RU2599351C2 - Phalangeal joint endoprosthesis with carbon coating - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, specifically to traumatology and orthopaedics for replacement of interphalangeal and metacarpophalangeal joints. Endoprosthesis comprises a central portion made from elastic material with inner cavity, and endosseous retainers made of porous inert material. Central part is coated with carbon layer having a wavy structure.

EFFECT: invention ensures prevention of cracking of carbon layer due to difference of mechanical characteristics of elastic part and carbon material, carbon coating has wavy structure.

1 cl, 1 dwg

Description

The invention relates to medicine, namely to traumatology and orthopedics for endoprosthetics of interphalangeal and metacarpophalangeal joints.

Known endoprosthesis of the finger joint of the hand, containing a rod of elastic material having a broadened central part with a recess, and ends reinforced with metal rods. A hydrophilic foam is placed in the recess (RF patent No. 2061442).

An endoprosthesis of the interflange joint (prototype) is also known, containing a central part made of an elastic material with an internal cavity that is filled with a fluid agent, intraosseous fixators of a porous inert material with an elastic modulus equal to or higher than the elastic modulus of bone tissue (RF patent No. 2076668).

The disadvantage of both analogues is the difference in the mechanical characteristics of the elastic part and the hard carbon layer, which with flexion-extensor movements of the finger can lead to cracking of the carbon layer, after which biocompatibility may deteriorate.

The technical result expected from the use of the invention is to increase biocompatibility, increase the deformability of the surface layer by preventing cracking, reduce the difference in the mechanical characteristics of elastic and rigid materials and, as a result, prevent the formation of a connective tissue capsule.

The technical result is achieved using features common to the prototype, such as the implementation of the Central part of the interflange joint of an elastic material with an internal cavity and intraosseous fixators of a porous inert material and using the distinguishing feature, which consists in the fact that the surface of the polymer part of the endoprosthesis by ion implantation a thin wavy carbon coating is applied.

The invention is illustrated in the drawing, which shows a General view of the endoprosthesis, where 1 and 2 are intraosseous fixators made of porous material, 3 is the central part of the elastic material, 4 is the carbon layer of the wavy structure.

An endoprosthesis of the interphalangeal joint contains the central part and intraosseous fixators. The central part is made of an elastic material (for example, polyurethane) with an internal cavity that is filled with a fluid agent. Air was used as the current agent.

The intraosseous fixators are made of a porous inert material, the elastic modulus of which is equal to or higher than the elastic modulus of bone tissue (for example, a carbon-carbon composite material). The latches are connected to the central part during its polymerization. The central part is covered with a thin wavy carbon layer.

The endoprosthesis is used as follows.

The interphalangeal joint is opened with the back access, the destroyed phalanx heads are removed. Bone fixers are inserted into the open and expanded bone marrow channels with a drill, combining the central part with the level of the natural location of the joint and placing the convex wall to the dorsal side of the hand. The wound is sutured. Joint immobilization is carried out for the time required for bone tissue to grow into the pores of the fixatives. Then proceed to the development of movements. Flexion of the joint occurs in the central part. The presence of a cavity filled with air creates favorable conditions for flexion of the endoprosthesis and prevents tissue infringement from the palmar side of the endoprosthesis and the growth of connective tissue. Biofixation of intraosseous fixators ensures stable operation of the endoprosthesis.

Claims (1)

An endoprosthesis of the interphalangeal joint, comprising a central part made of an elastic material with an internal cavity, and intraosseous fixators made of a porous inert material, characterized in that the central part is covered with a carbon layer having a wavy structure.

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