RU194174U1 - Knee endoprosthesis - Google Patents

Abstract

The utility model relates to medicine, namely to traumatology, orthopedics and implantology. The technical result of the utility model consists in hardening the outer surface of the sled of the femoral component of the knee endoprosthesis as a result of the synthesis of a carbon diamond-like non-porous film. An endoprosthesis of a knee joint contains a femoral component made in the form of a slide made of two parallel arches connected to each other, having a supporting plane on the inner side for the distal sawdust of the femur, a tibial component made in the form of a base, on the opposite sides of which a limiter and a leg with ribs are fixed stiffness, support pin, a platform of ultra-high molecular weight polyethylene, on one side of which there are recesses, mated along a cylindrical surface with arches of a sled of troubles the arched component and, on the other hand, in the platform, arcuate and guide grooves are made, in which a limiter and a support pin are installed respectively, the slide of the arches of the femoral component and the recesses associated with them are made in the form of cylindrical surfaces turning into tangent planes, each of which is located at an angle equal to 5-13 ° to the corresponding plane parallel to the reference plane of the distal sawdust of the femur and drawn through the corresponding line of touch, has The slide surface of the femoral component of the endoprosthesis is a carbon diamond-like non-porous film synthesized during ion-beam treatment in a vacuum environment of carbon dioxide (CO) with an argon ion beam (Ar), which provides increased mechanical strength of the outer surface of the slide of the femoral component of the endoprosthesis design. 2 of FIG.

Description

The utility model relates to medicine, namely to traumatology, orthopedics and implantology.

Replacing the knee with an endoprosthesis (arthroplasty) is a common orthopedic operation, the number of which is progressively increasing. The percentage of complications and unsatisfactory results of knee replacement is quite high and amounts to 3.3-13.2%. It is possible to increase the efficiency of arthroplasty operations by increasing the biocompatibility of endoprostheses using new materials and coatings, as well as by developing new, high-tech designs of endoprostheses.

The creation of intraosseous metal structures with coatings with increased strength and wear resistance is relevant in modern implantology and bioengineering of the surface.

Known design of a total knee joint endoprosthesis [Patent EP No. 0636353 A1, publ. 02/01/1995]. The device contains a femoral component in the form of arcuate sleds having the shape of the anatomical surface of the femoral condyles, a tibial component with a base resting on a leg with stiffeners, and a support rod pin. A polyethylene platform is located between the femoral and tibial components, which has recesses in the form of truncated spheres for the slide of the femoral component on the side of the femoral component, and an elongated groove for the support pin is made on the other side of the platform. The device provides a full range of motion in the joint.

The disadvantage of this design is the lack of hardness and wear resistance of the outer surface of the arcuate sled of the femoral component.

Known design of the knee joint prosthesis containing the femoral component, made in the form of a slide from two parallel, interconnected arcs, having on the inside a supporting plane for the distal sawdust of the femur, the tibial component made in the form of a base, from which the limiter is fixed from the opposite sides and a foot with stiffeners, a support pin, a platform of ultra-high molecular weight polyethylene, on one side of which recesses are made, mated along a cylindrical surface spine arcs with the slide of the femoral component, on the other hand are made in the platform and arcuate guide grooves, which are mounted respectively limiter and the support pin [RF patent №2145821, IPC A61F 2/38, publ. 02/27/2000].

The disadvantage of this design is the lack of hardness and wear resistance of the outer surface of the sled of the femoral component.

