth. After this, the frame of the future prosthesis is made, and then the prosthesis, which includes the crown for the gingival support. The figured part is permanently fixed in the crown of the gingival support. In the crown from the side of the chewing surface and in the bottom of the glasses of the figured part, axial through holes are made coaxially. At the same time, threads are made in the hole in the bottom of the glasses and the screw is screwed in from the side of the occlusal surface. After that, in the glass facing the gingival surface, the supra-gingival support is inserted with the gingival surface outward.

Thus, in the known method of manufacturing a supra-gingival support for prosthetics, a special structural unit that has a complex configuration and is technically difficult to perform is used to secure the supra-gingival support in the crown of an artificial tooth. As a result, the disadvantage of the known method of manufacturing a gingival support for prosthetics with an adjustable clamp to the mucous membrane of the alveolar process is the complexity of the implementation.

The present invention - a method of manufacturing a gingival support for prosthetics with an adjustable clamp to the mucous membrane of the alveolar process solves the problem of creating an appropriate method, the implementation of which allows to achieve a technical result, which consists in its simplification.

The essence of the invention lies in the fact that in the claimed method of manufacturing a gingival support for prosthetics with an adjustable clamp to the mucous membrane of the alveolar process, in accordance with which the supporting teeth are prepared for crowns, then a working model of the jaw is made of gypsum, the place of installation of the gingival support is marked on the working model the prosthesis, the gingival support are made of metal according to a previously made model of plastic dental material, while the surface of the gingival support is about tilted toward the gingival surface, a saddle-shaped and congruent surface of the alveolar ridge is made, the gingival support made of metal is temporarily fixed on the working model of the jaw in a marked place, the framework of the future prosthesis is made, and then the prosthesis is made, including an artificial tooth crown for the gingival support after which the gingival support with the gingival surface is inserted outward into the corresponding crown with the possibility of vertical movement, a new phenomenon It is noted that the gingival support is modeled on the working model of the jaw at the place of its installation, while the surface of the gingival support interacting with the inner surface of the crown is modeled in the form of a dome, in the center of which a protrusion in the form of a vertical column is made along the common axial line, in addition, after temporary fixation of the finished gingival support on the working model of the jaw in the place of marking on it on top of the column along the common axial line, the pusher is temporarily fixed, after which the resulting structural unit is used as the stump of an artificial tooth, the framework of the future prosthesis is made, according to which a prosthesis is made, including the crown of the artificial tooth for the gingival support, after which the gingival support and pusher are inserted into the crown, while the pusher is fixed in the crown, and the gingival support is inserted into the crown with effort and with the possibility of vertical movement by the executive body of the pusher.

The technical result is achieved as follows. Signs of the claims: "... prepare the abutment teeth for crowns, then make a working model of the jaw of gypsum, mark on the working model the installation site of the gingival support of the prosthesis, gingival support is made of metal according to a previously made model of plastic dental material, while the surface of the gingival support, facing the gingival surface, perform a saddle shape and congruent interacting with it the surface of the alveolar ridge, made of metal the shed support is temporarily fixed on the working model of the jaw in a marked place, the frame of the future prosthesis is made, and then the prosthesis is made, including the crown of the artificial tooth for the gingival support, after which the gingival support is gingival outwardly inserted into the corresponding crown with the possibility of vertical movement, ... ”are features that ensure the operability of the claimed method, and therefore, they ensure the achievement of the claimed technical result.

Preparation of abutment teeth for crowns provides the possibility of manufacturing a working model of gypsum. Marking the installation site of the gingival support of the prosthesis on the working model allows us to determine its future location, taking into account future replacement teeth. The formation of the gingival support by modeling from plastic dental material allows you to get any desired support shape, moreover, for the alveolar ridge of any width, namely: the surface of the gingival support, facing the gingival surface, is saddle-shaped and congruent to the surface of the alveolar ridge, and the surface the gingival support interacting with the inner surface of the crown is modeled in the form of a dome, in the center of which, on a common axial line, yayut protrusion in a vertical column. Due to the fact that the gingival support is modeled on the working model of the jaw at the place of its installation, it is possible to form the surface of the gingival support facing the gingival surface, congruent to the surface of the alveolar process interacting with it, the ability to visually assess the optimal coverage of the support of the alveolar process when performing a saddle shape, and also the possibility of obtaining the optimal size and shape of the surface of the gingival support interacting with the inner surface crowns, by visual assessment of its shape and height of the vertical column.

In addition, the use of modeling allows you to select the desired material for the manufacture of gingival support. The use of metal for the manufacture of a gingival support according to the model ensures the strength and safety of its use.

As a result, when performing the above operations according to the claimed method, reliable fixation of the gingival support on the alveolar process is ensured (the likelihood of the gingival support sliding off the alveolar process is minimized), and it is also possible to control the pressure density and physiologically uniform gingival support of the support to the surface of the mucous membrane of the alveolar ridge.

