RU2123310C1 - Intraosseous dental implant - Google Patents

Abstract

FIELD: medical engineering; orthopedic stomatologic devices. SUBSTANCE: one end of tooth intraosseous implant has all-metal part and porous bearing part made as cylinder with rounded end. Bearing part is provided with external (1) and internal (2) elastically deforming layers made of metal rubber. Internal layer axle carries pin with threaded (3), hinged (4) and crown (5) sections. Pin hinged section (4) is positioned inside all-metal part which is made as tapered sleeve (6) with internal threaded part where nut (7) pressing the pin by hinged section (4) is installed. EFFECT: provision for natural mobility of tooth and uniform distribution of implant masticatory pressure on bone tissue. 1 dwg

Description

 The invention relates to medical equipment, namely to orthopedic dental devices for implanting dentures.

The medical practice of orthopedic dentistry recently confirms more and more the obvious advantage of using porous implants when the alveolar process of the jaw is inserted into the bone tissue as a separate tooth, as well as as a support for partial or complete prosthetics. Widely known, for example, porous dental implants based on bioceramics (Al ₂ O ₃ ) company Bereich Medizin-Technik (Germany) or, for example, porous implants based on titanium nickelide (TiNi), have been successfully used and tested in Russia (see materials Congress of the International Association of SME "Implants with company memory, Novosibirsk, September 15-17, 1993).

 The disadvantage of the above materials for dental implants, as well as those implants, the porous part of which belongs to the group of porous sintered materials made by powder metallurgy, is the lack of necessary elastic-damping properties and the tendency of these materials to break during operation. This is because the porous structure obtained by powder metallurgy is a related structure and, under conditions of prolonged exposure to alternating mechanical loads, allows microcracks and precipitation of particles of the initial powder forming this material.

 An intraosseous porous tooth implant is also known, consisting of a supporting porous part, a cylindrical shape with a rounded end, and an all-metal part with a threaded hole for installation, a screw - a plug and a head for attaching a denture (see Paraskevich V.L. Use of porous dental implants made of titanium Dentistry News. - 1996, N 2-3, p. 54-58). The porous part of this implant is made of spherical titanium powders, again using the powder metallurgy method, and therefore has the disadvantages already listed above. Moreover, the necessary strength properties of this porous material are ensured with an average pore size not exceeding 120 microns, i.e., the basic condition for favorable growth of bone tissue, which is successfully formed and integrates into the porous structure with the most optimal size of its internal pores from 100, is not completely met. up to 700 microns.

 The purpose of the invention is the provision of natural tooth mobility and a uniform distribution of the chewing pressure of the implant on the bone tissue while reducing the likelihood of rejection.

 This goal is achieved by the fact that in the intraosseous tooth implant, containing at one end an all-metal part and made in the form of a cylinder with a rounded end, the porous support part, the latter contains a fixed outer and inner elastic-damping layers made of metal rubber, a pin with a threaded located on the axis of the inner layer , hinged and crown parts, and the hinged part of the pin is located inside the all-metal part, which is made in the form of a conical sleeve with an internal thread the part where the nut is installed, the biasing pin of the hinge part.

 The drawing shows an axial frontal section of the proposed implant, combined with the view.

 An intraosseous dental implant consists of a porous supporting part having the shape of a cylinder with a rounded end, containing a fixed outer 1 and inner 2 elastically damping layers made of metal rubber (this porous material is obtained by cold pressing an elongated metal wire spiral in special molds to obtain the final product and sizes. For a more detailed description see: Porous permeable materials. / Ed. ed., edited by Belova SV-M.: Metallurgy, 1987, p. 266), located on the inside axis the top layer of the pin with a threaded 3, hinge 4 and crown 5 parts, an all-metal conical sleeve 6 with an internal threaded section where the clamping nut 7 and washer 8 are installed. The outer layer 1 of the porous part of the dental implant is made of titanium wire with a diameter of 0.20-0, 25 mm with a porosity of 60-70% and an average pore size of 400-600 microns. The inner layer 2 is formed of titanium wire with a diameter of 0.1 mm, thermally hardened, which allows to obtain its porous structure with the required elastic-damping properties.

 As a result of the patent research, a similar set of distinguishing features of the present invention was not found by the authors.

 Installation of a dental implant is as follows. An implant is inserted into an appropriately treated tooth hole, without an axial pin, with a threaded plug instead of a nut 7 and a porous part preliminarily impregnated with a special solution (e.g. hydroxylapatite or silatron), which has a bioregulating property, stimulating bone tissue integration processes. After completion of the implantation of bone tissue (up to 6 months) into the porous structure of the outer layer 1, remove the threaded plug, screw the axial pin and tighten the nut 7 for its hinge part 4.

 The design of the proposed intraosseous dental implant provides the following advantages. Such distinctive features of the porous part of the proposed implant made of metal rubber, such as open porosity, a highly developed inner surface and the possibility of forming a porous structure with the most optimal pore size, provide it with high ability to integrate tissue and significantly increase the contact surface with bone tissue, which It is a reliable guarantee of its strong and long-term fixation. Moreover, the wire-spiral structure of the porous material made of metal rubber imitates the connective tissue periodontal fibers, which ensures uniform transfer of chewing pressure to the areas of the bone remote from the axial pin of the implant, causing functional stresses in them necessary to maintain bone homeostasis. The two-layer structure of the porous support part of the proposed implant, made of metal rubber with an elastic damping paraxial layer, which accepts the main share of external static-dynamic loads, and a fixed layer on the periphery allows to achieve the most natural transmission of chewing pressure and mobility of the denture while reducing the likelihood of implant rejection by eliminating impact of shock loads on bone tissue. Unlike the prototype, the design of the proposed device allows you to use the pinch nut 7 to adjust the rigidity of the implant and the magnitude of the angular displacements of the crown part of the axial pin, which is an important distinguishing feature, because different parts of the alveolar process of the jaw perceive chewing efforts of a different size and nature. However, the design of the proposed implant allows in the case of an inflammatory process to carry out a physiotherapeutic procedure in the form of electrophoresis with antiseptics, which in the form of liquid solutions can be supplied through the porous structure to the site of exposure.

Claims (1)

 An intraosseous tooth implant, containing at one end an all-metal part and made in the form of a cylinder with a rounded end, a porous support part, characterized in that the latter contains a fixed external and internal elastic-damping layer made of metal rubber, a threaded pin, hinged and located on the axis of the inner layer crown parts, and the hinge part of the pin is located inside the all-metal part, which is made in the form of a conical sleeve with an internal threaded part, where Lena nut, pin pins for the hinge part.