RU2344787C1 - Screw intraosteal two-stage dental implant and method of implanting - Google Patents

Abstract

FIELD: medicine; dentistry.

SUBSTANCE: dental implant includes cylindrical intraosteal part with threading on external surface, internal thread hole for main fixation screw and stopping screw with receiving bed for extraosteal part; hollow extraosteal part with external receiving bed congruent to receiving bed of intraosteal part; screw for plug fixation; main fixation screw for intraosteal and extraosteal part connection. Receiving beds of intraosteal part with three main pins and extraosteal part are horizontal. Thread on external surface of intraosteal part is buttress thread, with permanent profile along a part of length. Intraosteal part has stepped top, and on the upper surface a step of larger diametre is made for rest against bone. Extraosteal part has a form of truncated cone with three grooves and step of larger diametre for resting artificial crown against it. Extraosteal part and plug have three orifices each, congruent to main pins of intraosteal part. Main fixation screw connecting intraosteal and extraosteal implant parts has cylindric surface to ensure coaxiality of implant parts; two annular grooves on top for elastic seal, and a lug on screw head for screwing; top part of dental intraosteal two-stage implant is closed by plug.

EFFECT: improved dental implant.

2 cl, 2 dwg

Description

The present invention relates to medicine, in particular to dental implantology.

Currently, titanium intraosseous two-stage (osseointegrated) implants, both in our country and abroad, have gained the greatest popularity and widespread clinical use.

These implants consist of an assembly of two main structures - the intraosseous assembly unit and the extraosseous.

The intraosseous assembly unit of the structure, as a rule, is made in the form of a cylinder with a thread on the outer surface. At the point of contact with the cortical bone layer, this implant design has a smooth section, which is the transition zone and the junction of the two implant structures.

The extraosseous design also has a smooth area at the point of contact with the mucous membrane (neck) and the support itself for artificial crowns (head) with one form or another and the number of retention points that improve the fixation of crowns. The connection of the two implant designs takes place with congruent surfaces and is supplemented with special fixing screws.

Modern osseointegrated implants can achieve five-year success in 95%, ten-year success in 82% of cases [Smith D.E., Zarb G.A .. 1989]. However, the continuing excessive complexity of their designs and the high cost of implants do not entail an increase in the percentage of predicted implantation success.

Thus, the search for the most rational osseointegrated implant design, through which the masticatory load is adequately transmitted and distributed to the bone tissue, remains relevant, thereby reducing the rate of resorption of the implant and lengthening the life of the implant.

Closest to the proposed is a "dental screw intraosseous two-stage implant" - patent of the Russian Federation RU 2122374 C1, A61C 8/00, 02, November 22, 1996.

This implant includes an intraosseous part, an extraosseous part, a dummy screw, a base fixing screw for connecting the intraosseous and extraosseous parts.

A feature of the implant according to the prototype is the presence on the outer surface of their intraosseous structure, persistent thread along its entire length. The top of the intraosseous implant design is rounded with a radius of 2.5 mm and has three selections to give it the properties of a self-tapping screw. On the opposite side of this implant design, there is a hexagonal recess as a receiving bed for the extraosseous implant design. A chamfer at an angle of 30 degrees is removed along the edge of the hexagon for more tight articulation of the two implant designs. In addition to the hexagon, there is also an internal threaded hole for the plug screw and for the screw that fixes the two implant designs.

The extraosseous implant design is hollow, has a hexagonal shank congruent to that in the intraosseous structure, a neck and a cone rounded to it along a radius of 6 mm and a head with two parallel perimeter risks as retention points.

A fixation screw passes through the internal opening of the extra-bone implant design.

Using the hexagonal recess in the intraosseous implant design, three important problems were solved that arise directly during implantation during prosthetics and after the implant starts functioning:

a) the preliminary rotation of the extraosseous part of the implant around the axis.

Implantation using an implant prototype is carried out as follows in several stages:

The first stage is the formation of a bone bed and the installation of the intraosseous part of the implant with a plug for 3-6 months.

The second stage is the removal of the plug and the installation of the hexagonal shank of the extraosseous part of the implant in the intraosseous part of the implant with their screw fastening, the duration of this stage is 1.5 ... 2.0 weeks.