Since the gingival support with the gingival surface is inserted outward into the corresponding crown with the possibility of vertical movement by means of the actuator of the pusher, this allows the density of its pressure against the mucous membrane of the alveolar process to be regulated by the pusher. The ability to control the density of its clamping of the gingival support to the mucous membrane of the alveolar ridge by means of the executive body of the pusher is due to the fact that in the inventive method, after temporarily securing the finished gingival support on the working model of the jaw, the pusher is temporarily fixed on top of it on a vertical column along a common axial line and the resulting structural unit is used as an artificial tooth stump. After that, the frame of the future prosthesis is made, according to which a prosthesis is made, including the crown of an artificial tooth for the gingival support. As a result, cavities are simultaneously formed inside the crown to accommodate the gingival support and to accommodate the pusher. Moreover, these cavities, after the manufacture of the crown, are interconnected. The ability to control the density of the gingival support clip to the mucous membrane of the alveolar process provides reliable fixation of the gingival support on the alveolar process and its physiology.

At the same time, one-piece fastening of the pusher in the body of the crown excludes the possibility of its rotation in the process of adjusting the density of the support clip to the mucous membrane of the alveolar process, which ensures the accuracy of setting the pressure density. In addition, the execution in the body of the crown along the common axial cavities for the vertical column of the gingival support and pusher, as well as the congruence of the surface of these cavities of the crown to the surfaces of the vertical column of the gingival support and pusher, excludes the possibility of sliding the actuator of the pusher from the surface of the column and ensures uniform pressure of the actuator of the pusher on the surface of the gingival support in the process of adjusting the density of the clip, and therefore the uniform density of the clip to surface of the alveolar ridge. As a result, the physiological nature of the declared supra-gingival support is provided.

In addition, the presence in the form of execution of the gingival support of a vertical column provides reliable fixation in the crown of the finished metal support, not only in a stationary state, but also when adjusting the pressure density, and the implementation of the support in the form of a dome ensures uniform distribution of pressure on the support, and therefore uniform clamping of the gingival surface of the support to the mucous membrane of the alveolar process. This is because the gingival support is inserted into the crown with the possibility of vertical movement by means of the actuator of the pusher. The movement of the gingival support in the tooth crown is reported by the actuator of the pusher by moving the vertical column of the support in the cavity corresponding to it, which, due to the congruence of the surfaces of the tooth crown and the vertical column, is a fairly narrow channel. The gingival support, and therefore the vertical column of the gingival support, are inserted into the crown with effort. As a result, the movement of the vertical column, and therefore the entire gingival support, is carried out with effort. In this case, the verticality of the column determines the movement of the gingival support in the tooth crown in a strictly vertical plane, which eliminates the possibility of lateral displacements of the support on the alveolar process when adjusting the density of its clamp, ensures its stability on the alveolar process, eliminates the possibility of gum injury. In addition, due to the fact that the movement of the vertical column, and therefore the entire gingival support, is carried out with force, i.e. the movement of the support is slower, it is possible to eliminate even a slight weakening of the density of the clamp of the gingival support to the mucous membrane of the alveolar process. This also eliminates the possibility of gum injury and ensures the physiological nature of the declared supra-gingival support.

From the foregoing, it follows that the claimed method of manufacturing a gingival support for prosthetics with an adjustable clamp to the mucous membrane of the alveolar process, similarly to the prototype, allows you to adjust any undesirable density of the clamp of the gingival support to the mucous membrane of the alveolar process due to morphometric characteristics of the mucous membrane of the alveolar that change with time. In addition, the claimed method allows, by adjusting the density of the gingival surface of the support to the mucous membrane, to reduce the transverse movement of the prosthesis and reduce the likelihood of the prosthesis sliding off the alveolar process, which eliminates the requirement for the width of the alveolar process and allows you to use the claimed method of manufacturing the epigastric support even for narrow alveolar processes . The use of the gingival support made according to the claimed method, as an additional support with a large length of the dentition defect, as in the prototype, reduces the cantilever of the prosthesis and the masticatory load on the artificial teeth, which, in turn, reduces the likelihood of a fracture of the prosthesis with the gingival support and the likelihood loosening of supporting teeth. At the same time, the ability to control the density of the clamp provides the implementation of multiple adaptation of the epigastric support according to the claimed method to the mucous membrane of the alveolar process, thereby prolonging the life of the prosthesis.

