RU89370U1 - BONE IMPLANT - Google Patents

Abstract

1. Bone implant containing a frame part, characterized in that at least at one end of the frame part is additionally located a base made of a biologically inert porous material. ! 2. The implant according to claim 1, characterized in that the base is made of metal rubber. ! 3. The implant according to claim 1, characterized in that the base is made in the form of a hemisphere. ! 4. The implant according to claim 1, characterized in that the base is circular. ! 5. The implant according to claim 1, characterized in that the base is made in the form of a disk.

Description

The utility model relates to the field of medicine. The inventive bone implant can be used in orthopedics, including dental.

The combination of a monolithic implant and bone tissue does not have physiological mobility. Under loads, for example, when chewing, local mechanical stresses arise, which lead to delamination of the implant from bone tissue. Therefore, it is advisable to form an intermediate layer, which on the one hand would have damping properties, and on the other hand, would maintain the strength of the connection with both the body of the implant and the bone tissue.

From the prior art known bone implant according to the patent for the invention of the Russian Federation No.-2180197 Bogatov A.I. and others. "Method of direct dental implantation", Cl. IPC A61C 8/00, publ. 03/10/2002, the procedure for the introduction and fixation of the implant in the dental hole is carried out by installing a screw implant 1/3 of the length of its intraosseous part in a preformed bed in the bottom of the dental hole with subsequent filling of the free space between the implant and the walls of the hole with granular biocomposite material or crushed demineralized allocost. The disadvantages of this implant are the unwarranted filling of the free space between the implant and the walls of the hole with a biocomposite material and the insufficient strength of the resulting compound.

Known "Dental implant" according to the patent of the Russian Federation No.-2023437, Marischev K.N. et al. Cl. IPC A61C 8/00, publ. 11/30/1994, the implant contains an intraosseous part corresponding to the configuration of the root of the extracted tooth with a recess made along the axis of the intraosseous part, consisting of the outer and inner parts. The inner part is located in the deepening of the intraosseous part and has a fixation means. The inner part of the crown part is made in the form of an elliptical paraboloid and is equipped with a shock absorber located between the side surfaces of the recess and the inner part. The cushioning layer is made of silicone rubber. The disadvantages of this implant is also the insufficient strength of the structure as a whole due to the lack of osseointegration.

Closest to the claimed utility model is a bone implant according to US patent No. 3906550, W. Rostoker. Prosthtic device having a porous fiber metal structure. "A prosthetic device for incorporation into a skeletal structure", cl. IPC A61F 1/24, publ. 09/23/73, the Bone implant of the prototype contains a frame part with one base for an intraosseous dental implant or with two bases, for example, for skeletal bone. Around the skeleton is a porous metal structure into which bone tissue grows.

The disadvantage of the prototype device is the rigid base, which accounts for the greatest load, the direction of action of which most often coincides with the long axis of the implant.

When creating this useful model, the problem of creating a bone implant with an intermediate structure of mutual penetration of bone tissue into the implant, which reduces stress in the most traumatic area, was solved.

The technical result in solving this problem is to increase the life of the prosthesis with the claimed bone implant due to the redistribution of base pressure on the tubular substance of the bone.

The specified technical result is achieved in that, in comparison with the prototype of the bone implant, which contains the frame part, in the inventive implant, at least one of the ends of the frame part additionally has a base made of a biologically inert porous material, in particular, metal rubber. The base can be made in the form of a hemisphere, disk, ring, etc.

The elastic base can be made both at the end of the frame part, and as an additional strip of biologically inert material. Metal rubber provides physiological mobility, the absence of local mechanical stresses, minimizing the probability of implant rejection. This porous material is obtained by cold pressing an elongated metal spiral in a special mold to obtain a product of the final shape and size (see the reference book “Porous permeable materials”, edited by Belova SV, “Metallurgy”, 1987, p.266.) . Metal rubber is able to fill the bone cavity under the rigid base of the frame part. The presence of an elastic base allows you to equalize the load, i.e. redistribute the pressure of the base on the tubular substance of the bone, to avoid or reduce the impact of shock loads. The implant can be made by repeating the shape of the end part of the base, for example, in the form of a hemisphere, and having an independent shape, for example, in the form of a ring. This choice is associated with the features of the operated bone tissues, with the geometric dimensions of the implant and the formed bed, as well as with the predicted loads on the implant.

Figure 1 shows the inventive dental bone implant with a hemispherical inner surface of the base.

Figure 2 shows a fragment of the inventive implant with a base mounted in the skeletal tibia.

Figure 3 shows the inventive dental bone implant with a base in the form of a ring.

In figure 1, 2 and 3 are indicated:

1 - frame part;

2 - elastic base;

3 - thread on the frame;

4 - crown part of the implant;

5 - one of the ends of the frame part.

The bone implant contains a frame part 1, at least one of the ends 5 of the frame part 1 additionally has a base 2 made of a biologically inert porous material. The base 2 is made of metal rubber in the form of a hemisphere, ring, disk, etc. In addition, the frame portion may comprise a thread 3. For a dental implant, a crown portion 4 is fixed at the opposite end of the frame portion.

In an example implementation of the inventive dental bone implant of figure 3, the base was made in the form of a ring. Similar bases can be manufactured in series. The metal rubber ring was made with an outer diameter of 4 mm, an inner 2 mm and a ring height of 2 mm. The source material was a titanium wire grade VT 1-00 with a diameter of 0.1 mm The structure of metal rubber has increased elasticity and strength. Since all its pores are through, the possibility of effective sterilization of the implant and uniform filling of bone tissue with its germination is ensured.

The bone implant of FIG. 3 is mounted as follows: An annular base made of metal rubber is placed on the bottom of the preformed bed using a mandrel or other tool. Then the frame part of the implant is installed, for example, by screwing it into contact with the base, and then the crown part is installed.

Thus, compared with the prototype, it was possible to increase the term by 1.5 times the functioning of the prosthesis with the claimed bone implant due to the redistribution of the base pressure on the tubular substance of the bone while maintaining the natural mobility of the implant.

Claims (5)

1. Bone implant containing a frame part, characterized in that at least at one end of the frame part is additionally located a base made of a biologically inert porous material. 2. The implant according to claim 1, characterized in that the base is made of metal rubber. 3. The implant according to claim 1, characterized in that the base is made in the form of a hemisphere. 4. The implant according to claim 1, characterized in that the base is circular. 5. The implant according to claim 1, characterized in that the base is made in the form of a disk.