RU2798697C1 - Biphasic shape memory gerodental implant - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: two-phase gerodental implant with shape memory made of a nickel-titanium alloy, in a single block and conditionally divided into intraosseous and extraosseous parts. The intraosseous part contains a threaded part along the vertical axis for fixation in the bone tissue, above which shock-absorbing elements with shape memory are located, then a fine thread is made with the possibility of fixing the implant in the cortical bone plate, then the cervical part is made. The extraosseous part is located above the intraosseous part and contains a conical ledge. The upper end contains a recess in the form of an internal hexagon, in the center of which an internal threaded hole is made with the possibility of connecting the abutment to the intraosseous part of the implant.

EFFECT: invention provides proper shock-absorbing function, as well as prevention of mucositis and peri-implantitis.

1 cl, 1 ex, 1 dwg

Description

The claimed technical solution relates to dental implants, specifically to implants mainly for older and middle-aged people, installed in the bone by performing the installation in two stages (two-phase establishment).

The claimed technical solution can be used in dental implantology for the purpose of simultaneously reducing the complexity of the implantation technology and ensuring a reduction in the rejection of the implant from the bone tissue through the use of a shock-absorbing element installed in the intraosseous part of the implant, which (shock-absorbing element) ensures that the implant approaches the bone tissue and cushions in it, similar to the action of the periodontal ligament, which is present in a healthy tooth and is necessary for the full functioning of the chewing process.

Further, the applicant presents the terms to avoid ambiguous interpretation of the application materials.

Biphasic implantation is a classic implantation technique that involves two stages: implant placement and its engraftment in bone tissue (osseointegration) within 3-6 months; fixation of the gum shaper and after 2 weeks - fixing a temporary prosthesis on the implant, and later - a permanent one. [https://www.compsmile.ru/uslugi/implantaciya-zubov/dvuhjetapnaja/].

Advantages of two-stage implantation: high survival rate; the possibility of restoring the dentition in cases where single-phase implantation is impossible - with insufficient bone width, inflammatory processes, some structural changes in bone tissue [https://100med.ru › kakoy-method-implantatsii-vybrat].

Gerontology is a science that studies the biological, social and psychological aspects of human aging, its causes and ways to deal with it (rejuvenation). The term was introduced by I.I. Mechnikov in 1903 [https://ru.m.wikipedia.org/wiki/Gerontology].

A gerodental implant is an implant for cases with age-related (gerontological) changes in the jawbones.

Peri-implantitis is a destructive inflammatory process that affects the soft and hard tissues surrounding dental implants. The soft tissues become inflamed, while the alveolar bone (hard tissue) that surrounds the implant for retention is lost over time /https/en.wikipedia.org/wiki/Peri-implantitis].

The cortical plate of a bone is a plate of compact bone substance. The outer and inner surfaces of the alveolar processes consist of a compact substance of lamellar bone, which forms the cortical plate of the alveolar process [https://dentblanc.ru/articles/azbuka-patsienta/14-azbuka-patsienta/ Cortical bone plate].

Existing dental implants are still largely inferior to their natural counterparts. A natural tooth, when subjected to vertical impact, is known to be able to move at a distance of up to 20 microns.

Human teeth are connected by the periodontal ligament, which is necessary for the full functioning of the masticatory process by providing cushioning between the roots of the teeth and the alveolar bone. The absence of such a structure in implants implanted into the bone does not allow full implementation of the shock-absorbing function of the implants, which leads to their extremely low mobility and the ability to deviate only in one plane. The distance that an artificial tooth can deviate when loaded on it is only a tenth of the same indicator for a natural one, i.e. up to 2 microns. Such a low mobility with a sufficiently strong impact can cause mechanical damage to the implant, as well as lead to a fracture of its base - the abutment. Natural teeth located next to artificial ones are also at risk. Due to their connection with a fixed prosthesis, chewing forces are distributed unevenly, and the natural teeth themselves, when crowns are put on them, also become limited in movement.

The described phenomenon is considered one of the fundamental factors contributing to the occurrence of peri-implantitis (an inflammatory process around the implant).

At the date of submission of the application materials, dentures have been developed to reduce the likelihood of implant rejection by providing a natural distribution of masticatory pressure from the implant to the bone part (alveolus). To do this, the implants are divided into an intraosseous part, which is implanted in the jaw bones, and a periosteal - coronal part, external, which excludes rigid fastening between the intraosseous and periosteal - coronal parts of the implant.

So, the invention is known according to the patent of the Russian Federation No. 2023437 "Dental implant". The essence is a dental implant, consisting of an intraosseous part corresponding to the configuration of the root of the extracted tooth, with a recess made along the axis of the intraosseous part, and a crown part, consisting of an outer and an inner part, while the inner part is located in the recess of the intraosseous part and has a means of fixation, characterized in that the inner part of the crown part is made in the form of an elliptical paraboloid and is equipped with a shock absorber located between the side surfaces of the recess and the inner part.