As a result, the implementation of the gingival support in accordance with the claimed method allows you to save all the positive qualities of the method closest to the proposed. Moreover, in comparison with the closest to the proposed method, the operations of performing the claimed method are simple: modeling a gingival support, manufacturing a support of metal, temporarily securing the support and pusher on the working model of the jaw, manufacturing a frame and prosthesis with a crown for support, placement in the crown of the support and pusher. From the list of operations of the claimed method it can be seen that the manufacture of the gingival support according to the claimed method eliminated the need for a figured part, permanently fixed in the crown and designed to accommodate the gingival support in it, which greatly simplified the claimed method. In addition, at the same time, the shape of the gingival support placed in the crown of the artificial tooth and the method of its manufacture were simplified.

Thus, from the foregoing, it follows that the claimed method of manufacturing a supra-gingival support for prosthetics with an adjustable clamp to the mucous membrane of the alveolar process during the implementation ensures the achievement of a technical result, which consists in its simplification.

Figure 1 shows the epigastric support for prosthetics with an adjustable clamp to the mucous membrane of the alveolar process, implementing the claimed method, a vertical section along aa; figure 2 - pusher; figure 3 - pusher, view B; figure 4 - fixed bridge for replacing the dentition with an end defect; 5 is a fixed bridge for replacing the dentition with gingival support as an additional support.

Figures 1 and 2 are shown without oblique hatching so as not to obscure the drawing.

A gingival support for prosthetics with an adjustable clamp to the mucous membrane of the alveolar bone contains a gingival support 1 made of metal, for example, titanium or zirconia, made in the form of a dome, in the center of which a protrusion in the form of a vertical column 2 is made in the center line; artificial tooth crown 3 for gingival support 1; the pusher 4. The spring support 1 is inserted into the crown 3 with the possibility of movement in the vertical plane. For reliable fixation of the gingival support in the crown, the vertical column can be made with an oval section. The surface of the gingival support 1, facing the gingival surface, is made saddle-shaped. The inner surface of the crown 3 of the artificial tooth is congruent to the surface of the gingival support 1 located inside it: the surface of the gingival support 1 and the surface of the pusher 4. In the body of the crown 3 of the artificial tooth along the common axial line with the gingival support 1 and its column 2, a through hole 5 is made, in which a pusher 4 is placed, configured to interact with the surface of the gingival support 1 facing it, by means of a vertical reciprocating movement.

The pusher 4 contains an extended housing 6, for example, in the form of a cylinder or a polyhedron, with a through axial hole provided with a thread and a screw 7, screwed into the pusher body along an axial line from the side of the chewing surface of the crown, which allows the pusher 4 to interact with its facing the surface of the gingival support 1 by vertical reciprocating movement. The housing 6 of the pusher 4 is fixed in the crown 3 one-piece. For more reliable fixation of the pusher 4 in the tooth crown 3, the end of the pusher body 4, facing the side of the gingival support, is provided with a shoulder 8 made in the example of a rectangular shape.

A fixed bridge for replacing a dentition with an end defect (Fig. 4) and a fixed bridge for replacing a dentition with a gingival support as an additional support (Fig. 5) contain crowns 9 ₁ (9 ₂ ) for supporting teeth, artificial teeth 10 ₁ (10 ₂ ) and a crown 3 with a gingival support located in the distal part of the prosthesis corresponding to the end defect (Fig. 4), and in the interval between the artificial tooth 10 ₂ and the crown 9 ₂ (Fig. 5). The gingival support 1 is applied to the mucous membrane of the alveolar process 11.

The claimed method of manufacturing a gingival support for prosthetics with an adjustable clamp to the mucous membrane of the alveolar process is as follows. Prepare abutment teeth for crowns 9 ₁ (9 ₂ ). A working model of the jaw is made of gypsum. On the working model mark the installation site of the gingival support 1 in the prosthesis. The gingival support 1 is made of metal according to a previously made model of plastic dental material. The gingival support 1 is modeled directly on the working model of the jaw at the place of its installation. For modeling, wax may be used as a plastic dental material. The gingival support 1 on the side of the gingival surface of the alveolar process 11 is modeled with a surface that is congruent to the alveolar process 11, of a saddle shape, forming for this a flange slightly covering the alveolar process 11. The surface interacting with the inner surface of the crown 3 is modeled in the shape of a dome, in the center which along the common centerline perform a protrusion in the form of a vertical column 2.

A gingival support 1 made of metal is temporarily fixed on the working model of the jaw in a marked place. On the column 2, along the common axial line with the gingival support and the column, the pusher 4 is temporarily fixed. The resulting structural unit is used as an artificial tooth stump. Then a future prosthesis frame is made, according to which a prosthesis is made, including a crown 3 of an artificial tooth for a gingival support 1. Since a structural unit is used from the gingival support 1 and a pusher 4 mounted on it, two corresponding communicating cavities are formed in the crown body . At the same time, a cavity is formed for fixing a rectangular shoulder 8 of the body 6 of the pusher 4. The inner surface of the crown 3 of the artificial tooth is congruent with the surface of the gingival support 1 and the surface of the body 6 of the pusher 4. As a result, during assembly, the gingival support 1 is inserted into the corresponding crown 3 with the possibility of vertical movement by means of the pusher 4. The cavity for the housing 6 of the pusher 4 is made through. To do this, from the chewing surface of the crown 3 along the axial line of the pusher 4, a through hole 5 is made, which is also an adjustment hole. In this case, the vertical column 2 is performed with a cross-section, which ensures free passage of the shoulder 8 of the pusher 4 in the body of the crown 3 through the cavity of the vertical column 2 during assembly of the supra-sand support made according to the claimed method.

