RU2646560C2 - Dental endosteal implant - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to the implants, including surgical and orthopaedic stages in the manufacture of dental prostheses, in particular bridges, as supports, for which different types of implants are used, installed in the jaw by various surgical methods. A dental endosteal self-tapping screw implant has a conical lower part. The endosteal part of the implant contains a mesh cocoon in the form of a plain-top cone consisting of two and/or more layers of a cellular mesh made of titanium or gold, joint by laser welding. The screw part of the implant is designed to be screwed into the mesh cocoon after the expiration of its osseointegration.

EFFECT: invention allows to create an implant with the largest possible surface in order to ensure osteointegration, while maintaining the bone structure and eliminating the alveolar process reduction effect.

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Description

The invention relates to the field of medicine, specifically to implantology, including the surgical and orthopedic stages in the manufacture of dentures, in particular bridges, for which supports various types of V implants are used, which are installed in the jaw by various surgical methods.

A common problem with implant placement is anatomical and functional criteria.

Anatomical requirements include such indicators of the jaw bone as the width of the bone tissue of the alveolar process in the buccal-lingual direction, the volume of bone tissue between the roots of adjacent teeth, the amount of bone tissue above the mandibular canal or below the maxillary sinus bottom, etc. The following functional criteria include conditionally functional indicators: the safety of most of the alveolar ridge and the level of resorption of the alveolar ridge and the body of the jaw bone, the ratio of the compact and spongy parts of the bone tissue of the jaw s, the thickness of the cortical bone, and others. (Matveeva, AI, AL Kulakov, Kornyushin VI et al. Application of domestic implants in clinic of orthopedic dentistry. Guidelines, Moscow, 1991, 20 pp.).

According to most authors, the most important problem in implantology is osseointegration of the implant. Osteointegration in the literature is defined as a biolotic phenomenon, meaning the fusion of an inanimate element with living tissue (Philip Worthington, 1988). The determining factor for successful osseointegration is the properties of the implant surface for the reason that it directly contacts the bone tissue and enters into complex interactions with it. In this regard, it can be argued that the characteristics of the implant surface are of fundamental importance in achieving successful results in the use of implants.

Currently, in order to improve the characteristics of the implant surface, various manufacturers are processing it by physical and chemical methods, as well as applying a ceramic coating surface using various technologies. So, such methods of changing / increasing the surface of the implant and improving its adhesive properties have been successfully applied as: 1) sandblasting the surface; 2) acid etching; 3) SLA processing - "Sand-blasted. Large grit. Acid-etched" - coarse-grained sandblasting and acid etching at a certain temperature regime (for example, Straunrann implants, Solo implants (Russia), Standard Plus implants of the RGS "NIKO" series (Russia); 4) Anodizing (to achieve a micro or nanoporous surface) is carried out in solutions of strong acids (H2SO4. H3PO4, HNO3, HF) at a high current frequency (200A / m ² ) or potential (100 V); 5) Titanium plasma coating (TPS) - injection of titanium powders into plasma welding at high temperature, at which titanium particles settle on the surface of the implant, where they condense and sinter with each other, forming a film 30 microns thick; 6) the application of various types of coatings (for example, from hydroxyappatite). However, despite numerous studies and applied technologies, the characteristics of the ideal implant surface are still in the process of formation.

The closest technical solution is the well-known Alfa Dent implant of various types, widely used abroad and in the Russian Federation, for example, Alfa Dent classic - PROTOTYPE, see http://alpha-dent-implants.ru/store/13482/13551/.

Its disadvantage is (with all its positive advantages) still an insufficient area of its contact - contact with bone tissue.

The technical task of the invention is to increase the surface of the implant in order to ensure osseointegration, while maintaining the structure of the bone and leveling the effect of "reduction of the alveolar process".

The technical result is achieved through the use of a new implant construct, namely the use of mesh cocoons in it.

