RU84214U1 - DENTAL TITANIUM IMPLANT - Google Patents

Abstract

The proposed utility model relates to medicine, namely to dentistry, and is used for prosthetics.

EFFECT: improved fixation of an implant in a bone, and improved aesthetics of dentures.

The implant consists of an intraosseous apical part 1 and a cervical part 2, a periosteal part 3 into which the support head is screwed. The apical part 1 of the implant has a threaded thread with a pitch of 0.5-1.0 mm. The implant is made with a porous surface made of titanium powder with an average pore size of 100-150 microns.

The thread has a triangular or asymmetrical triangular shape.

Description

The proposed utility model relates to medicine, namely to dentistry, and is used for prosthetics.

Known cylindrical dental implant / Avt. St. USSR No. 1557709, A61C 8/00, 1994 / containing the intraosseous portion, the neck and subsequently installed support head under the tooth. The strength of the implant is a titanium nickelide rod. Rings of porous and pore-free titanium nickelide are strung on it. In separate rings, tiered wire elements are mounted to enhance periodontal ties.

The device is difficult structurally, poorly integrates with the periodontal, especially in the cervical non-porous area, where the possibility of infection penetrating the implant’s bone bed is high, followed by the response of the body in the form of proliferation and migration of the epithelium, the formation of microabscesses and the development of granulations.

Known intraosseous dental implant / US Patent No. 5195892, A61C 8/00, 1993 /, on the outer surface of the intraosseous part of which there is a thread, the profile of which is gradually changing, and inside the implant has a landing cone. The thread profile of this implant has a large height in the lower - apical part and gradually decreases, due to cutting the profile, to the cervical part. The implant has two rectangular slots on the upper annular surface and an internal landing cone for connection with the extraosseous part.

The disadvantages of this implant is that the cut profile of the thread of the cervical part has insufficient fixation in the cortical bone. With the introduction of this implant in the bed, difficulties arise in reliable pairing with bone tissue. This implant is taken as a basis.

The closest analogue is a two-stage intraosseous dental implant / Patent of the Russian Federation No. 2190373, А61С 8/00, 2002 /, consisting of a cervical part with a conical shape with internal and external threads and an apical part with a thread. The apical part is made in the form of a self-tapping screw with a round groove at the end, while the threads are blunt and form plates in the horizontal plane. On the cervical part of the implant there is a two-way tapered thread with a pitch in which at least two turns of the cervical part are equal to one thread of the apical part. Usually the inner cone of the implant has an angle of 7-12 °

The disadvantage of this implant is its insufficient fixation in the cancellous bone due to the shallow thread of a low profile on the apical part of the implant.

As a consequence of this, this implant has poor resistance to vertical and lateral loads, therefore, when using the implant in the area of chewing teeth, overload of bone tissue occurs, and with direct implantation, a weak primary fixation in the hole of the extracted tooth is detected. In addition, the known implant is not aesthetically pleasing when used in the anterior part of the dentition, if there is gum atrophy and exposure of the metal head.

The objective of the proposed utility model is to create an implant that improves the fixation of the implant in the bone and improves the aesthetics of dentures.

The problem is achieved in that in a titanium dental implant containing an intraosseous portion in the apical part with a thread, a cervical part and a periosteal part, it is made with a porous surface with an average pore size of 100-530 microns and a threaded thread is made in increments of 0.5-1 , 0 mm.

The threaded profile is triangular.

The threaded profile is made asymmetrically triangular.

The indicated form of the implant contributes to the optimal distribution of the masticatory load in the bone tissue, and also allows you to get a long, functional and aesthetic result.

Improving the fixation of the proposed implant is provided not only by the germination of bone tissue in the microvolumes of the porous layer, but also by bone tissue in the threaded space remaining after installation of the implant. Thus, a large area is formed along which bone tissue sprouts into the dental implant.

The value of the interval of the average pore size indicated in the application (100-500 μm) is explained by the fact that a noticeable germination of bone tissue in the pores begins with about 100 μm, and the upper boundary of the interval is dictated by the maximum size of titanium particles at which sintering is effective.

A general view of the implant is shown in FIG. a) the threaded profile is made triangular, b) the threaded profile is made asymmetrically triangular.

The implant consists of an intraosseous apical part 1 and a cervical part 2, a periosteal part 3 into which the support head is screwed. The apical part 1 of the implant has a threaded thread with a pitch of 0.5-1.0 mm. The implant is made with a porous surface made of titanium powder with an average pore size of 100-150 microns.

At the first stage, a workpiece is machined from a titanium bar on a lathe. Then it is placed in a special mold and filled with titanium powder. After crimping with minimal effort or baking, the workpiece is removed from the mold and placed in a vacuum oven for finishing hardening sintering.

A threaded porous layer is formed in the preform. The thread has a triangular or asymmetrical triangular shape.

Installation of the implant is as follows:

The cortical layer is drilled to a shallow depth with a drill according to the diameter of the implant to be installed. Then a drill, which is 0.5-0.7 mm smaller than the diameter of the implant, is drilled with bone tissue to the entire installation depth. After this, a bed is prepared with an appropriate tap and the implant is screwed in.

The proposed design of the implant can improve its fixation in the bone, improves the aesthetics of dentures.

Claims (3)

1. A dental titanium implant containing an intraosseous portion in the apical part with a thread, a cervical part and a periosteal part, characterized in that it is made with a porous surface with an average pore size of 100-530 μm, and a threaded thread is made in increments of 0.5-1 , 0 mm. 2. A dental titanium implant according to claim 1, characterized in that the threaded profile is triangular. 3. A dental titanium implant according to claim 1, characterized in that the threaded profile is made asymmetrically triangular.