RU116767U1 - DENTAL IMPLANT - Google Patents

Abstract

An implant for dental prosthetics, comprising a conical coronal part and a cylindrical intraosseous part combined into a permanent neck connection with external longitudinal protrusions, beveled in the direction from the cervical zone to the apical zone, and transverse grooves located between the longitudinal protrusions, characterized in that the surface of the intraosseous part contains silver microparticles.

Description

The utility model relates to medical equipment, namely, to intraosseous cylindrical implants, and can be used in dentistry for implantation of artificial tooth roots of the upper and lower jaws.

There is a wide variety of cylindrical dental implants having various structural elements on their intraosseous part for securing the product in the alveolar crest of the jaw. However, the known cylindrical structures do not fully solve the problem of reliable fixation of the implant in the bone by fixing it in the bed in compliance with the conditions of antirotation and resistance to axial displacements during prolonged action of functional chewing loads. In addition, the surface of the intraosseous part does not have the ability to exert a bactericidal effect on the surrounding biostructures in the process of implant engraftment and functioning, which usually requires the introduction of drugs into the implantation zone.

Known dental implant with antirotational stabilization, containing one-piece conical coronal and cylindrical intraosseous parts, between which the neck is located, while on the intraosseous part there are external longitudinal protrusions, beveled in the direction from the cervical zone to the apical zone [RF patent No. 2375011]. The design provides a firm fixation of the implant with fixation from rotation, but does not allow for its accelerated safe engraftment due to the lack of bactericidal action of the surface of the intraosseous part.

The utility model closest in technical essence is the design of the intraosseous dental implant, containing one-piece conical coronal and cylindrical intraosseous parts, between which the neck is located, while on the intraosseous part there are longitudinal protrusions, beveled in the direction from the cervical zone to the apical zone, and transverse grooves located between the longitudinal protrusions [RF patent No. 95502]. This design provides fixation of the implant in the bone with its fixation from rotation and eliminates the possibility of axial displacement during chewing loads. The disadvantage of this design is the absence on the surface of the intraosseous part of bactericidal elements for accelerated engraftment of the implant without the risk of rejection.

The objective of the utility model is to create an implant design that provides increased strength of its fixation in the bone bed with high rotation resistance and axial displacements, as well as ensuring the bactericidal action of the surface of the intraosseous part.

The problem is solved as follows. In the proposed implant containing one-piece conical coronal and cylindrical intraosseous parts, between which the neck is located, while on the intraosseous part there are longitudinal protrusions, beveled in the direction from the cervical zone to the apical zone, and transverse grooves located between the longitudinal protrusions, the surface of the intraosseous part is made containing bactericidal silver microparticles with a size of 1.0-2.0 microns.

Description of the design.

In FIG. The proposed implant design is presented, including the crown part 1 in the form of a truncated cone to accommodate the tooth prosthesis, the intraosseous part 2 in the form of a cylinder with a hemispherical apical base, the neck 3 combining parts 1 and 2, the longitudinal protrusions 4 with the upper edge chamfered from the cervical area to the apical zone of the intraosseous part, and the transverse grooves 5 located between the longitudinal protrusions 4. The surface of the intraosseous part is made with the content of silver microparticles with a size of 1.0-2.0 μm (the point shows mi).

To install the implant in the jaw bone, a cylindrical bed is performed in which the intraosseous part of the structure is fixed. Moreover, in the process of implant immersion, the longitudinal protrusions are gradually introduced into the walls of the bed so that the protrusions are deepened into the bone tissue to their full height, providing tight contact between the implant's intracostal surface and the tissue and its fixation from rotation. Subsequently, during osseointegration of the implant, the bone structures fill the existing transverse grooves, which creates a high resistance to axial displacements of the implant during chewing loads. This provides increased strength of implant fixation in the bed and high reliability of the structure. Silver microparticles contained on the surface of the intraosseous part and having bactericidal activity provide an antimicrobial effect in the implant-bone tissue zone, which creates an accelerated engraftment of the implant without the risk of rejection.

The proposed implementation of the implant allows you to create the necessary conditions for its strong fixation in the jaw bone with fixation from rotation and axial displacements, as well as to ensure the bactericidal effect of the silver-containing surface on the surrounding biostructures for quick and safe engraftment of the implant.

Claims (1)

An implant for dental prosthetics containing a conical crown part and a cylindrical intraosseous part combined with an inseparable connection with a neck with outer longitudinal protrusions, beveled in the direction from the cervical zone to the apical zone, and transverse grooves located between the longitudinal protrusions, characterized in that the surface of the intraosseous part contains microparticles of silver.