RU226312U1 - Wrist endoprosthesis - Google Patents

Abstract

The utility model relates to the field of medicine, specifically to traumatology and orthopedics, and can be used in the treatment of small joints. The objective of the proposed wrist endoprosthesis is to reduce postoperative healing time due to high primary stability and early functional load on the joint in the early period after surgery. The problem is solved by the proposed wrist endoprosthesis, which has a distal articular head and a proximal articular cup with legs. The novelty of the proposed wrist endoprosthesis lies in the fact that on the side of the leg, a uniform surface topography is formed on the proximal articular cup and on the distal articular head with an arithmetic mean roughness of 2 μm, in addition, the leg of the proximal articular cup is shifted relative to its center by 1 mm, the proximal articular cup has two symmetrical cutouts in the shape of a circle on the sides with a radius R, in addition, a positioning mark is made on the underside of the proximal articular cup. Clinical results showed a reduction in rehabilitation time (restoration of movement) in the postoperative period due to high primary stability and early functional load on the joint in the postoperative period and more effective compensation of the damaged (destroyed) ligamentous apparatus.

Description

The utility model relates to the field of medicine, specifically to traumatology and orthopedics, and can be used in the treatment of small joints.

An endoprosthesis is known containing a distal articular head and a proximal articular cup with legs (DE 10237016 A1 2004.02.26) - prototype.

However, the use of this endoprosthesis provides a long healing period due to joint mobility in the early period after surgery, since displacement of the articular surfaces is possible.

A wrist endoprosthesis with distal and proximal components is also known (patent No. 148054, RU) - prototype.

However, the use of this endoprosthesis also provides a long healing period due to joint mobility in the early period after surgery, since displacement of the articular surfaces is possible.

The objective of the proposed wrist endoprosthesis is to reduce the time of postoperative healing due to high primary stability and early functional load on the joint in the early period after surgery, as well as increasing the range of motion.

The problem is solved by the proposed wrist endoprosthesis, which has a distal articular head and a proximal articular cup with legs.

The novelty of the proposed wrist endoprosthesis lies in the fact that, from the side of the leg, a uniform surface topography is formed on the proximal articular cup and on the distal articular head with an arithmetic mean roughness of 2 μm, in addition, the leg of the proximal articular cup is shifted relative to its center by 1 mm, the proximal articular cup has two symmetrical cutouts in the shape of a circle on the sides with a radius R, in addition, a positioning mark is made on the lower side of the proximal articular cup.

In fig. The inventive wrist endoprosthesis is shown.

The wrist endoprosthesis contains a proximal articular cup 1 with a leg 2, a distal articular head 3 with a leg 4, on the side of the legs 2, 4 on the proximal articular cup 1 and on the distal articular head 3 a uniform surface topography is formed with an arithmetic mean roughness of 2 μm, in addition, the leg 2 of the proximal articular cup 1 is shifted by 1 mm relative to the center of the proximal articular cup 1, on which two symmetrical cutouts 5 are made in the shape of a circle with radius R, in addition, a positioning mark 6 is made on the lower side of the proximal articular cup.

A uniform surface topography with an arithmetic mean roughness of 2 μm on the pedicle side on the proximal articular cup and on the distal articular head is obtained as follows: the surface of this area is processed in a stream of zirconium dioxide particles obtained as a result of milling, sintering and grinding to a size of 40-100 μm. Zirconium dioxide particles are fed under a pressure of 2 bar onto the pre-milled surface on the side of the legs 2, 4 on the proximal articular cup 1 and on the distal articular head 3.

A particle size of less than 40 microns does not allow the formation of topography with specified values of arithmetic mean roughness, and more than 100 microns is impractical, since this fraction forms an arithmetic mean roughness of more than 2 microns, as a result of which the likelihood of reimplantitis increases.

The formation of a uniform surface topography with an arithmetic mean roughness of 2 microns with a selected particle size of 40-100 microns and zirconium dioxide material forms a uniform topography, which increases the gene expression of osteocalcin and leads to active cell proliferation, as a result of which it accelerates the process of osseointegration, which leads to a technical result, expressed in a reduction in postoperative healing time.

Shifting the leg of the proximal articular cup by 1 mm relative to the center of the proximal articular cup makes it possible to obtain a more anatomically accurate design, which creates a correspondence between the patient’s anatomy and the design of the endoprosthesis, which leads to a technical result expressed in a reduction in postoperative healing time.

Making two symmetrical cuts on the proximal articular cup in the shape of a circle with a radius R makes it possible to obtain anatomically correct kinematics of joint movement, which leads to a clinical result expressed in the functionality of the installed endoprosthesis; this leads to a technical result expressed in a reduction in postoperative healing time.

Making a positioning mark on the underside of the proximal articular cup allows you to obtain a stable, positive result when installing the endoprosthesis into the bone canal, which leads to a technical result expressed in reducing the time of operations, as well as a clinical result expressed in anatomically correct positioning, which creates compliance between the patient's anatomy and the design of the endoprosthesis.

The proposed wrist endoprosthesis is used as follows: a proximal articular cup 1 with a leg 2 is installed, then a distal articular head 3 with a leg 4 is installed, and the ligament capsule is sutured.

The above-described new features of the proposed wrist endoprosthesis provide a reduction in postoperative healing time due to high primary stability and functional load on the joint in the early postoperative period.

All of these new features are significant, as they allow us to obtain a positive clinical result, expressed in a reduction in postoperative healing time due to an increase in the speed and strength of fusion.

The proposed wrist endoprosthesis was used in 5 patients. Clinical results showed a reduction in rehabilitation time (restoration of movement) in the postoperative period due to high primary stability and early functional load on the joint in the postoperative period and more effective compensation of the damaged (destroyed) ligamentous apparatus.

Claims (1)

A wrist endoprosthesis having a distal articular head with a stem and a proximal articular cup with a stem, characterized in that on the side of the stem on the proximal articular cup and on the distal articular head a uniform surface topography is formed with an arithmetic mean roughness of 2 μm, the proximal articular cup is made with two symmetrical cutouts made on the sides of the proximal articular cup, the leg of the proximal articular cup is shifted relative to its center by 1 mm, and a positioning mark is made on the lower side of the proximal articular cup.

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