RU147498U1 - DENTAL IMPLANT WITH SHOCK ABSORBER - Google Patents

Abstract

A dental implant with a shock-absorbing element containing a crown part and an intraosseous part made of bioinert porous material, characterized in that the intraosseous part has a blind hole along the vertical axis, in the upper part is made in the form of a hexagon cavity for screwing the intraosseous part of the implant into the bone bed of the jaw, in the lower one with internal thread for the connecting screw, and the shock-absorbing element is made in the form of an abutment made of fluoroplastic, consisting of three parts, a crown in the shape of a cylinder, a conical in the shape of a reverse cone with a supporting platform for the crown and an intraimplant in the form of a hexagon, compatible 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 bore through the vertical axis of the hole of two diameters creating a support a pad for the connecting screw, and a fluoroplastic liner is placed in the abutment cavity above the screw head.

Description

The utility model relates to the field of medical prostheses, namely, devices for prosthetics on implants. Ensures minimization of implant rejection by providing a natural distribution of chewing pressure from the implant to the bone part (alveoli), which is achieved by eliminating the rigid attachment between the intraosseous and coronal parts of the implant by using a shock-absorbing element made of fluoroplastic material installed between the intraosseous and coronal parts, and can be used (utility model) in dental implantology for the purpose of simultaneously reducing the complexity of technical ogy implantation and enable reduction of rejection of the implant from the bone by the use of cushioning member and the PTFE graft structure having a similar property to the natural tooth ability to move vertically when exposed to a distance of 20 microns. The deformation behavior of structurally modified fluoroplast-4 (F-4RM, TU 2213-103-00208982-2007, "FORPLAST") is similar to the deformation behavior of bone tissue, tooth periodontal, i.e. biological tissues.

As you know, a natural tooth in the process of chewing food, is affected, as a result of which the tooth is able to move up to 20 microns, which ultimately ensures the implementation of the natural functions of the tooth.

Existing osseointegrated dental implants are still far inferior to their natural counterparts.

Human teeth are connected by a periodontal ligament (a kind of shock absorber), necessary for the full functioning of the chewing process. The absence of such a structure in implants implanted into the bone leads to their extremely low mobility and ability to deflect only in one vertical plane.

The distance that an artificial tooth is able to deviate when loaded on it is only a tenth of the same indicator for a natural one - 2 microns. Such a low mobility with a sufficiently strong impact can cause mechanical damage to the implant and its connecting elements. Natural teeth are at risk if they are structurally associated with the implant. As a result of the connection of supports (natural teeth, implants) with varying degrees of mobility, the masticatory forces are distributed unevenly, causing their functional overload. The described phenomenon is considered one of the main factors contributing to the occurrence of disintegration of the implant and the development of periodontitis in the teeth associated with the implant. Similar processes are most often observed when using bridges based on implants and natural teeth.

Dentures have been developed to reduce the likelihood of rejection of the implant by providing a natural distribution of chewing pressure from the implant to the bone part (alveolus). To do this, the implants are divided into the intraosseous part, which is implanted in the jaw bone, and the crown (outer) part and exclude rigid attachment between the intraosseous and coronal part of the implant by using various materials and structures with shock-absorbing properties.

From the investigated prior art revealed "Dental implant" according to the patent of the Russian Federation No. 2023437, A61C 8/00. The implant contains 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, consisting of the outer and inner parts. The inner part is located in the deepening of the intraosseous part and has a fixation means. 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 cushioning layer is made of silicone rubber. The main disadvantage of this design is the imperfection of the fixation means, when using which the shock-absorbing layer ceases to function.

From the patent of the Russian Federation No. 94842 a dental implant for dental prosthetics is known, which contains a root part made in the form of an oblong element with a blind hole, and an abutment in the form of a rod of non-circular cross section inserted into the cavity of the blind hole, to the bottom of which one end is attached to the cavity this opening of the coil compression spring. The blind hole is made with a section repeating the cross section of the rod, which is made with a sphere-shaped head from the side of interaction with the coil spring, the diameter of which is larger than the transverse size of the rod, while in the wall of the blind hole of the root part there is a sphere-shaped recess corresponding to the shape of the rod-shaped rod head and height which is greater than the height of the spherical head of the rod to ensure axial movement of this rod in the area of the spherical shape of the recess and angular displacement. The disadvantages of this utility model are determined by the properties of the spring, namely the possibility of losing the established elasticity over time, which leads to the possibility of development (occurrence) of peri-implantitis.

From the patent of the Russian Federation No. 99959 a dental implant for prosthetics is known, which contains 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 the blind hole, under which the elastic element is placed. One end of the elastic element is attached to the bottom of the blind hole, the other end of this element is pressed against the end surface of the rod. 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 a blind Hole of the root part. The rod from the side opposite to the abutment side of the elastic block is made with an attachment element of the orthopedic structure and is made cylindrical with a transverse dimension exceeding the transverse dimension of the rod from the abutment side of the elastic block. The transition section of the cylindrical part of the rod to the part resting on the elastic element is made in the form of a fragment of a second-order surface (arc-shaped, sphere-shaped, etc.), 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 a second-order surface and with the cylindrical surface of this rod is made repeating the outer surface of this rod. The disadvantage of the utility model is the large number of elements, their complex shape, which together with the small size of the prosthesis determines the complexity of manufacturing and installation. In addition, the elasticity of the shock absorber at the base may not be sufficient to distribute the load.