Closest to the technical essence of the proposed utility model is the design of the knee joint endoprosthesis, which contains a femoral component made in the form of a sled of two parallel, fastened together arcs with a supporting plane on the inner side for the distal femoral sawdust, a tibial component made in the form base, on the opposite sides of which a limiter and a leg with stiffeners, a support pin, a platform of ultra-high molecular weight polyethylene are fixed, on on the other side of which recesses are made, mating along the cylindrical surface with the arcs of the sill of the femoral component, and on the other hand, in the platform there are arcuate and guide grooves, in which a limiter and support pin are installed, respectively, the sled of the arches of the femoral component and the recesses associated with them in the platform are made according to the shape of cylindrical surfaces turning into tangent planes, each of which is located at an angle equal to 5-13 ° to the corresponding plane parallel to the reference plane of the dist of the sawdust of the femur and drawn through the corresponding line of touch [RF Patent No. 2271175, IPC A61F 2/38 (2006.01), publ. 03/10/2006].

The disadvantage of this design is the lack of hardness and wear resistance of the outer surface of the sled of the femoral component.

The objective of the utility model is the creation of an endoprosthesis of the knee joint with a mechanically high-strength outer surface of the sled of the femoral component.

The technical result of the utility model is to harden the outer surface the sled of the femoral component of the knee endoprosthesis as a result of the synthesis of a carbon diamond-like non-porous film.

The problem is solved due to the fact that in the proposed knee joint prosthesis containing the femoral component, made in the form of a slide from two parallel, fastened together arcs having on the inside a supporting plane for the distal sawdust of the femur, the tibial component made in the form of a base , on the opposite sides of which a limiter and a leg with stiffeners are fixed, a support pin, a platform of ultra-high molecular weight polyethylene, on one side of which a recess is made and, conjugated along the cylindrical surface with the arcs of the skids of the femoral component, and on the other hand, the arcuate and guide grooves are made in the platform, in which the limiter and the support pin are installed respectively, the skids of the arches of the femoral component and the recesses associated with them in the platform are made in the form of cylindrical surfaces, turning into tangent planes, each of which is located at an angle equal to 5-13 ° to the corresponding plane parallel to the supporting plane of the distal sawdust of the femur and Edited through the corresponding touch line, according to a new technical solution , on the outer surface of the sled of the femoral component of the endoprosthesis there is a carbon diamond-like non-porous film synthesized during ion-beam treatment in a vacuum environment of carbon dioxide (CO ₂ ) with an argon ion beam (Ar ⁺ ).

The manufacture of the proposed knee endoprosthesis can be carried out by injection molding, machining, mechanical shaping (turning, milling), ion beam processing (synthesis on the outer surface of the slide of the femoral component of a carbon diamond-like non-porous film in the process of ion beam processing in a vacuum environment of carbon dioxide (СО ₂ ) a beam of argon ions (Ar ⁺ )). Materials for the manufacture of a knee joint endoprosthesis with a biocompatible coating can be titanium, tantalum, zirconium and their alloys.

The utility model is illustrated in the drawing. FIG. 1 and 3D model - FIG. 2. In FIG. 1. The proposed design of the knee endoprosthesis, including the femoral componentoneskid-shaped2 of two parallel arcs fastened together3. The outer surface of the arcs3 sleigh2 and associated notches4 in the platform5having the form of cylindrical surfaces passing into the corresponding tangent planes6. On the inside of the slide2 femoral componentone there is a reference plane7, designed to support the distal sawdust of the femur. Each of the tangent planes6 (to the cylindrical surface, respectively, of the slide and the recesses in the platform) is located at an angle α equal to 5-13 ° (RF Patent No. 2271175, IPC A61F 2/38 (2006.01), publ. 10.03.2006) to the corresponding plane8parallel to the reference plane7 distal sawdust of the femur. Platform5 made of ultra high molecular weight polyethylene and has a support pinthirteen. Tibial componentnine contains base10leg-basedeleven with stiffeners12. Femoral componentone has clamps14, to install the sawdust of the femur. The outer surface of the slide2femoral componentoneIt has carbon diamond-like non-porous filmfifteen(Fig. 2).

Carbon diamond-like non-porous film 15 has increased mechanical strength (hardness and wear resistance) and a thickness of 10-25 nm, which is due to the technological modes of synthesis in the process of ion-beam processing in a vacuum environment of carbon dioxide (CO ₂ ) with an argon ion beam (Ar ⁺ ).

