SU610330A1 - Endoprosthesis for replacing defects of flat bones - Google Patents

Abstract

ENDOPROTESIS FOR THE REPLACEMENT OF DEFECTS OF FLAT BONES, made in the form of a bar of polymer material reinforced with metal and polymer meshes, thread. which are rotated one relative to the other in parallel planes, and the grid cells are filled with amorphous bridges and attachment elements to the mother bone, about t and n and h - y. and so that, in order to replace the bone defects to which powerful muscles are fastened, for example, the patella, the threads of each grid form cells with a corner at the top of 80-90 *, adjacent grids are turned one relative to the other at an angle of 35-45, while the threads of each grid form an elongated loop in 1 contour assembled from two sides in loops through which the harness is passed, formed from polymeric material, reinforced with metal and polymeric grids, poured with a binder, and in which fastening elements are installed .§ (Лg < J5GO OO

Description

2. The endoprosthesis, which is defined as saturation according to claim 1, is about 10–1% and is not 10–20% of the surface of the prosthesis, which reinforces 60–75% of the total volume, and in the octal metal at the deep end — 20–30 % to total volume. at 10330

This invention relates to medicine, namely to traumatology, orthopedics and reconstructive surgery.

A known endoprosthesis for replacing defects of flat bones, made in the form of a bar of polymeric material reinforced with metal and polymer nets, the threads of which are rotated relative to each other in parallel planes, and the mesh cells are filled with amorphous binder and elements attached to the mother bone. However, such an endoprosthesis due to insufficient strength of resistance to interlayer shear is unsuitable for replacing defects of flat bones.

The aim of the invention is to replace bone defects to which powerful muscles, such as the kneecap muscle, are attached.

For this, the threads of each grid form cells with an angle of 8090, the adjacent grids are rotated one relative to the other at an angle of 35-45, while the threads of each grid form an elongated loop that is assembled from two sides into loops through which the rope formed of polymeric material reinforced with meta-GEL and polymeric grids, filled with binders, and in which fastening elements are installed. In addition, the reinforced metal saturation at a depth of 10–20% of the surface of the prosthesis is 60–75% of the total volume, and in the rest 20–30% of the total volume.

FIG. 1 shows the reinforcement mesh; in fig. 2 - location of adjacent reinforcing meshes along the endoprosthesis thickness; Fig. 3, an endoprosthesis with fasteners; in fig. 4 - the formation of rigid outer layers of the endoprosthesis.

As a reinforcing base of the proposed endoprosthesis is taken

reinforcing nets 1 made of polymeric and metallic filaments, and the filaments at the intersection form cells with an apex angle close to the straight line. The metal mesh is made of highly plastic alloys of stainless steel or plasticized titanium and zirconium alloys. For the manufacture of a polymer mesh, capron, polyester, etc. are used. At the intersections of the thread, the grids are soldered or sintered using a known technology. The threads 2 of the adjacent reinforcing meshes 1 (see FIG. 2) are rotated relative to each other in parallel planes at an angle close to half straight, and form an elongated closed loop assembled from two sides in loop 3, through which the rope 4 is passed Loops 3 cover special holes 5 provided in the mass of the endoprosthesis for attaching the tendons of powerful stretching plates (not shown) and conditions are created for the uniform transmission of local forces throughout the endoprosthesis both in the isotropy plane and in thickness.

Due to the presence of a system of mutually rotated grids, the reinforcement base in each specific direction of thrust provides both effective tensile work and shear resistance.

To ensure uniform load resistance over the entire mass of the endoprosthesis and prevent fatigue damage in particular for the patella, the endoprosthesis is given additional strength due to the use of an amorphous binder with a relatively low modulus of elasticity (by increasing the specific content of metal reinforcement in the outer layers of the endoprosthesis (see 5). In the outer layers of the endoprosthesis at a depth of 10-20% of the surface of the prosthesis, the reinforced metal saturation is 60-75% of the total volume (in Fig. 5), and the rest a reinforced portion of the second prosthesis is saturated, of a metal is 20-30% of the total volume, i.e., in the outer metal layers predominate, while in the inner - polymeric mesh.

The proposed design allows the replacement of bone defects, or whole flat bones, which are subjected to high variable loads in several planes under biaxial spacing conditions.

Claims (2)

ENDOPROTHESIS FOR REPLACEMENT OF FLAT BONE DEFECTS, made in the form of a bar made of a polymeric material reinforced with metal and polymer nets, threads which are rotated one relative to the other in parallel planes, and the mesh cells are filled with an amorphous binder, and the attachment elements to the mother bone, and moreover, in order to replace defects in bones to which powerful muscles, such as the patella, are attached, the threads of each mesh form cells with an angle at the apex of 80-90 °, adjacent grids are rotated one relative to the other at an angle of 3545 °, while the filaments of each mesh form an elongated closed loop, assembled on both sides into loops through which a bundle is passed, formed from a polymeric material reinforced with metal and polymeric nets, filled with a binder, and in which the elements are installed fastenings. SU „„ 610330 2. Endoprosthesis pop. 1, characterized in that the reinforced metal saturation at a depth of not 10-20% of the surface of the prosthesis is 60-75% of the total volume, and in the rest, 20-30% of the total volume.