The disadvantages of the known implant is the lack of strength of the structure as a whole, as a result of which it may break as a result of operation.

A utility model is known according to RF patent No. 94842, the essence is a dental implant for prosthetics of teeth, containing a root part made in the form of an oblong element with a blind hole, and an abutment in the form of a rod inserted into the cavity of a blind hole, to the bottom of which one end of the placed in the cavity of this hole of the elastic element, the other end of which is pressed against the end surface of the abutment rod, characterized in that the elastic element is made in the form of a coiled compression spring, the rod is made of a non-circular section, the blind hole is made with a section that repeats the section of the rod, which from the side of interaction with the coil spring is made with a spherical head, the diameter of which is larger than the transverse dimension of the rod, while in the wall of the blind hole of the root part, a spherical recess is made, corresponding to the shape of the spherical head of the rod, and the height of which is greater than the height of the spherical head of the rod to ensure axial movement of this rod in the area spherical depression and angular displacement.

The disadvantages of the known utility model are determined by the properties of the spring, namely, the possibility of losing its elasticity over time, which leads to the danger of the occurrence and development of peri-implantitis.

A utility model is known according to RF patent No. 99959, the essence is a dental implant for prosthetics, containing a root part made in the form of an oblong element with a blind hole, and a mobile base in the form of a rod inserted into the cavity of a blind hole, to the bottom of which one end is attached placed in the cavity of this hole of the elastic element, the other end of which is pressed against the end surface of the rod, characterized in that the elastic element is made in the form of an elastic block of a polymeric material or alloy or in the form of a helical spring, screwed into the bottom of the blind hole of the root part, the rod on the side opposite to the side of support on the elastic block, it is made with an element for attaching the orthopedic structure and is made cylindrical with a transverse dimension exceeding the transverse size of the rod from the side of support on the elastic block, while the section of the transition of the cylindrical part of the rod to the part based on the elastic element is made in the form of a fragment of the surface of the second order, and the wall of the blind hole in the area of contact with the surface of the rod in the form of a fragment of the surface of the second order and with the cylindrical surface of this rod is made to repeat the outer surface of this rod.

The disadvantage of the utility model is the complex shape of the elements, which, together with the small dimensions of the implant, determines the complexity of its manufacture and installation, i.e. generally characterized by low manufacturability when used for its intended purpose

Known RF patent No. 2296531, the essence of which is a collapsible dental implant containing an intraosseous part made of a bioinert porous material, and a crown part consisting of an outer part with an artificial tooth and an inner part, while the inner part is equipped with a shock-absorbing pad, characterized in that the intraosseous the part has the shape of a hollow cylinder with a bottom, the inner side surface of the cylinder is made in the form of an ellipsoid of revolution, inside the cylinder there is a conical sleeve with an internal thread, tapering downwards, at least three longitudinal slots are made on the surface at an equal distance from one another, shock-absorbing the gasket is located between the inner surface of the cylinder and the outer surface of the sleeve, inside which the screw is placed, and the shock-absorbing washer is placed in the gap between the artificial tooth and the upper plane of the intraosseous part.

The disadvantage of the prototype is the low mobility of the dental implant compared to the natural tooth.

Also known is the utility model of the Russian Federation No. 147498, the essence of which is a dental implant with a shock-absorbing element containing a crown part and an intraosseous part made of a bioinert porous material, characterized in that the intraosseous part has a blind hole along the vertical axis, in the upper part it is made in the form of a cavity hexagon for screwing the intraosseous part of the implant into the jaw bone bed, in the lower one with an internal thread for the connecting screw, and the shock-absorbing element is made in the form of a fluoroplastic abutment, consisting of three parts, crown in the form of a cylinder, cervical in the form of an inverse cone with a support platform for the crown and intra-implant in the form of a hexagon, compatible in size with the internal hexagonal cavity of the intraosseous part of the implant, to prevent rotation of the abutment, while the abutment is made with a hole through the vertical axis of two diameters, creating a support platform for the connecting screw at the transition site, and in the abutment cavity above a fluoroplastic insert is placed with a screw head.

The disadvantage of the model is the wear of the fluoroplastic shock absorber during the operation stage and the need to replace it, as well as the relaxation of the connecting screw due to the wear of the fluoroplastic and the appearance of suprastructure play, which can lead to the appearance of a niche for the accumulation of microflora, which in turn can lead to mucositis and peri-implantitis.

The technical result of the claimed technical solution is a two-phase shape-memory gerodental implant that provides the proper shock-absorbing function, as well as ensuring the functionality of the implant and preventing mucositis and peri-implantitis.

The essence of the claimed technical solution is a two-phase gerodental implant with shape memory, made of a nickel-titanium alloy, a single block and conditionally divided into intraosseous and extraosseous parts, while the intraosseous part contains a threaded part along the vertical axis in its middle part, above which shock-absorbing elements are located with shape memory, then a fine thread is made with the possibility of fixing the implant in the cortical bone plate, then the cervical part is made; while the extraosseous part is located above the intraosseous part and contains a conical ledge, while the upper end contains a recess in the form of an internal hexagon, in the center of which an internal threaded hole is made with the possibility of connecting the abutment to the intraosseous part of the implant.

