RU194173U1 - BACK DISTAL BACK PLATE COMBINED FOR OSTEOSYNTHESIS OF THE HUMER BONE - Google Patents

Abstract

The utility model relates to medicine and medical equipment, namely to traumatology and orthopedics, and can be used in surgical treatment of patients with fractures and false joints of the lower third of the humerus, including osteoporosis. A plate for the humerus osteosynthesis containing diaphyseal , metaphysical and transitional parts with holes for screws with angular stability, as well as compression and oval holes for cortical screws having a spiral bend-twist to bypass the radial nerve and the bend in the sagittal plane, corresponding to the normal anatomy of the lower third of the humerus, in the transitional part of the plate there are oval holes for possible fixation of bone grafts, while the compression holes are made of an intermediate size with the possibility of fixing with screws with a diameter of both 3.5 mm and 4, 5 mm, and the metaphysical part contains an installation round hole for cortical screws with a diameter of 3.5-4.5 mm, as well as two rows of holes for screws with angular stability with a diameter of 3.5 mm and a branch of the plate, rientirovannuyu on condyle of humerus head, according to the utility model plate is made of titanium or its alloys as the surface of the plate by sputtering electroexplosive bioinert applied composite coating based niobiya.Elektrovzryvnoe deposition leads to the formation of highly dispersed and uniform coating structure. The advantage also lies in the formation of a surface layer with high coating adhesion with a titanium substrate, low roughness and a homogenized structure, which increases the life of the implants and expands the field of practical application. 4 ill.

Description

The utility model relates to medicine and medical equipment, namely to traumatology and orthopedics, and can be used in surgical treatment of patients with fractures and false joints of the lower third of the humerus, including osteoporosis.

A known distal posterior plate is combined for osteosynthesis of the humerus, containing the diaphyseal, metaphyseal and transitional parts with screw holes with angular stability, as well as compression and oval holes for cortical screws, having a spiral bend-twist to bypass the radial nerve and bend into the sagittal plane, corresponding to the normal anatomy of the lower third of the humerus, in the transitional part of the plate are oval holes for possible fixation of bone grafts, at m compression holes are made of intermediate size with the possibility of fixing with screws with a diameter of both 3.5 mm and 4.5 mm, and the metaphysical part contains an installation round hole for cortical screws with a diameter of 3.5-4.5 mm, as well as two rows of holes for screws with angular stability with a diameter of 3.5 mm and the branch of the plate, oriented to the head of the condyle of the humerus (RU No. 2599193 IPC АВВ 17/80, publ. 10.10.2016).

This technical solution is the closest in technical essence and is selected by the authors for the prototype.

The disadvantage of the prototype is the possibility and the way out of the implant material of metal ions, leading to inflammation and toxicological poisoning of body cells (E. Yerubaev, Cyclic deformation and thermomechanical stability of titanium and its alloys for medical purposes: the dissertation for the degree of candidate of technical sciences: 01.04. 07; - Belgorod; - 2017; - 142 p.).

The technical problem to which the proposed technical solution is directed is to increase the bioinert properties by applying a bioinert coating on the implant surface.

To solve this technical problem in the proposed plate for osteosynthesis of the humerus containing diaphyseal, metaphyseal and transitional parts with holes for screws with angular stability, as well as compression and oval holes for cortical screws, with a spiral bend-twist to bypass the radial nerve and bend in the sagittal plane, corresponding to the normal anatomy of the lower third of the humerus, in the transitional part of the plate are oval holes for possible fixation of bone transplants natov, while the compression holes are made of an intermediate size with the possibility of fixing with screws with a diameter of both 3.5 mm and 4.5 mm, and the metaphysical part contains an installation round hole for cortical screws with a diameter of 3.5-4.5 mm, as well as two a series of holes for screws with angular stability with a diameter of 3.5 mm and the branch of the plate, oriented to the head of the condyle of the humerus, according to a useful model, the plate is made of titanium alloy, and a composition is applied on the surface of the plate by means of electric explosion spraying Noe bioinert niobium based coating.

The technical result obtained by the implementation of the utility model is that, during the electric explosion of niobium foil, the destruction products form a plasma jet, which serves as a tool for forming a niobium-based coating on the surface of implants made of a titanium alloy. Electric explosive spraying leads to the formation of a finely dispersed and uniform structure in the coating. The advantage also lies in the formation of a surface layer with high adhesion to the coating with a substrate of titanium alloy, low

roughness and homogenized structure, which increases the service life of implants, and expands the field of practical application.

