RU50404U1 - ONE-STAGE DENTAL IMPLANT - Google Patents

Abstract

One-stage dental implant - a one-piece design consisting of an intraosseous cylindrical part with 2 types of single-threading / drawings 2 and 3 / of different diameters sharply turning one into another and the crown part / drawing 5 /, in which there is a supporting circular cuff / N2 in drawing 5 / and a bending section / N3 in FIG. 5 /, turning into a cone with keyed recesses for setting. The proposed structural solutions allow to increase the reliability of fixation of the implant, to distribute the load on the bone in bulk with feeding most of it to the thread with a larger diameter and less traumatic vertex of the turn, to shorten the treatment time, simplify implantation and subsequent prosthetics due to the ease of implant placement and the change of head angle from 0 ° up to 35 °.

Description

The utility model relates to orthopedic dentistry and can be used in the manufacture of screw implants for prosthetics of the oral cavity with any kind of adentia. Its essence: a dental implant consists of an intraosseous part that carries a thread and a crown part, including a supporting circular cuff and the actual head for fixing the prosthesis / drawings 1; 2; 3; four; 5/.

Purpose of utility model:

- improving the reliability of fixation of the implant by improving the volume distribution of the load on the jaw bone;

- simplification of prosthetics.

In dental implantology, there are several main types of one-stage dental implants: screw (with thread on the intraosseous part along a conical or cylindrical titanium billet), cylindrical (intraosseous part in the form of a hollow cylinder with holes), lamellar (intraosseous part in the form of a thin one - up to 1, 5 mm corrugated titanium plate with holes).

The intraosseous part of the implant passes into the neck / gingival part / and the coronal / supragingival / part serving to fix the prosthesis. After completion of the implantation operation of such a design, the implant projecting into the oral cavity with the coronal part must have good primary stability for a favorable outcome of the osseointegration process.

The closest prototype of the proposed design is a one-stage implant "Radix-Gimlet 1" of the "RAD1X" system (2001 catalog "RADIX DENTAL IMPLANT SYSTEM"), which has a conical threaded intraosseous part with a variable cross-section: in the lower third - a trihedral shape, gradually turning into a round form at the level of the upper third, which, according to the authors, should ensure its antirotation at

prosthetics and function. The implant "Radix-Gimlet 1" is a self-tapping screw with a single entry sharp tapered thread, polished cylindrical neck turning into a conical head with a straight tetrahedron on top.

Functional chewing load, transmitted to the jaw bone through the threads, extends to the same distance from the implant. In this case, the bone tissue along the alveolar process of the jaw remains “free” of direct load. If it is used, then it is possible to increase the reliability of fixation of the implant, to achieve greater resistance to functional load, which is proposed in my design: a significant part of the chewing pressure is taken up by a rounded thread with a large diameter in 108 ° symmetrical sectors of the turn.

The intraosseous cylindrical part of the proposed implant has a single-thread of 2 types sharply turning one into the other along the perimeter of each thread: a thread sector 108 ° high (H) = 0.8-0.85 mm with a specially rounded apex (figure 3) into a 72 ° sector of a rectangular thread with a thread height (H) = 0.5-0.55 mm and then 108 ° sector with a thread height (H) = 0.8-0.85 mm with a specially rounded turn of the thread, which goes over at 72 ° a sector of a rectangular thread with a height (N) of a turn = 0.5-0.55 mm. Thus, over the perimeter of one turn in the symmetrical sectors of 108 ° and 72 °, 2 types of threads of different profiles and diameters alternate. In this case, the thread pitch (S) = 1.25-1.35 mm does not change, as well as the thread width (L) = 0.35-0.40 mm. The surface of the intraosseous part of the implant can be treated with a jet-abrasive method, which will give it a microrelief favorable for osseointegration. The proposed structural solutions can improve the reliability of fixation of the implant due to volumetric redistribution of the load on the bone with the supply of most of it to the thread with a larger diameter and less traumatic vertex of the coil, to reduce the time of treatment.

Reducing the trauma of the top of the turn in symmetrical sectors at 108 ° is achieved by special rounding: the radius of curvature of the rounding along the upper edge (R2) refers to the radius of curvature of the rounding along

the lower edge of the thread (R1) as 0.1: 0.25 (or 0.1L: 0.25L, where L is the width of the thread thread). This contributes to an even, gentle distribution of the load on the bone, reduces local stress peaks and reduces the traumatic effect on the surrounding bone tissue during the application of the load to the implant. Moreover, due to changes in the thread profile in 2 mutually perpendicular planes, implant antirotation is achieved during function.

In the process of implant placement, the spongy bone is compacted along the surface area of the apex of the thread turns without experiencing pressure in the inter-turn spaces, which preserves its blood supply and trophic. (When stating the specified prototype, the bone tissue is cut at the top of the thread and compressed in the inter-turn spaces, which often impedes osseointegration. Clinically, this is manifested by scrolling of the implant during orthopedic manipulations).

Most single-stage screw titanium implants can be bent to a certain angle in the neck region, thereby achieving the correct position of the head in the dentition. However, often such an implant "does not take root" if it was bent after screwing it into the bone bed. In another case, the surrounding teeth impede the possibility of its placement: the crown part of the curved implant is blocked by the crowns of the surrounding teeth during rotation in the process of implantation into the bone. This is due to the fact that the bent part of the implant inevitably has a large length (up to 8 mm from the point of bending in the neck to the end of the head). If the bending is carried out in the region of the head (that is, in the supragingival part), then this structural disadvantage can be avoided. The bending section in the proposed design is located in the crown part (N3 in figure 5) above the supporting circular cuff and its length should be in the range of 5.5-6 mm, which is quite enough to fix the prosthesis to cement and at the same time does not prevent the implant from being placed . The bending section of the crown makes it possible to establish parallelism between the heads of the implants, and to correct the occlusal relation to the surrounding teeth, regardless of the angle of introduction

implant in the bone. (The same manipulation with an implant - prototype is impossible). This simplifies prosthetics, minimizes the turning of the implant head.

The introduction of the circular support cuff (N2 in Figure 5) to the crown part allows to improve the support and fixation of the orthopedic structure on the implant, as well as to practically eliminate chronic inflammation of the adjacent mucous membrane while observing appropriate oral hygiene.

The implant material is titanium grade VT 1-00, which has good ductility and makes it possible to bend the head of the proposed implant design above the supporting circular cuff, changing the angle from 0 ° to 35 ° (Figure 5). This makes it easily applicable without additional operations in clinical cases with curvature of the relief of the cortical bone plate, usually requiring either a reduction in the length of the intraosseous part of the implant being inserted, or additional operations (osteoplasty) preceding the implantation for subsequent placement of the implant in a functionally and aesthetically correct position.

Claims (1)

A one-stage dental implant is a one-piece, non-separable titanium construction, having the form of a screw and consisting of an intraosseous threaded part and a crown part, characterized in that there are approximately two types of one-way thread in the threaded part: rectangular and rounded, having different diameters and sharply changing one into the other along the perimeter of each turn in symmetrical sectors of 108 and 72 ^about , and in the crown part a bending section is provided.