RU85811U1 - ORTHOPEDIC IMPLANT - Google Patents

Abstract

An orthopedic implant containing a metal body and an outer layer having bioactive and osteoconductive properties, characterized in that the metal body is made of undoped titanium with a homogeneous submicrocrystalline globular structure, with a grain size of less than 1 μm.

Description

The utility model relates to medicine, specifically to traumatology and orthopedics, and can be used in surgical operations to treat deformities and impaired function of the organs of support and movement.

Known needle for osteosynthesis, containing a metal body made of an alloy of titanium, and an external dielectric layer (patent No. 2064291, RU).

The described spoke has the following disadvantage: titanium alloys contain alloying elements harmful to the body, and the external dielectric layer is made of titanium oxides. This coating has high hardness, wear resistance, however, does not have osteoinductive properties. All this together can cause various complications due to toxic effects on the body and a decrease in the effectiveness of treatment. Known implants for osteosynthesis containing a metal body and external dielectric layers possessing bioactive and osteoconductive properties through the use of calcium phosphate compounds (for example, utility model patents No. 26930 RU, No. 72839 RU, No. 66938 RU, patent for invention No. 1743024 RU, 2154463 RU and others), in which calcium phosphate coatings are applied by various methods to titanium or a titanium alloy.

A common drawback of these technical solutions is that casting titanium alloys contain components such as nickel vanadium and others, which have a harmful effect on the tissue surrounding the implant. And technically pure titanium, approved for use in medicine, has worse mechanical properties than its alloys.

The objective of the proposed utility model is to expand the arsenal of implants, characterized by sufficient mechanical properties, the absence of toxic effects on the body and biocompatibility.

The problem is solved by an orthopedic implant containing a metal body and an outer layer with bioactive and osteoconductive properties.

New in the proposed orthopedic implant is that the metal body is made of undoped titanium with a homogeneous submicrocrystalline globular structure, with a grain size of less than 1 μm.

Unalloyed titanium with a submicrocrystalline globular structure has mechanical properties similar to those of alloyed titanium alloys (Table 1), and the absence of impurities harmful to the body can guarantee a reduction in toxic effects, which allows expanding the possibilities of using the inventive implant.

A fragment of the inventive orthopedic implant is depicted in figure 1.

The orthopedic implant contains a metal body 1 made of undoped titanium with a homogeneous submicrocrystalline globular structure, with a grain size of less than 1 μm, and an outer layer 2 with bioactive and osteoconductive properties.

The mechanical properties of an unalloyed titanium VT1-0 implant with a submicrocrystalline structure approach the properties of titanium alloys: table 1 shows comparative data on tensile strengths (MPa) and ductility (%) with unalloyed titanium VT1-0 and titanium alloy VT6 (manufactured by OJSC Corporation VSMPO-AVISMA ”, Verkhnyaya Salda, RF.)

Table 1. VT1-0 VT1-0 submicrocrystalline state VT6 Tensile strength, MPa 460 690 970 Ductility,% 27 twenty 17

The proposed orthopedic implant is used in any known surgical manner.

Claims (1)

An orthopedic implant containing a metal body and an outer layer having bioactive and osteoconductive properties, characterized in that the metal body is made of undoped titanium with a homogeneous submicrocrystalline globular structure, with a grain size of less than 1 μm.