To install the proposed knee endoprosthesis, the femur is filed in the form of the femoral componentone endoprosthesis. In the prepared filing of the femur, two holes are drilled to install the femoral componentonediameter equal to the diameter of the clamps14. Femoral componentone, shaped sled2 of two parallel arcs fastened together3on the inside having a supporting plane7, set on the sawdust of the femur so that the retainers14coincided with the prepared holes. The joint end of the tibia is sawn off and using the special tools, a bone marrow canal of the tibia is drilled under it to install the tibial componentninewhich contains the base10leg-basedeleven with stiffeners12. Legeleven the tibial component of the endoprosthesis is clogged into the prepared hole. On the base10set up a platform5 made of ultra high molecular weight polyethylene and having a support pinthirteen. Support pinthirteen combine with the femoral componentoneso that the outer surface of the arcs3 sleigh2 and associated notches4 in the platform5having the form of cylindrical surfaces passing into the corresponding tangent planes6match up. Each of the tangent planes6 (to the cylindrical surface, respectively, of the slide and the recesses in the platform) is located at an angle α equal to 5-13 ° to the corresponding plane8parallel to the reference plane7 distal sawdust of the femur.

The outer surface of the slide2femoral componentoneIt has carbon diamond-like non-porous filmfifteenwhich provides increased mechanical strength, in particular hardness and wear resistance, and creates the necessary biotechnological conditions for the effective operation of the endoprosthesis under the action of functional loads.

The outer surface of the sled of the femoral component of the proposed design of the knee endoprosthesis has increased hardness due to the carbon diamond-like non-porous film formed on their surface, which is confirmed by the experimental results obtained by measuring the surface hardness of manufactured endoprostheses, the values of which are 0.48-0.53 GPa, which is much closer to bone hardness (0.5-0.6 GPa).

The outer surface of the sled of the femoral component of the proposed design of the knee joint endoprosthesis has increased wear resistance due to the carbon diamond-like non-porous film formed on their surface, which is confirmed by the obtained experimental results of measuring the wear resistance of the surface of manufactured endoprostheses, the values of which are 18.5 minutes before the first sections of the metal base sublayer appear then, as the test result on the wear resistance of the outer surface of the slide of the femoral component (for example from tana) without a carbon diamond-like non-porous film is 10.2 min.

Thus, the proposed design of the knee joint endoprosthesis creates the best biotechnological conditions for the effective operation of the endoprosthesis, thereby increasing the functioning period in the body under prolonged action of alternating mechanical loads due to the synthesis of a carbon diamond-like non-porous film on the outer surface of the slide. This carbon diamond-like non-porous film provides increased mechanical strength of the outer surface of the slide of the femoral component of the endoprosthesis structure under friction conditions.

Claims (1)

An endoprosthesis of the knee joint containing the femoral component, made in the form of a slide from two parallel, fastened together arcs, having on the inner side a supporting plane for the distal sawdust of the femur, a tibial component made in the form of a base, on the opposite sides of which a limiter and a leg with stiffeners, support pin, a platform of ultra-high molecular weight polyethylene, on one side of which there are recesses, mated along a cylindrical surface with the arches of the slide a single component, and on the other hand, an arcuate and guide grooves are made in the platform, in which a limiter and a support pin are installed, the slide of the arches of the femoral component and the recesses associated with them are made in the form of cylindrical surfaces turning into tangent planes, each of which is located at an angle equal to 5-13 ° to the corresponding plane parallel to the reference plane of the distal sawdust of the femur and drawn through the corresponding touch line, characterized in that on the outer surface of the slide of the femoral component of the endoprosthesis there is a carbon diamond-like non-porous film synthesized during ion-beam processing in a vacuum environment of carbon dioxide (CO ₂ ) with an argon ion beam (Ar ⁺ ).

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