The third stage is prosthetics and the beginning of the functioning of the implant.

However, during the first stage, the cylindrical shape of the core of the intraosseous implant design with a top rounded off by a radius of 2.5 mm and three samples for a self-tapping screw, even with the appropriate tool, often does not allow, on the one hand, the implant to be inserted with good interface with bone tissue, on the other hand, to exclude in this case excessive pressure on the bone (tightness) in individual sections, since the bone bed is formed by three drills, each subsequent one having a larger diameter without a step, dividing the length of drilling from the cortical layer of the bone, to which the implant is "screwed", followed by closing with a plug; and tightening the implant into the bone and plugs into the implant at the beginning of the first stage of implantation and “unscrewing” the plugs from the implant at the end of the first stage cannot ensure the position of the upper part of the implant at the bone level in the absence of a support bed and support for a special tool;

during the second stage - fixing the extra-bone structure of the implant - it is not always possible to create supports for the prosthesis due to the presence of gaps during the free fit of the hexahedral planes of the extra-bone and intra-bone structures relative to each other, as well as because of the presence of a chamfer at an angle of 30 degrees between them, and the most dangerous: when tightening the screw, the intraosseous part of the implant with a self-tapping screw can rotate and thereby disrupt conjugation with bone tissue, which will lead to disruption of the first stage of operation s, have been absent from the top of the implant support flange;

during the third stage - after orthopedic treatment and the implant starts functioning due to thermal and mechanical stresses, the self-cutting edge of the intraosseous implant structure can lead to the formation of a pathological bone pocket, and the absence of thermal tightening of the fixing screw can lead to a weakening of the mechanical tightening of the screw, to mobility of the extraosseous design and intraosseous structure, which can lead to both breakdown of the fixing screw and the intraosseous part of the impl ntata in the upper third.

All this can negatively affect osseointegration, promote bone resorption and increase the risk of structural destruction at the level of any of its elements.

In the other, to avoid excessive pressure on the bone (interference fit) in individual areas, since the bone bed is formed by three drills, each subsequent one having a larger diameter without a step that determines the length of the drilling from the cortical layer of the bone to which the implant is “screwed” followed by closing with a cap; and tightening the implant into the bone and plugs into the implant at the beginning of the first stage of implantation and “unscrewing” the plugs from the implant at the end of the first stage cannot ensure the position of the upper part of the implant at the bone level in the absence of a support bed and support for a special tool;

during the second stage - fixing the extra-bone structure of the implant - it is not always possible to create supports for the prosthesis due to the presence of gaps during the free fit of the hexahedral planes of the extra-bone and intra-bone structures relative to each other, as well as because of the presence of a chamfer at an angle of 30 degrees between them, and the most dangerous: when tightening the screw, the intraosseous part of the implant with a self-tapping screw can rotate and thereby disrupt conjugation with bone tissue, which will lead to disruption of the first stage of operation s, as otstutstvuet in the upper part of the implant support flange;

during the third stage - after orthopedic treatment and the implant starts functioning due to thermal and mechanical stresses, the self-cutting edge of the intraosseous implant structure can lead to the formation of a pathological bone pocket, and the absence of thermal tightening of the fixing screw can lead to a weakening of the mechanical tightening of the screw, to mobility of the extraosseous design and intraosseous structure, which can lead to both breakdown of the fixing screw and the intraosseous part of the impl ntata in the upper third.

The objective of the invention is:

- reducing the risk of bone resorption;

- providing conditions for improving the interface of the implant with the bone;

- reducing the risk of forming a pathological bone pocket;

- reducing the risk of structural failure due to its mobility.

