UA20479U - Endoprosthesis of knee-joint - Google Patents

Abstract

The endoprosthesis of the knee-joint contains the femoral and the tibial components comprising the body and the demountable intramedullary stem of the joint. Each intramedullary stem is connected with the corresponding body capable of the axial movement.

Description

Description of the invention

The useful model refers to the field of medicine, in particular to traumatology and orthopedics, and can be used for endoprosthetics of the knee joint in case of injuries and diseases.

A known endoprosthesis of the knee joint, containing femoral and tibial components, which consist of a body and an intramedullary leg rigidly connected to the body | see catalog "Mekhbep zuviet Mo97-5972-09 hem.1, OBA, 1998 7tteg Ips.| Such an endoprosthesis by the set of features is the closest to the useful model that is claimed and taken as a prototype. 70 The disadvantage of the known endoprosthesis is that with axial cyclic under load, the end of the leg moves along the bone channel due to the difference in the amount of elastic deformation of the leg and bone, since the modulus of elastic deformation of the material of the leg, which is usually made of metal, is 5-15 times greater than that of the bone.

The greater the length of the leg and the greater the axial load, the greater its movement relative to the bone.

Thus, the largest relative movement occurs in the diaphyseal part of the bone, that is, where the fixation of the leg should be ensured.

Moreover, the greater the damage to the bone (osteoporosis, etc.), the smaller its modulus of elasticity and the greater the relative movement of the leg relative to the bone.

Movement of the leg relative to the bone prevents the process of osseointegration in the case of a cementless prosthesis, or leads to delamination of the bone cement and the formation of wear products from the bone cement at the point of friction of the leg with the mantle. In both cases, this leads to instability of the prosthesis.

Thus, the presence of a rigid connection between the body and the leg reduces the effectiveness of the operation and leads to early revision prosthetics.

The useful model is based on the task of increasing the stability of the prosthesis and increasing the time to revision prosthetics due to the exclusion of movement of the leg in the diaphyseal part of the bone. 29 The task is achieved by the fact that in the endoprosthesis of the knee joint, which contains femoral and tibial components consisting of a body and a removable intramedullary leg, according to a useful model, each intramedullary leg is connected to the corresponding body with the possibility of axial movement.

In addition, to prevent rotation of the leg relative to the body, the leg and body seats have derotation elements. at

To reduce the wear of the friction parts, the leg and body seats have wear-resistant coatings. -

Figure 1 shows the general view of the endoprosthesis; in Fig. 2 - a section of the endoprosthesis in the sagittal plane; C on Fig. 3 - section A-A Fig. 2. Ha")

The knee endoprosthesis includes a femoral component consisting of a body 1 and an intramedullary leg 2, and a tibial component consisting of a body 3, an intramedullary leg 4 and an insert 5.

The leg 2 is installed in the landing hole 6 of the body 1 with the possibility of movement along the axis of the hole. The leg 4 is installed in the landing hole 7 of the body C with the possibility of movement along the axis of the hole. To ensure the reciprocating movement of the legs, they are installed with a gap I. and Y 5 between the ends of the legs and the bottom of the case. "

To prevent rotation of the leg relative to the body, the leg and body seats can have derotational elements, such as cotters 8. no) c To reduce the wear of the friction parts, the leg and body seats can have wear-resistant coatings,

And" for example, a layer of titanium nitride.

The endoprosthesis is installed as follows. One of the well-known approaches is arthrotomy of the knee joint.

The distal part of the femur is treated under the internal profile of the body 1. The canal of the femur is treated under the intramedullary pedicle 2. The proximal part of the tibia is treated for the formation of a bone bed under the body 3. The canal of the tibial bone is treated under the intramedullary pedicle av | 4. The leg 4 is installed in the body of the tibial component 3. The tibial component with the leg is installed in the prepared place up to the stop. Through the hole 9 in the body of the tibial component, the leg e is hammered into the bone channel to create a gap І 5 between the end of the leg 4 and the bottom of the landing hole. -I 20 The femoral component of the endoprosthesis is installed in the same way. iChe)

Claims (3)

The formula of the invention 1. Endoprosthesis of the knee joint, which contains femoral and tibial components, consisting of a body and a removable intramedullary leg, which is distinguished by the fact that each intramedullary leg is connected to the corresponding body with the possibility of axial movement. 2. An endoprosthesis according to claim 1, which is characterized by the fact that the landing places of the leg and the body have derotational elements. 3. Endoprosthesis according to claim 1, which is characterized by the fact that the leg and body seats have wear-resistant coatings. 60 b5