RU96481U1 - DENTAL IMPLANT WITH ANCHOR - Google Patents

Abstract

 A dental implant with anti-rotation fixation containing a crown part and an intraosseous part made in the form of a cylinder with antirotational elements on its surface, characterized in that the crown part in the form of a truncated cone is joined with the intraosseous cylindrical part into an inseparable connection by the neck, and the antirotational elements are made into in the form of two longitudinal protrusions, beveled in the direction from the cervical zone of the intraosseous part to its apical zone and located in one diametrical plane.

Description

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

The possibility of restoring lost or damaged tooth roots is associated with the development and use of modern intraosseous implants, which are a support for fixed dentures [1]. However, with prolonged functioning of implants under conditions of alternating chewing loads, loosening of structures often occurs, they rotate (rotate) in the bone bed and, as a result, rejection. Therefore, cylindrical implants must have a system of structural elements that provide reliable fastening of the intraosseous part of the product in the alveolar ridge of the jaw and strong fixation of the structure with high resistance to its rotation.

There are known designs of cylindrical implants having various antirotational elements of various configurations on the intraosseous part [2-4]. However, these orthopedic designs are characterized by high technical complexity, which greatly limits the possibility of their widespread use in the restoration of the masticatory functions of the dentition.

The utility model closest in technical essence is the construction of a dental implant containing an extraosseous crown part connected by a threaded connection to an intraosseous part made in the form of a cylinder with thread on the outer surface and with a smooth retention part in the form of a longitudinal flat, which is an anti-rotation element [5]. The disadvantage of this design is its increased technical complexity, which reduces the effectiveness of the use of implants with antirotational elements in dentistry.

The objective of the utility model is to simplify the design of a cylindrical implant with an anti-rotation fixation system.

The problem is solved due to the fact that the proposed implant contains a conical coronal and cylindrical intraosseous parts made inseparably and joined by the neck, while on the intraosseous part there are antirotational elements in the form of two longitudinal protrusions, beveled in the direction from the cervical zone to the apical zone and located in one diametrical plane.

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

Two longitudinal protrusions are antirotational structural elements and allow you to create a solid fixation of the implant in the bone with the exception of the possibility of its rotation during operation. This is achieved due to the fact that when the implant is immersed in the bone bed, the longitudinal beveled protrusions are completely deepened into the bone tissue, providing tight contact of the entire intraosseous surface with the walls of the bed. As a result, the implant is firmly fixed in the jaw bone and a high resistance to its rotation is achieved.

The proposed design of the dental implant is technically simple and is characterized by high efficiency due to the presence on the intraosseous part of two external longitudinal protrusions located in the same diametrical plane and having an upper edge chamfered from the cervical region to the apical zone.

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 Implan-tat. 31.03.2.2000.

4. Patent US No. 4324550. Implant for jaw. 04/13/1982.

5. RF patent No. 2158117. Dental implant and method of administration. Publ. 10.27.2000 (prototype).

Claims (1)

A dental implant with anti-rotation fixation containing a crown part and an intraosseous part made in the form of a cylinder with antirotational elements on its surface, characterized in that the crown part in the form of a truncated cone is joined with the intraosseous cylindrical part into an inseparable connection by the neck, and the antirotational elements are made into in the form of two longitudinal protrusions, beveled in the direction from the cervical zone of the intraosseous part to its apical zone and located in one diametrical plane.