1. The task is achieved in that a dental screw intraosseous two-stage implant containing: a) a cylindrical intraosseous part made with thread on the outer surface, an internal threaded hole for the base fixing screw and a cover screw with a receiving bed for the extraosseous part; b) a hollow extraosseous part made with an external receptive bed congruent to the receiving bed of the intraosseous part; c) a screw for attaching the plug; d) a basic fixing screw for connecting the intraosseous and extraosseous parts, characterized in that the receptive bed of the intraosseous with three basic pins and extraosseous parts is made horizontal; thread on the outer surface of the intraosseous part is made resistant with a constant profile not along its entire length; the apex of the intraosseous part is stepped; a step of a larger diameter is made on the upper surface of the intraosseous part to support the bone; the extraosseous part is made in the form of a truncated cone with three grooves and a step of a larger diameter to support an artificial crown on it; the extraosseous part and the plug contains three holes congruent to the base pins of the intraosseous part; receptive bed inside the bone and extraosseous parts are made horizontal; the base fixing screw connecting the intraosseous and extraosseous parts of the implant has a cylindrical surface to ensure alignment of the implant parts; at the top has two annular grooves for elastic sealant, and on the head - a comb for screwing; the upper part of the dental intraosseous two-stage implant is closed with a special plug, which ensures its immobility when screwing in and out of the fixing screw at the first stage of implantation.

The goal is a method of implanting a dental screw intraosseous two-stage implant, including preliminary preparation of the implant, insertion of the intraosseous part of the implant into the bone and connection with the plug using a screw, removing the plug after 3-6 months and connecting the intraosseous and extraosseous parts of the implant using the base fixing screw, is achieved by the fact that during the preliminary preparation of the implant, the base pins are pressed into the intraosseous part of the implant after preliminary heating of the intraosseous part and cooling of the pins, a plug is installed on the base pins and the assembled structure is cooled in a special device, and the screw in a special device is heated and screwed into the intraosseous part of the implant, tightening it with a calibration key with a predetermined moment, when the temperature of the parts is equalized, thermomechanical tightening and details securely fasten together; during the second stage of implantation, holding the plug with a special key, “unscrew” the screw and dismantle the plug; Before joining the intraosseous and extraosseous parts of the implant, elastic sealant is injected into the intraosseous lower part of the implant channel, the precooled extraosseous part of the implant is mounted on the base pins, and the supporting lower end bed is connected to the upper bed of the intraosseous part of the implant using a heated alignment screw.

A new technical result of the invention is as follows:

1. The risk of developing bone resorption is reduced. This is ensured by the following distinctive design features of the proposed implant:

- a step of a larger diameter with a supporting bed on the bone located on the opposite side from the top of the intraosseous implant structure;

- the absence of three samples on top of the intraosseous implant design and its self-tapping screw properties.

2. Conditions are provided for improving the interface between the implant and the bone. This is achieved by screw thermomechanical fastening of the intraosseous implant design in the bone bed.

3. Reducing the risk of pathological bone pocket formation. This is ensured by the following distinctive design features of the proposed implant:

- stepwise different diameters of the top of the intraosseous implant design with a rational load on the cortical layer of bone tissue and the bone itself;

- a cap of the intraosseous implant design, when dismantled, the immobility of the intraosseous implant structure is maintained.

4. Reducing the risk of structural failure due to its mobility. This is achieved due to the constructive implementation of the intraosseous receiving lodges with three base pins and extraosseous structures horizontal and interconnected using thermomechanical fastening with a threaded screw with triple fixation (friction in the thread, elastic sealant, fixing seal).

Figure 1 shows the sketches of the drawings of the proposed implant design in three-dimensional graphics.

Figure 2 shows a sketch of the proposed design of the implant in a flat graphic.

Figure 1-2 indicated:

1 - intraosseous implant design,

2 - base pins,

3 - extraosseous implant design,

4 - fixing special base screw,

5 - fixing dental filling,

6 - longitudinal groove for fixing the artificial crown,

7 - inner and outer bone bed,

8 - internal thread of the intraosseous implant,

9 - medical elastic sealant,

10 - a special plug intraosseous implant design,

11 - a special screw securing the plugs,

12 - fixing dental filling,

13 is an assembly of the intraosseous and extraosseous implant structures in the internal and external bone bed for the second stage of implantation,

14 - assembly unit of the intraosseous implant design for the first and second stages of implantation,

15 is an extraosseous implant design for the second stage of implantation,

16 is an assembly of the intraosseous implant structure as part of the inner and outer bone bed for the first stage of implantation,

17 - design of the fixing special assembly base screw

node intraosseous and extraosseous implant designs for the second stage of implantation,

18 - internal and external supporting bone bed of the assembly site of the intraosseous structure for the first stage of implantation,

19 is a design of a special plug (with three support holes) of the intraosseous implant design for the first stage of implantation,

20 - design of a special screw for attaching the plug to the intraosseous implant design for the first stage of implantation.

