RU102493U1 - CYLINDRICAL DENTAL IMPLANT WITH FIXATION FROM TURNING AND AXIAL DISPLACEMENT - Google Patents

Abstract

 A cylindrical dental implant with fixation from rotation and axial displacements, containing a conical crown part and a cylindrical intraosseous part combined into a permanent neck connection with two external longitudinal protrusions, beveled in the direction from the cervical zone to the apical zone and located in one diametrical plane, characterized in that transverse grooves are made between the longitudinal protrusions of the intraosseous part.

Description

The utility model relates to medical equipment, namely, to cylindrical dental implants for dental prosthetics.

Cylindrical dental implants are widely used in orthopedic dentistry in the restoration of lost or damaged roots of the teeth of the upper and lower jaws [1]. The most effective designs are those that provide fixation of the intraosseous part of the implant in the alveolar ridge of the jaw with a high resistance to rotation and axial displacements under functional loads. However, the known designs of cylindrical implants with fixation from rotation and axial displacements are technically complex and are characterized by the presence of a large number of various structural elements on the intraosseous part to ensure reliable fixation of the implant in the bone [2-4].

The closest prototype, according to the authors, is a dental implant with a rotation lock, containing an integral conical coronal and cylindrical intraosseous parts, between which there is a neck, while on the intraosseous part there are two external longitudinal protrusions, beveled in the direction from the cervical zone to the apical zone and located in one diametrical plane [5]. However, this design does not allow the implant to resist axial displacements under functional loads.

The objective of the utility model is to create a technically simple design of a cylindrical dental implant with fixation from rotation and axial displacements.

The problem is solved due to the fact that the proposed implant contains a conical coronal and cylindrical intraosseous parts made indivisibly and connected by the neck, while on the intraosseous part there are two longitudinal protrusions, beveled in the direction from the cervical zone to the apical zone and located in one diametrical plane and transverse grooves are located between the longitudinal protrusions. The manufacture of this implant can be carried out by investment casting, as well as using technological pressing operations (shaping of the implant with two anti-rotation elements in the form of longitudinal protrusions, beveled in the direction from the cervical zone to the apical zone) and milling (shaping of the transverse grooves).

In figure 1. the proposed implant design, consisting of a crown part 1 in the form of a truncated cone, an intraosseous part 2 in the form of a cylinder with a hemispherical apical base, a neck 3, combining the crown and intraosseous parts in a single structure, while on the intraosseous part 2 there are two longitudinal protrusions 4, beveled from the cervical zone to the apical zone of the implant and located in the same diametrical plane, and the transverse grooves 5 located between the protrusions 4.

In figure 2. a bottom view of the implant is shown showing the location of the longitudinal protrusions in one diametrical plane.

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, two existing 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.

Longitudinal protrusions 4 located on the intraosseous part 2 in the same diametrical plane are antirotational structural elements and allow you to create a reliable fixation of the implant in the bone with the exception of the possibility of its rotation during operation.

The transverse grooves 5 located on the intraosseous part 2 between the longitudinal protrusions 4, provide high resistance to axial displacement of the implant under loads.

The proposed design of a cylindrical dental implant with fixation from rotation and axial displacements is technically simple due to the implementation on the intraosseous part of the system of structural elements in the form of longitudinal protrusions and transverse recesses, the combination of which ensures high functional reliability of the implant.

Information sources:

1. The design, manufacture and use of intraosseous dental implants: Uch. allowance. Part I. / Bekrenev N.V., Protasova N.V., Rodionov I.V. and etc.; Ed. prof. V.N. Lyasnikova. Saratov: Sarat. state tech. Univ., 2003. 76 p.

2. RF patent for the invention No. 2155014. An abnormal separate dental implant with fixation from rotation. Publ. 08/27/2000.

3. Patent CH No. 690022. Zum Einsetzen in einen Kiefer bestimmtes Implantat. 03/31/2000.

4. RF patent for the invention No. 2375011. Dental implant with anti-rotation stabilization. Publ. 12/10/2009.

5. RF patent for utility model No. 96481. Dental implant with fixation from rotation / Rodionov I.V., Butovsky K.G. Publ. 08/10/2010 (prototype).

Claims (1)

A cylindrical dental implant with fixation from rotation and axial displacements, containing a conical crown part and a cylindrical intraosseous part combined into a permanent neck connection with two external longitudinal protrusions, beveled in the direction from the cervical zone to the apical zone and located in one diametrical plane, characterized in that transverse grooves are made between the longitudinal protrusions of the intraosseous part.