RU90674U1 - Intramedullary Implant - Google Patents

Abstract

An intramedullary implant containing the body and the outer layer, characterized in that the body is made of polyglycolic acid copolymers, and the outer layer consists of polypropylene fumarates.

Description

The utility model relates to medicine, specifically to traumatology and orthopedics, and can be used in surgical operations to treat patients with acquired and congenital diseases of the tubular bones, with injuries, with hematogenous osteomyelitis, phosphate diabetes, cysts, imperfect osteogenesis, as well as benign tumors.

Known needle for osteosynthesis, containing a metal body, a viscous core, an inner and outer dielectric layer, the outer dielectric layer consisting of bioinert and bioactive layers (patent No. 2164784, RU).

However, the described spoke has the following disadvantages: it is impossible to carry out osteogenesis, since it does not change the biosynthetic functions of the bone marrow.

The objective of the proposed utility model is to accelerate healing by 2-3 times due to changes in the biosynthetic functions of the bone marrow, because the elasticity of the material from which the implant body is made changes and creates different values of its stress due to the material of the applied coating, i.e. the outer layer, which may be bioactive or bioinert.

The problem is solved by an intramedullary implant containing the body and the outer dielectric layer. New in the proposed intramedullary implant is that the body is made of copolymers based on polyglycolic acid, and the outer layer consists of polypropylene fumarates.

The inventive intramedullary implant is depicted in figure 1.

The intramedullary implant contains a body 1 made of copolymers based on polyglycolic acid and an outer layer 2 consisting of polypropylene fumarates.

The proposed intramedullary implant is inserted into the medullary canal of the tubular bone through the metaphysical zone using any known surgical method.

The inventive intramedullary implant was used in 20 patients. The observation results showed 100% treatment effectiveness.

Mesenchymal stem cells located in the bone marrow exhibit their osteogenic potential when incorporated into the porous coating of polypropylene fumarates. The implant surface energy is regulated by creating zones of mechanical stresses of different signs (tension - compression). In particular, cell adhesion (hydrophilicity, hydrophobicity) and other biological processes at the implant-environment interface are regulated.

If the surface energy of the implant with the proposed coating is higher than the surface tension of the bone marrow tissue surrounding the implant, the surface of the coating becomes wettable, which leads to increased cell adhesion. This, in combination with the creation of zones of mechanical stresses of different signs at the implant - surrounding tissue interface, is a control parameter for the multilevel construction of biological tissues from molecular processes at the contact boundary due to the nanoscale surface structure from 50 to 800 nm, microlevel surface structure from 100 to 500 microns for control cellular behavior to the final development of bone tissue. The proposed intramedullary implant also determines the size and characteristics of the above control parameters that affect the development of bone tissue.

Claims (1)

An intramedullary implant containing a body and an outer layer, characterized in that the body is made of polyglycolic acid copolymers, and the outer layer consists of polypropylene fumarates.