RU2139010C1 - Intraosseous laminar dental implant - Google Patents

Abstract

FIELD: stomatology, namely orthopedic devices. SUBSTANCE: intraosseous dental titanium implant has at least one screwed-in head shaped as truncated cone with circular grooves, cylindrical neck with internal thread and intraosseous part narrowing to base with through holes of different diameter, retention longitudinal grooves and arms inclined to its axis. Implant includes not more than three heads fixed by means of threaded connection in implant neck. EFFECT: improved fixing of implant. 1 dwg

Description

 The invention relates to dentistry, namely to orthopedic devices for fixing dentures.

 Lamellar implants are known in which the connective tissue of the peri-implant ligament is located between the implant and the bone tissue. / Linkow L. I. The blade - vent. A. neq dimension in endosseous implantogy Dent. Concepts, Sprind. 1968 /.

 Such implants are the main design leading to fibro-axial integration, and are widely used to fix dentures. However, when using implants of this design, there are disadvantages associated with the appearance of long-term use of the mobility of the implant and atrophy of bone tissue in the vertical direction.

Also, intraosseous dental implants made of titanium containing a head with grooves having the shape of a truncated cone, and in the lower part has a cone-shaped protrusion passing into a cylindrical neck, a lamellar intraosseous part with through holes and tapering to the base, with inclined shoulders and longitudinal grooves. / RU 2043087, C1 CL A 61 C 8/00, 1995 - prototype /
The disadvantages of this implant design are its integrity and neck - the connecting part of the head with the intraosseous part of the device. The integrity of the design implies the simultaneous fixation of the tooth crown, which makes it difficult to fix the implant in the bone tissue of the jaw. And the shape of the neck does not provide sufficient strength of the implant with a lateral load on the implant.

With the active functioning of the jaw, a complex system of forces acts on each (molar) tooth, the main part of which is reduced to the force of normal pressure N and the transverse force P (see drawing)
When assessing the strength of the structure, it should be noted that the transverse force P is applied directly to the upper surface of the tooth crown, as shown in the drawing, since this is the most unfavorable case. Destruction will occur along the plane of the cross-sections AA shown in the drawing. This destruction is due to the bending moment of the force P relative to the center C of the cross section AA, along which the destruction occurs.

 The magnitude of the bending moment, as can be seen from the drawing, is different and accordingly equal to: Ma - P Ha, where Ha is the shoulder of the force P relative to the center of the fracture plane.

 The aim of this invention is to provide an intraosseous dental implant of increased strength with improved fixation in the bone tissue of the jaw, to ensure trauma when it is inserted into the bone tissue, to increase the life of the implant.

 The proposed implant design made of titanium (see drawing) contains at least one head 1 (max 3) with grooves 4, screwed into the neck of the implant 2, having the shape of a truncated cone, and the intraosseous part 3 is made to the base with holes of various diameters 6 .

 The head of the implant 1 is performed separately, has grooves 4 and a thread 5, with which it is screwed into the neck of the implant 2 when removing the plug. The lamellar intraosseous part 3 is made tapering to the base, has holes of various diameters 6 and longitudinal wave-like grooves, which, along with surface perforation, increase the contact area of the implant with bone tissue, reduce the soft tissue invasiveness during distribution of chewing load, and also promotes bone, osteoid and connective tissue tissue, thereby increasing the fixation of the implant during the implantation process.

 The shoulders of the implant are made oblique, which also improves its fixation in the bone tissue of the jaw, which increases atraumatic.

 This implant was administered to 8 patients. The mucous membrane and periosteum are dissected with a scalpel along the crest of the alveolar process for the length of the implant. Peel off the mucous membrane. Using special burs, a bone bed of the implant is formed, which is closed by a plug so that the length of the bed corresponds to the length of the implant, and the depth allows the neck of the implant to be immersed 1.0-1.5 mm above the edge of the bone wound. Then bone filings are removed. By successive tapping with special tools on the shoulders of the implant, it is hammered into the formed bed. The wound is sutured with an atraumatic thread. The introduction of an implant with a plug provides a gentle mode of loading on bone tissue until they are restored. Bone tissue repair after surgery is determined by R-control. Then the head is screwed in and the tooth crown is put on.

In support of the greater strength of the proposed implant design, two factors should be noted:
- the bending moment of the same forces P in the known implant is greater than the proposed implant, because its shoulder is smaller by the length L of the threaded joint shown in the drawing
- the head and neck are fastened together not only by a threaded connection, but also by a metal shell with a tooth crown and cementing, which significantly reduces the effect of bending moment from forces P on the plane of destruction AA.

 Thus, the use of this intraosseous dental implant, which has atraumatic properties, can improve its fixation in the bone tissue of the jaw, ensure an even distribution of chewing pressure in the bone, and increase its strength.

Claims (1)

 An intraosseous lamellar dental implant containing a head made in the form of a truncated cone with annular grooves, a cylindrical neck and an intraosseous part made narrowing to the base with through holes of different diameters, longitudinal grooves and shoulders inclined to its axis, characterized in that it does not include more than three heads fixed by a threaded connection in the neck of the implant after removing the plug, the shoulders of the intraosseous part are obliquely oval, and the head and neck are made s with the possibility of fastening together a threaded connection and cementing the metal shell of the tooth crown.