The process of applying a bioinert coating based on niobium to an implant made of a titanium alloy includes an electric explosion of a niobium foil weighing 50-500 mg, the formation of a pulsed multiphase plasma jet from the explosion products and fusion of the implant surface with an absorbed power density of 1.5-1.8 GW / m, deposition on the surface of the explosion products and the formation on it of a bioinert coating based on niobium.

Example 1

The surface of the plate with a coating of niobium, formed by a plasma jet obtained by electric explosion of niobium foil weighing 50 mg, with an absorbed power density of 1.5 GW / m ² . A bioinert coating based on niobium is obtained, which has high adhesion with the substrate at the level of cohesion.

Example 2

A surface protective layer created on the basis of niobium, formed by a plasma jet formed by electric explosion of a niobium foil weighing 500 mg. The implant surface was melted at an absorbed power density of 1.8 GW / m ² . A bioinert coating based on niobium is obtained, which has high adhesion with the substrate at the level of cohesion.

The proposed utility model is illustrated in the drawing.

In FIG. 1 shows a rear distal combined plate for the humerus, front view;

in FIG. 2 - back distal combined plate for the humerus, side view;

in FIG. 3 - back distal combined plate for the humerus, rear view;

in FIG. 4 - a posterior distal combined plate for the humerus in an axonometric projection on the humerus;

Combined posterior distal plate for the humerus 1 consists of the diaphyseal part 2, the transitional part 3 and the metaphysical part 4. The diaphysis part 2 has compression holes 5 and holes with angular stability 6. The diaphyseal part of the plate 2 has an anatomical spiral bending-twist 7 for bypassing of the radial nerve 8. The transitional part of the plate 3 contains oval openings 9 used for possible fixation of bone grafts 10. The metaphyseal part of the plate 4 contains an insertion hole 11 for the cortical 12 and that two rows of holes 13 with the angular stability of 6 and branch 14 with holes with angular stability 6 directed towards the capitate elevation condyle of humerus 15 1. Holes 6 in the angular stability diaphyseal and metaphyseal 2 4 parts -odinakovye device. The entire device has a sagittal bend 16 corresponding to the shape of the lower third of the humerus 1. Holes with angular stability 6 are designed for the introduction of angle-stable screws 17 with a diameter of 3.5 mm, and the compression holes 5 and oval holes 9 allow the use of cortical screws 12 with a diameter of 3.5 or 4.5 mm. The size of the holes 5 and the width of the hole 9 are intermediate between the standard sizes of the compression holes for AO-ASIF cortical screws with a diameter of 3.5 and the standard sizes of the compression holes for cortical screws AO-ASIF with a diameter of 4.5 mm. The broken bone to which the plate is attached has a proximal fragment of the humerus 18, a distal fragment of the humerus 19, a zone of the false joint or fracture 20 (shown by a dark background).

The installation of the plate is performed as described in the prototype RU No. 2599193.

Using the proposed technical solution allows, in comparison with the prototype, to increase the service life by reducing the release of implant ions into the human body.

Biological certification in vitro showed that niobium-based electroexplosive coatings on titanium alloy substrates do not have a cytotoxic effect, have high bioactivity and exhibit an antibacterial effect, which allows them to be recommended for application to bioinert alloy implants for osteosynthesis.

Claims (1)

Combined posterior distal plate for humerus osteosynthesis containing diaphyseal, metaphyseal and transitional parts with screw holes with angular stability, as well as compression and oval holes for cortical screws, having a spiral bend-twist to bypass the radial nerve and bend in the sagittal plane, corresponding normal anatomy of the lower third of the humerus, in the transitional part of the plate there are oval holes for possible fixation of bone grafts, while the casing holes are made of an intermediate size with the possibility of fixing with screws with a diameter of both 3.5 mm and 4.5 mm, and the metaphysical part contains an installation round hole for cortical screws with a diameter of 3.5-4.5 mm, as well as two rows of holes for screws with angular stability with a diameter of 3.5 mm and a branch of the plate oriented to the head of the condyle of the humerus, characterized in that the plate is made of titanium alloy, and a composite bioinert coating is applied to the surface of the plate by means of electroexplosive spraying niobium.

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