The intraosseous assembly unit 16 of the implant design has a geometric cylinder shape with a persistent thread not along its entire length. The top of the intraosseous 14 implant design is stepwise of different diameters to give it the properties of a rational distribution of mechanical and thermal loads on the cortical layer of bone tissue and the bone itself. On the opposite side of this implant design there is a step of a larger diameter with a support bed 7 on the bone groove, and the end face with the base pins 2 evenly spaced around the circumference is a receptive bed for the extraosseous 15 implant design. In addition to the pins, there is also an internal hole with a thread 8 for the plug 10 with screw 11 and for screw 17, which fixes the two structures of the implant.

An extraosseous 15-step implant design is hollow, has a truncated cone with grooves 6 evenly spaced around the circumference with an external receiving bed for installation and fixation of the crown, which rests on the surface of a step of larger diameter. The butt of a large diameter has three holes evenly spaced around the circumference and is, when installed on the base pins 2, the supporting bed of the intraosseous 14 implant design. A fixing screw 4 passes through the internal opening of the extra-bone implant design, at the top of which there are two annular grooves, and a rectangular comb on the screw head.

The methodology of using the proposed screw intraosseous two-stage implant with a dental thermomechanical system and triple fixation consists of two successive stages.

The first stage of implantation:

During the surgical intervention, after local anesthesia and a mucous membrane incision, equal to the transverse perimeter of the outer diameter of the intraosseous implant structure 16, they start preparing the bone bed 18. For this, use a surgical dental unit with sterile cooling of saline solution to the tip and the working drill - milling cutter.

- The formation of the bone bed 18 under the external geometric dimensions of the assembly of the intraosseous implant structure 16 is carried out according to the following developed process:

1) a special cutting tool "drill-mill" by machining the outer surface of the bone is formed on the bone base surface 7 to support the intraosseous 1 implant design;

2) using the base surface 7 on the bone, the bone bed 18 is formed with a special “drill-cutter” cutting tool, and each subsequent tool has a larger diameter and a shorter length in accordance with the steps, the length and support of the intraosseous site of the implant structure 16;

3) using a tap (reamer) having a profile of the outer surface congruent to the implant, a thread is cut in accordance with the thread of the intraosseous 1 implant design.

- Assembly of the site of the intraosseous structure 16 of the implant and its installation in the bone bed are performed using a dental thermomechanical system according to the following developed process:

1) preparation of parts for assembly (intraosseous 1 implant design, base pins 2, plugs 10, screws 11) and their sterile processing;

2) the intraosseous 1 implant design in a special device is heated to a temperature of 60 degrees, and the base pins 2 in a special device are cooled to 0 degrees and pressed into the intraosseous 1 implant design;

3) on the base pins 2 (pressed into the intraosseous implant design 1), a plug 10 is installed and the assembled structure is cooled in a special device to a temperature of 0 degrees, and the screw 11 in a special device is heated to 60 degrees and “screwed” into the intraosseous 1 implant design and tighten it with a calibration wrench at a given moment, when the temperature of the parts is equalized, a thermomechanical tightness occurs and the parts are securely fastened to each other;

4) the assembled assembly 16 of the implant design (intraosseous 1 implant design, base pins 2, plug 10, screw 11) in a special device is heated to a temperature of 60 degrees and the “implant driver” is “screwed” until it contacts the base surface 7. Tighten with a calibration key with a predetermined torque, when equalizing the temperature of the intraosseous prefabricated structure 16 of the implant and the bone bed 18, a thermomechanical interference takes place, after which fixing seals 12 are inserted into the volumes formed in the plug 10 pin ami 2;

5) sutured the surgical wound. This completes the first stage of implantation.