The claimed technical solution is illustrated in Fig.

On FIG. the claimed two-phase shape memory gerodental implant is presented, where:

1 - intraosseous part;

2 - extraosseous part;

3 - internal hexagon;

4 - conical ledge;

5 - cervical part;

6- fine thread;

7 - cushioning elements with shape memory;

8 - threaded part;

9 - internal threaded hole.

Further, the applicant provides a description of the claimed technical solution.

The claimed technical solution implements the possibility of minimizing implant rejection by ensuring uniform distribution of masticatory pressure from the implant to the bone part (alveolus), which is achieved through the use of shape memory elements made of titanium nickelide and installed in the intraosseous part of the implant.

The goal is achieved by developing the design of the claimed two-phase gerodental implant with shape memory (hereinafter referred to as the implant) (see Fig.).

The claimed implant is made of a nickel-titanium alloy and is made in a single block, conditionally divided into intraosseous 1 and extraosseous 2 parts.

The intraosseous part 1 is placed in the alveolar process of the jaw instead of the missing tooth, and contains along the vertical axis in its middle part:

– threaded part 8 for primary fixation of the implant in the bone tissue;

– above which shock-absorbing elements with shape memory 7 are located, made, for example, in the form of petals, a semicircle (including, but not limited to), located on a cone-shaped base – they perform a shock-absorbing, fixing and remodeling function of bone tissue;

– further, a fine thread 6 was made with the possibility of fixing the implant in the cortical bone plate;

– then the cervical part 5 is made.

The extraosseous part 2 is located above the intraosseous part 1, and contains:

– conical ledge 4;

- the upper end containing a recess in the form of an internal hexagon 3, in the center of which an internal threaded hole 9 is made with the possibility of connecting the abutment (periosteal seat for the prosthesis) with the intraosseous part of the implant.

The claimed implant is made, for example, by casting. The thread is made, for example, by milling.

The following is an example of the implementation of the claimed technical solution.

Example . Installation of the claimed implant in the jawbone.

Patient D., 77 years old, lack of teeth in the lower jaw, complete atrophy of the alveolar processes.

Two declared implants were made according to the algorithm described above.

An artificial bed was prepared, the implants were screwed between the mental holes of the lower jaw, then a plug screw was inserted into the internal hexagon and the internal threaded hole and screwed in until it was completely fixed. Left to complete integration with bone tissue, for example, for 6 months.

In the control image of the claimed implants, after 3 months, straightened shock-absorbing elements were observed, which assumed their original shape due to shape memory, acting similarly to the action of the periodontal ligament, which is present in a healthy tooth and is necessary for the full functioning of the chewing process.

After 4-6 months, the cover screw was unscrewed, the fixing screw and the abutment protruding above the bone part of the implant were installed.

They made an artificial tooth crown and installed it in patient D. on the installed implants.

Patient D. was observed for 12 months. During this time, no mucositis and peri-implantitis were observed, and chewing functionality was ensured.

As a result, the chewing efficiency of the jaw was restored and a satisfactory aesthetic appearance of the patient was achieved.

The claimed design of the implant contributes to the uniform distribution of the load on both single crowns and bridges. Thus, the design of the implant provides additional points of support for the implant on the alveolar process in order to increase its functionality.

Thus, from the above, we can conclude that the applicant has achieved the claimed technical result , namely, a two-phase shape memory gerodental implant has been developed that provides the proper shock-absorbing function, as well as ensuring the functionality of the implant and preventing mucositis and peri-implantitis.

The claimed technical solution satisfies the “novelty” patentability condition for inventions, since when determining the prior art, no tool was found that has features that are identical (that is, matching the sequence of operations performed and the design features of the device) listed in the independent claims of the claims, including the characteristic destination.

The claimed technical solution satisfies the condition of patentability "inventive step", as it is not obvious to specialists in the field of dentistry.

The claimed technical solution satisfies the condition of patentability "industrial applicability", since the claimed technical solution has been tested in the conditions of the Department of Dentistry and Implantology of the Kazan (Volga Region) Federal University.

Claims (1)

A two-phase gerodental implant with shape memory, made of a nickel-titanium alloy, in a single block and conditionally divided into intraosseous and extraosseous parts, while the intraosseous part contains a threaded part along the vertical axis for fixation in the bone tissue, above which shock-absorbing elements with shape memory are located, then a fine thread is made with the possibility of fixing the implant in the cortical plate of the bone, then the cervical part is made; while the extraosseous part is located above the intraosseous part and contains a conical ledge, while the upper end contains a recess in the form of an internal hexagon, in the center of which an internal threaded hole is made with the possibility of connecting the abutment to the intraosseous part of the implant.

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