Anatomical requirements include such indicators of the jaw bone as the width of the bone tissue of the alveolar process in the buccal-lingual direction, the volume of bone tissue between the roots of adjacent teeth, the amount of bone tissue above the mandibular canal or below the maxillary sinus floor, etc. The following indicators are functional criteria. : preservation of the greater part of the alveolar process and the level of resorption of the alveolar ridge and the body of the lean bone, the ratio of the compact and spongy parts of the jaw bone, thickness and the cortical part of the bone, etc. (Matveeva A.I., Kulakov A.L., Kornyushin V.I. Use of domestic implants in the clinic of orthopedic dentistry. Guidelines. Moscow, 1991, 20 pp.).

To solve this problem, a dental intraosseous implant is proposed, containing a single Alpha Dent implant made in the form of a self-tapping screw, characterized in that the intraosseous part of the implant contains a mesh cocoon in the form of a cone, consisting of two and / or more layers of fine mesh made of titanium or gold, and the implant itself, thanks to the presence of an external thread, can be screwed into a mesh cocoon; the mesh cocoon is open at the top and has a closed conical lower part, and the sizes of the cocoon are selected from the size of the screw part of the implant.

The drawing shows the structure of the implant based on Alpha Dent Classic with a cocoon in section, on which: 1 - the implant itself, 2 - the external thread of the implant, 3 - a three-layer mesh cocoon, 4 - the lower cone-shaped part of the implant, the inside of the implant for a screwdriver is not conventionally shown , mesh cocoon conditionally distant from the external thread of the implant. The connection of the grids to each other is also not shown.

Structurally, the proposed implant is as follows.

Preliminarily notice. Currently, in order to improve the characteristics of the implant surface by various manufacturers, it is being processed by physical and chemical methods, and a ceramic coating is applied to the surface using various technologies. So, such methods of changing / increasing the surface of the implant and improving its adhesive properties have been successfully applied, such as: 1) sandblasting the surface; 2) acid etching; 3) SLA processing - "Sand-blasted, Large grit, Aced-etched" - coarse-grained sandblasting and acid etching at a certain temperature regime (for example, Straumarm implants, Solo implants (Russia), Standard Plus implants RGS "NIKO"(Russia); 4) Anodizing (to achieve a micro- or nanoporous surface) is carried out in solutions of strong acids (H2SO4, H3PO4, HNO3, HF) at a high current frequency (200A / m ² ) or potential (100V); 5) Titanium plasma coating (TPS) - injection of titanium powders into plasma welding at high temperature, at which titanium particles settle on the surface of the implant, where they condense and sinter with each other, forming a film 30 microns thick; 6) the application of various types of coatings (for example, from hydroxyappatite). However, despite numerous studies and applied technologies, the characteristics of the ideal implant surface are still in the process of formation.

The mesh part of the implant consists of titanium (or gold) fine-mesh two- or three-layer or more grids, due to its area / volume ratio it provides the maximum usable area for subsequent osteosynthesis and osseointegration, while doing minimal damage to adjacent tissues by reducing the effect of compression. At the time of implantation, the mesh part can be filled with any biogel in order to eliminate a blood clot and improve repair processes. Over the length of time necessary for the osseointegration of the mesh part of the implant, a screw part is screwed into it, which differs from the classical one with a smaller diameter.

This invention allows to solve all the problems of dental implantology due to the increased surface compared to classical implant systems - it allows to achieve better osseointegration; - a combination of screw and mesh parts provides a fairly stable mount; - thanks to the design of the mesh part, it is possible to introduce medicinal substances / gels that improve the processes of osseointegration and reduce the severity of inflammatory manifestations.

The manufacture of a cocoon in the form of several layers of fine mesh in our time (the beginning of nanotechnology) does not present any difficulties; cocoon nets (rolled-up construction) are fastened together by laser welding.

The present invention meets the basic economic law of "cost-effectiveness".

Claims (1)

Dental intraosseous self-tapping screw implant with a cone-shaped lower part, characterized in that the intraosseous part of the implant contains a mesh cocoon in the form of a cone open from above, consisting of two and / or more layers of a fine mesh of titanium or gold, connected by laser welding, while the screw part the implant is made with the possibility of screwing into a mesh cocoon after the expiration of its osseointegration.

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