The second stage of implantation:

- After (3-6) months after the completion of the osseointegration process (after the "engraftment" of the assembly unit 16 of the intraosseous implant structure), the second stage of implantation is carried out - using the dental thermomechanical system according to the following developed process:

1) using a small incision expose the intraosseous part of the implant;

2) holding the plug 19 with a special implant key, unscrew the screw 20 tightening the parts, dismantle the plug 19 and sterilize the internal cavity of the intraosseous implant structure 14;

3) preparation of parts for assembly of the assembly 13 (extraosseous 3 of the implant design, fixing screw 4), elastic medical sealant, material for filling;

4) the extraosseous 15 implant design in a special device is cooled to a certain temperature, and the base screw fixing the alignment of parts 17 in a special device is heated to a certain temperature, a certain amount of medical sealant is injected into the lower part of the channel 9 of the intraosseous 14 implant design, the extraosseous design 3 is installed on the base pins 2 and connect the supporting lower end bed to the upper end bed of the intraosseous implant structure 14, screw 4 and "are inserted into the internal cavity screw it into the intraosseous implant structure 14, tighten it with a calibration wrench with a given moment, after aligning the temperature of the parts of the implant assembly 13 and the bone bed 18, a fixing seal 5 is inserted into the upper internal cavity formed by the internal cylinder of the extraosseous implant structure 3 and the screw comb 4, after of which the intraosseous 14 and extraosseous 15 implant designs received thermal and mechanical tightness, and three fixations were brought to their connecting screw 17 (by friction of the threaded connection, rib hermetic seal retainer), which guarantees reliable and durable attachment of the implant components. As a rule, after 10-15 days prosthetics can be performed.

Thus, the proposed implant design allows you to solve the following tasks:

- the first stage of implantation is carried out with the introduction of the intraosseous implant design with a dental thermomechanical fastening system and bone support to create conditions for successful osseointegration - the most complete contact of the outer surface of the implant - the bone bed;

- during the second stage of implantation, alignment is maintained and the components of the implant construction are reliably connected to each other through the use of a dental thermomechanical fastening system and triple fixation of a specially connected screw;

- after orthopedic intervention and the start of the implant’s functioning, successfully completed osseointegration, a special resistant thread on its outer surface, an elastic sealant and a fixing seal dampen the implant’s vibrations from mechanical and thermal variable loads and thereby contribute to the rational transfer of the masticatory load to the bone bed and cause long service implant.

Claims (2)

1. Dental screw intraosseous two-stage implant, comprising: a cylindrical intraosseous part made with thread on the outer surface, an internal threaded hole for the base fixing screw and a cover screw with a receptive bed for the extraosseous part; a hollow extraosseous part made with an external receiving bed congruent to the receiving bed of the intraosseous part; screw for attaching the plug; a base fixing screw for connecting the intraosseous and extraosseous parts, characterized in that the receptive bed of the intraosseous with three base pins and extraosseous parts is made horizontal; thread on the outer surface of the intraosseous part is made resistant with a constant profile not along its entire length; the apex of the intraosseous part is stepped; a step of a larger diameter is made on the upper surface of the intraosseous part to support the bone; the extraosseous part is made in the form of a truncated cone with three grooves and a step of a larger diameter to support an artificial crown on it; the extraosseous part and the plug contains three holes congruent to the base pins of the intraosseous part; the base fixing screw connecting the intraosseous and extraosseous parts of the implant has a cylindrical surface to ensure alignment of the implant parts; on the top there are two annular grooves for elastic sealant, and on the head there is a comb for screwing; the upper part of the dental intraosseous two-stage implant is closed with a plug. 2. The method of implantation of a dental screw intraosseous two-stage implant, including preliminary preparation of the implant, insertion of the intraosseous part of the implant into the bone and connection with the cap using a screw, removal of the cap after 3-6 months and connection of the intraosseous and extraosseous parts of the implant using a base fixing screw, characterized the fact that during the preliminary preparation of the implant, the base pins are pressed into the intraosseous part of the implant after preliminary heating of the intraosseous nd part and cooling pins mounted to the base cover and pins assembled structure is cooled, is heated and the screw and screwed into its intraosseous portion of the implant by tightening its calibration key set moment; in the process of removing the plug, holding the plug, unscrew the screw and dismantle the plug; Before joining the intraosseous and extraosseous parts of the implant, elastic sealant is injected into the intraosseous lower part of the implant channel, the precooled extraosseous part of the implant is mounted on the base pins, and the supporting lower end bed is connected to the upper bed of the intraosseous part of the implant using a heated alignment screw.

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