RU152119U1 - ELASTIC GRID TITANIUM IMPLANT FOR RECONSTRUCTIVE SURGERY - Google Patents

Abstract

1. An elastic mesh titanium implant for reconstructive surgery, made in the form of a mesh of a metal material, characterized in that the implant is made in the form of a multilayer mesh of a titanium alloy, consisting of interwoven strands of wire fastened by welding. 2. The elastic mesh titanium implant according to claim 1, characterized in that the mesh is woven or woven.

Description

The utility model relates to medicine and the medical industry, namely to orthopedics and traumatology and can be used to reinforce bones and close their defects, as well as to fix bone-replacing material. More specifically to implants that replace bone fragments.

A device for osteosynthesis is known in the art which is made in the form of a plate of a titanium alloy 0.5-1.5 mm thick with holes for germinating fibrous tissue, equipped with means for attaching the plate to the bone, and the plate is made in the form of a grid consisting of interwoven strands of plate material. (Description of application to utility model No. 22032, IPC A61B 17/58).

In the proposed technical solution, the proposed mesh is made by knitting. The mesh was used in osteosynthesis of bones of a growing organism. The knitted mesh is well modeled, but it is too flexible and does not retain the desired shape and cannot be used for revision acetabular endoprosthetics.

Known mesh implant for reconstructive surgery, made in the form of a wire mesh with a wire of titanium alloy with a titanium content of at least 80%, the wire mesh contains wires, curved with the formation of loops connected to each other. And also made with the possibility of implantation in skin tissue, and / or subcutaneous fat, and / or adipose tissue, and / or muscle, and / or aponeurosis, and / or fascia, and / or in the intramuscular connective tissue. (Description of the application for the utility model No. 121735, IPC A61B 27/06).

In this technical solution, the mesh is also made by knitting, can be used to restore, splicing or plastic soft tissues of a person, that is, it is soft and does not hold its shape, does not have sufficient strength.

Closest to the claimed technical solution, taken as a prototype, is a shape-changing mesh implant for fixing and immobilizing bone fragments and overlapping bone defects or spaces in one or more places of the patient. (Description of the application for utility model No. 81890 ,, IPC A61F 2/28, Published: 04/10/2009).

The grid is made of biocompatible metal material, has many sheet sections forming a grid structure as a result of cross-connection with each other. With the formation of an area having an inner region and an outer region, each leaf section containing an inner plate portion with a through hole and with the possibility of installing a bone screw and no more than four arcuate plates.

A feature is that the inventive implant has a simulated, sections can move relative to each other.

It is characterized by increased rigidity without increasing the effort that the surgeon must manually apply to the mesh when it is deformed during the operation.

The disadvantages of the known implant is the complexity of the design, as well as its manufacture. The use of such an implant also makes it difficult to use.

The technical task of the claimed utility model is the creation of an elastic mesh titanium implant for reconstructive surgery with advanced functionality by performing a multilayer mesh, woven or woven from titanium wire. The grid can be made of wire of one ”diameter or several. It is easy to manufacture and has great functionality.

The problem is solved in that the implant for reconstructive surgery is made in the form of a multilayer mesh of a titanium alloy, consisting of interwoven strands of wire fastened by welding.

The mesh of the titanium implant can be woven or woven.

An additional layer can also be a mesh of thinner wire.

The proposed implementation of the mesh will significantly increase its simulability during application to the fracture region while maintaining strength properties, due to its bulk elastic-elastic structure, that is, it can be bent to any surface shape and cut.

The mesh made of wire provides high porosity and, as a result, grows well with bone tissue. At the same time, the mesh has sufficient rigidity, and prevents loss from the bone cavity during and after surgery.

In FIG. 1 shows a fragment of a grid.

A shape-changing mesh implant for bone reinforcement and fixation of bone-replacing material and overlapping of bone defects or gaps in one or more parts of the patient’s body is proposed. It can be used, for example, for reinforcing the acetabulum during revision arthroplasty, and the mesh can also be used for cranioplasty (closure of skull defects).

The implant for reconstructive surgery is made in the form of a flat multilayer mesh of a titanium alloy and consists of interwoven strands of wire fastened by welding.

The grid can be made of wire of one diameter or several, can be either woven or woven.

A single-layer mesh serving as a blank for the implant is made of titanium alloy wire with a diameter of 0.3-1.0 mm with a mesh of 0.6-1.5 mm (ensures structural strength).

The multilayer mesh is made of several single-layer ones by welding or joining in another way (increased strength, three-dimensional structure improves germination).

An additional layer can also be a grid of thinner wire (0.05-0.20 mm in diameter) with a smaller cell size, which provides better conditions for its bone tissue to germinate.

To repair defects during endoprosthetics, adequate filling of the acetabular defect with various plastic materials is necessary.

Bone grafts are used as plastic material to restore bone deficiency - autologous bone chips, spongy blocks or bone chips.

The size of bone chips is up to 0.3 × 0.3 mm. They fill in the acetabulum defect as follows: the required number of chips is laid in the defect and they are densified using a special tool (impactor) until the defect is filled densely with bone mass.

Various structures can be used to strengthen the bottom of the acetabulum. The device must provide reliable reinforcement, be able to germinate with bone tissue, repeat the shape and dimensions of the acetabulum of the patient and be made of inert material.

During the operation, the surgeon manually bends the shape-changing mesh implant, giving it the desired shape. After that, with the help of it, he attaches the shape-changing mesh implant to the bone.

The mesh made of titanium wire, due to the mutual mobility of the woven threads, is itself elastic and easily takes on a shape congruent with the shape of a convex or concave object that it encloses. The material has high hardness, fatigue resistance, wear and corrosion resistance, biocompatibility and lack of toxicity.

Claims (2)

1. An elastic mesh titanium implant for reconstructive surgery, made in the form of a mesh of metal material, characterized in that the implant is made in the form of a multilayer mesh of a titanium alloy, consisting of interwoven strands of wire fastened by welding. 2. The elastic mesh titanium implant according to claim 1, characterized in that the mesh is woven or woven.

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