The closest analogue is a collapsible dental implant according to RF patent No. 2296531, selected by the applicant as a prototype, which contains an intraosseous part made of bioinert porous material, and a crown part consisting of an external with an artificial tooth and internal parts. In this case, the inner part is equipped with a shock-absorbing pad. The intraosseous part has the shape of a hollow cylinder with a bottom, the inner lateral 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, narrowing downwards, at least three longitudinal slots are made at an equal distance from one another, a shock-absorbing pad is located between the inner surface of the cylinder and the outer surface of the sleeve, inside of which a screw is placed, and the shock-absorbing washer is placed in the gap between the artificial tooth and the top her plane intraosseous part.

The disadvantage of the prototype is low compared with a natural tooth, the mobility of the dental implant.

The claimed utility model is aimed at solving the technical problem of creating an implant design with properties close to those of a natural tooth (the ability to move when vertically exposed to a distance of up to 20 microns) while ensuring an even load distribution on adjacent artificial and natural teeth, as well as increasing functionality implant.

The technical result is achieved due to the design of the implant and the materials used. Between the intraosseous part and the crown of the artificial tooth, a shock-absorbing abutment made of fluoroplastic is placed, which (the abutment) consists (conditionally divided) of three parts: the crown, cervical and intraimplant.

The crown part of the abutment has a cylindrical shape; cervical - the shape of the inverse cone with a supporting platform for the crown; the intra-implant part is the shape of a hexagon, the size of which is compatible with the internal hexagonal cavity of the intraosseous part of the implant.

A vertical hole passes through the vertical axis of the fluoroplastic abutment (two diameters, creating a support pad at the transition point) for the connecting screw, with which the abutment is attached to the intraosseous part of the implant, and a fluoroplastic insert is placed in the cavity formed after the connection above the screw in the abutment.

The proposed design promotes an even distribution of the load on the adjacent artificial and natural teeth. The implant stroke is up to 20 μm and is ensured by the elastic-plastic properties of the fluoroplastic (F-4RM, TU 2213-103-00208982-2007, "FORPLAST") shock-absorbing abutment and the proposed implant design.

In FIG. shows a longitudinal section of the claimed implant.

According to the claimed utility model, a dental implant contains:

- intraosseous part 1, made of bioinert porous material, having a blind hole, in the upper part in the form of a cavity of the hexagon 7, in the lower part with an internal thread for the connecting screw;

- artificial tooth crown 8;

- shock-absorbing abutment made of fluoroplastic 2, placed between the crown 8 and the intraosseous part 1 of the artificial tooth, which (the abutment) consists (conditionally divided) of three parts: crown 3, cervical 4 and intraimplant 5;

- connecting screw 6 for attaching the abutment to the intraosseous part 1 of the implant;

- PTFE liner (not shown in Fig.), installed in the cavity formed above the screw head in the abutment.

Utility Model Implementation

A dental implant contains an intraosseous part 1 made of bioinert porous material, placed in the alveolar bone of the jaw instead of the missing tooth. The intraosseous part 1 of the implant has the shape of a cylinder with an external thread (looks like a self-tapping screw) for fastening in the jaw bone and a blind hole along the vertical axis, in the upper part as a hexagon cavity 7, in the lower part with an internal thread for the screw connecting the abutment to the intraosseous part implant.

The cavity in the form of a hexagon 7 serves to screw the intraosseous part of the implant into the bone bed of the jaw. An intraosseous part of the implant 1 is placed in the prepared artificial bed, then a dummy screw is inserted into the intraosseous part, it is screwed until it is fully fixed and left until the intraosseous part of the implant is fully integrated with the bone tissue of the jaw. After 4-6 months, the screw is unscrewed, an abutment 2 is installed, protruding above the bone part of the implant, and fixed on the intraosseous part by means of a screw, the cap of which rests on the internal abutment support platform. A fluoroplastic insert is placed in the cavity formed above the screw head in the abutment.

Next, an artificial tooth crown 8 is installed, which is fixed on the abutment in a known manner, for example, by means of a filling composition (cement) or an identical material.

When chewing using the inventive implant, micro-excursions of the crown part occur similar to micro-excursions of the tooth in the periodontium within physiological mobility due to movable reliable fixation, which was not achieved in the prototype. The design of the inventive implant allows, together with the possibility of multiple changes of the intracoronal part when it is worn, in comparison with the known analogues, to increase the life of the dental implant.

The ability of a natural tooth to move up to a distance of 20 microns is ensured by the elasticity of the “shock absorber” provided by nature - the connective tissue of Sharpey fibers (Article "Abutment with a micro shock absorber" (author - Dr. Thomas Lauks (University of Sarajevo), posted online on the Internet on the official website “DENT” of Adent company, at the following address: http://ident2.ru/catalogue/abatmenta/article/). The abutment made of fluoroplastic used in the claimed technical solution has similar properties.

Thus, an implant of the claimed design with a fluoroplastic abutment, possessing almost the same mobility as a natural tooth, provides the necessary and sufficient mobility and simultaneous displacement of an artificial tooth (implant) and natural teeth, thereby guaranteeing a non-traumatic regime for the human jaw bone bed load in the process of chewing food.

The inventive utility model is industrially applicable, can be manufactured using well-known technologies used in the manufacture of implants in modern dentistry.

Claims (1)

A dental implant with a shock-absorbing element containing a crown part and an intraosseous part made of bioinert porous material, characterized in that the intraosseous part has a blind hole along the vertical axis, in the upper part is made in the form of a hexagon cavity for screwing the intraosseous part of the implant into the bone bed of the jaw, in the lower one with internal thread for the connecting screw, and the shock-absorbing element is made in the form of an abutment made of fluoroplastic, consisting of three parts, a crown in the shape of a cylinder, a conical in the shape of a reverse cone with a supporting platform for the crown and an intraimplant in the form of a hexagon, compatible 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 bore through the vertical axis of the hole of two diameters creating a support a pad for the connecting screw, and a fluoroplastic liner is placed in the abutment cavity above the screw head.

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