The assembly of the gingival support made by the claimed method is performed as follows. If the housing 6 of the pusher 4 is provided with a shoulder 8, the pusher 4 is first inserted into the crown 3 from the gingival surface until the shoulder 8 is fixed. After that, the pusher 4 is fixed in the crown, for example, using dental glue. Then, the supra-gingival support 1 is inserted into the crown 3 with the gingival surface outward, advancing the vertical column 2 in the corresponding cavity in the tooth crown 3 until it stops with the pusher 4.

A gingival support 1 is performed for prosthetics from titanium or zirconium dioxide, which reduces the number of contraindications to the use of the claimed gingival support and ensures its physiology.

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; hypoallergenicity. The strength of zirconia significantly exceeds the strength of many metals used in dentistry. In addition, zirconium dioxide 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. 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 in the places of metal contact with living tissue (http://www.rus4you.ru / mats / titan /).

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

In addition, the property of titanium and zirconium dioxide, which provides computer precision manufacturing and design, allows the use of computer simulation of the gingival surface of the support and its shape as a whole and milling on numerically controlled machines (CNC) for the manufacture of a gingival support for prosthetics.

A gingival support 1 is made by computer scanning the resulting model, followed by milling on numerically controlled machines. For this purpose, for example, CAD / CAM equipment made up of products from Wieland, Germany (Modern CAD / CAM - systems for dentistry. Source - INTERNET) can be used.

Use the gingival support 1 as follows. In the initial state, the vertical column 2 of the gingival support 1 is fully inserted into the crown 3, and the gingival support 1 is firmly pressed to the inner surface of the crown 3. The finished prosthesis (Figs. 4, 5) is placed on the prosthetic bed and fixed on the supporting teeth (crowns 9 ₁ ( 9 ₂ )). After that, visually assess the density of the clamp of the gingival support 1 to the mucous membrane of the alveolar process 11 and, if necessary, the density of the clamp of the gingival support 1 to the mucous membrane of the alveolar process 11 by translational movement of the screw 7 of the pusher 4, thereby informing the vertical column 2, and therefore , gingival support 1, translational movement in the direction of the alveolar process 11 and increasing the density of the clamp support 1 to its surface. As a result, the reliability of prosthesis fixation is increased. The achievement of the nominal pressure density of the gingival surface of the support 1 to the mucous membrane of the alveolar process 2 can be judged by a change in the color of the mucous membrane: it should be slightly paler than the neighboring areas.

After obtaining the desired result, the hole 5 in the crown 3 of the gingival support 1 is bricked up with dental material.

After a period of time, in the presence of a weakened fixation of the prosthesis, the clamp force of the gingival support 1 is increased. To do this, the opening 5 is opened and the operation of increasing the density of the clamp of the gingival support 1 to the surface of the mucous membrane of the alveolar process 11 is repeated.

Claims (1)

A method of manufacturing a gingival support for prosthetics with an adjustable clamp to the mucous membrane of the alveolar process, according to which the supporting teeth are prepared for the crowns, then the working model of the jaw is made of gypsum, the installation model of the gingival support of the prosthesis is marked on the working model, the gingival support is made of metal according to previously made model of plastic dental material, while the surface of the gingival support, facing the gingival surface, perform a saddle the visible shape and congruent surface of the alveolar ridge that is made of metal, the gingival support made of metal is temporarily fixed on the working model of the jaw in a marked place, a future prosthesis frame is made, and then a prosthesis is made, including an artificial tooth crown for gingival support, after which the gingival support is gingival surface outwardly inserted into the corresponding crown with the possibility of vertical movement, characterized in that the gingival support is modeled on a working model jaw at the place of its installation, while the surface of the gingival support interacting with the inner surface of the crown is modeled in the form of a dome, in the center of which a protrusion in the form of a vertical column is made along the common center line, in addition, after temporary mounting of the finished gingival support on the working model of the jaw in the place of marking, a pusher is temporarily fixed on top of it on a column along a common axial line, after which the resulting structural unit is used as a stump of an artificial tooth and is made regarding the future prosthesis, according to which a prosthesis is made, including the crown of an artificial tooth for the gingival support, after which the gingival support and pusher are inserted into the crown, while the pusher is fixed in the crown, and the gingival support is inserted into the crown with effort and with the possibility of vertical movement by means of an executive body pusher.

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