RU107044U1 - DENTAL IMPLANT WITH ANTIROTATION ELEMENTS AND HIGH POROUS SURFACE STRUCTURE - Google Patents

Abstract

 A dental implant containing a conical coronal part and a cylindrical intraosseous part combined into an indispensable connection with a neck and 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 the cylindrical surface of the intraosseous part is made in the form of a highly porous structures with a total open porosity of 50-65%, a pore size of 250-600 microns, a pore depth of 100-150 microns.

Description

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

Cylindrical implants are widely used in dentistry when restoring lost or damaged tooth roots [1, 2]. In this case, the most rational 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 (rotation) of the product with subsequent effective osseointegration of it in the bone. This requires the use of structures with anti-rotation elements and a highly porous structure of the intraosseous surface.

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 [3]. The disadvantage: this design is the absence on the surface of the intraosseous part of a highly porous structure for bone growth and effective osseointegration fixation of the implant in the jaw bone.

The objective of the utility model is to create the design of a cylindrical implant with antirotational elements and a highly porous surface structure of the intraosseous part.

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 the cylindrical surface of the intraosseous part is made in the form of a highly porous structure with a total open porosity of 50-65%, pore size of 250-600 microns, pore depth 100-150 microns. The shaping of such a cylindrical implant with the indicated anti-rotation elements can be carried out by investment casting and pressing methods, and the described highly porous surface structure can be obtained by air-abrasive, water-abrasive, electrospark and laser processing.

The above sizes and pore depths, as well as the total open surface porosity, are most favorable for effective osseointegration of the implant, as they provide an increased total area of contact with the bone, create conditions for the growth of a larger volume of bone structures, as a result of which the relationship between the surface of the implant and the bone is significantly enhanced cloth.

In figure 1. the proposed implant design is presented, 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 coronal 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. The cylindrical surface of the intraosseous part has a highly porous structure (shown in the form of tortuous contours in the drawing), including open pores 5 of various shapes.

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 anti-rotation fixation strength. Subsequently, the surrounding bone structures grow into the open pores of the surface of the intraosseous part of the implant, which ensures reliable osseointegration fixation of the structure in the bone of the jaw of the patient.

Longitudinal protrusions 4 located on the intraosseous part 2 in the same diametrical plane are antirotational structural elements and can increase the strength of the implant fixation from rotation.

The highly porous structure of the cylindrical surface of the intraosseous part 2 increases the total area of contact interaction with the bone and ensures effective osseointegration of the implant. In addition, such a surface structure has good wettability and, prior to implant placement, can additionally be impregnated with drugs for drug exposure of surrounding biostructures in the initial stage of engraftment.

The proposed design of a dental implant with antirotational elements and a highly porous surface structure has increased operating efficiency due to the construction on the intraosseous part of the structural elements from turning in the form of longitudinal protrusions, beveled in the direction from the cervical zone to the apical zone and located in one diametrical plane, as well as due to creating a highly porous structure with open pores on the cylindrical surface for bone growth and strengthening physicists o-mechanical connection of the implant with the surrounding biostructures.

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.gos.tehn. 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. 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 dental implant containing a conical coronal part and a cylindrical intraosseous part combined into a permanent connection with a neck with two outer longitudinal protrusions, beveled in the direction from the cervical zone to the apical zone and located in one diametrical plane, characterized in that the cylindrical surface of the intraosseous part is made in the form of a highly porous structures with a total open porosity of 50-65%, a pore size of 250-600 microns, a pore depth of 100-150 microns.