RU2145821C1 - Device for total endoprosthetics of knee joint - Google Patents

Abstract

FIELD: traumatology and orthopedics. SUBSTANCE: device may be used for full substitution of knee joint. The device has femoral component in the form of arc-shaped skids, tibial component with projections of ratchet gear and limiter, platform positioned between femoral and tibial components. On one side platform has hollows conjugated with femoral component skids and on the other, arc-shaped recess for limiter projection and recess for ratchet-gear projection between which jumper is placed. Device also includes locks for fastening of femoral and tibial components. Femoral component skids and platform hollows are conjugated over truncated cylindrical surfaces. Recess for ratchet-gear projection on platform is made as guide slit turning into tapered seat with rounded base. Ratchet-gear projection is provided with stop rigidly connected to it through collar. It is positioned along axis of symmetry of tibial component. Ratchet-gear projection is coupled loosely to guide slit to create transverse movements of tibial component relative to platform. It forms hinge at slit output for turning of tibial component relative to vertical. Selection of geometry and combinations of parameters of conjugated surfaces of platform, femoral and tibial components enables increase in physiological adequacy of knee-joint endoprosthesis in movements and in dynamics, as well as enhances operative reliability and durability. EFFECT: enhanced stability. 3 cl, 9 dwg

Description

 The invention relates to traumatology and orthopedics and can be used to completely replace the knee joint.

 A device is known for total knee arthroplasty (see EP 0636353 A1 of 02/01/95) (1). The device contains a femoral component, which is made in the form of a sled having an arc shape and close in shape to the anatomical surface of the femoral condyles, a tibial component containing a ratchet protrusion in the form of a rod, a platform located between the femoral and tibial component and having, on one side, a recess in the form truncated spheres under the slide of the femoral component, and on the other hand, a hole or an oblong groove under the shaft of the protrusion of the ratchet of the tibial component.

 This device cannot realize the range of movements and dynamics, adequate physiological. In addition, the device is unreliable, because not designed to work with increased loads.

 The closest analogue is a device for total knee replacement (see PCT WO 96/38103 dated 12/05/96) (2).

 The device (2) contains a femoral component in the form of an arc-shaped sled, a tibial component made with protrusions of a ratchet and a limiter, a platform located between the femoral and tibial components and having recesses on one side that are connected to the sled of the femoral component, and on the other an arc groove under the protrusion of the limiter and a groove under the protrusion of the ratchet, between which there is a jumper, clamps for attaching the femoral and tibial components.

 However, the device (2) is unstable and at high loads, despite the presence of limiters, an unintended platform displacement beyond the tibial component can occur. This will lead to discomfort to the patient and may ultimately lead to damage to the prosthesis.

 In addition, the device (2) cannot reproduce the range of movements and dynamics, adequately adequate to the physiology of the knee joint.

 In addition to this, device (1) has an insufficient contact area of rubbing surfaces, which leads to increased wear, to reduced operational reliability and durability.

 The objective of the proposed device is to increase the stability of the position of the mating planes, increase the physiological adequacy of the reproduction of movements and dynamics of the knee joint prosthesis while expanding the capabilities of the device, increasing operational reliability and durability.

 To solve this problem, in a device for total knee arthroplasty containing a femur component in the form of an arc-shaped sled, a tibial component made with projections of a ratchet and a limiter, a platform located between the femoral and tibial components and having recesses on one side that are associated with the slides of the femoral component, and on the other, the arc groove under the protrusion of the limiter and the groove under the protrusion of the ratchet, between which there is a jumper, clamps for attaching the femoral and of the glomerular components, according to the invention, the slides of the femoral component and the recesses on the platform are conjugated along truncated cylindrical surfaces, the groove for the ratchet protrusion on the platform is made in the form of a guide slot turning into a conical socket with a rounded base, the ratchet protrusion is equipped with a stop rigidly connected to it through the girdle, and is located along the axis of symmetry of the tibial component, while the protrusion of the ratchet is movably connected with the guide slot to create lateral movements of the tibial component enthal relative to the platform and forms a hinge for turning the tibial component relative to the vertical axis at the exit from the slot, the stop of the ratchet protrusion is movably connected with the walls of the conical socket to limit the rotation angle, and the protrusions of the ratchet and limiter are connected by a partition whose length corresponds to the length of the slit, the height of the ratchet protrusion less than the height of the protrusion of the limiter, but greater than the height of the partition, and the height of the bridge between the arcuate groove under the protrusion of the limiter and the groove under the protrusion of the ratchet Reduced to the height of the partition.

In addition, to solve the problem in the device for total prosthetics of the knee joint, according to the invention, the arcuate groove under the protrusion of the limiter can be truncated by an asymmetric wall with sides corresponding to the left or right knee to limit the rotations of the lower leg relative to the vertical axis by 8-10 ^° outwards and 15-20 ^o inside.

 In addition, to solve the problem in the device for total prosthetics of the knee joint, according to the invention, a through hole for the synthetic endoprosthesis of the anterior cruciate ligament can be made in the conical socket of the groove under the ratchet protrusion with the formation of a platform around the perimeter of the hole for supporting the ratchet protrusion, between the stop and ratchet ledge made a second through hole for the synthetic endoprosthesis of the specified ligament, passing through the tibial component and communicated in the working position with the indicated hole in the conical socket.

 The technical result consists in increasing the stability of the endoprosthesis due to the selection of geometry and a combination of parameters of the mating surfaces of the platform, the femoral and tibial components, allowing to increase the physiological adequacy of the knee joint prosthesis in movements and dynamics, as well as to increase operational reliability and durability.

 In FIG. 1 shows a cross section of the proposed knee joint endoprosthesis assembly.

 In FIG. 2-3 shows the relative position of the femoral component and the platform of the knee joint implant when bending the legs in two extreme positions.

 In FIG. 4-6 shows the relative position of the platform and the tibial component, respectively, with transverse and rotational movements of the tibial component relative to the platform and relative to the vertical axis.

 In FIG. 7-9 shows the position of the platform and the tibial component during transverse and rotational movements of the tibial component, respectively, relative to the platform and relative to the vertical axis when performing an arc groove under the restrictive protrusion with an asymmetric wall.

 The device comprises a femoral component 1 (right or left) of the knee joint endoprosthesis, a tibial component 2 (right or left) and a platform 3 located between them (see Fig. 1).

 The femoral component 1 is made in the form of an arc-shaped slide 1 ', the outer surface 4 of which is similar to the anatomical surface of the femoral condyles, and the fasteners 5 of the attachment to the femur are located on the inner side.

 At the end of the platform 3, facing the femoral component 1, recesses 6 are made for the sled 1 ', mating with the sled 1' on a truncated cylindrical surface.

 On the surface of the tibial component 2, facing the platform, the protrusions of the ratchet 7 and the limiter 8 are made.

 At the end of the platform 3, facing the tibial component 2, an arc groove 9 is made under the protrusion of the limiter 8 and groove 10 under the protrusion of the ratchet 7, between which there is a jumper 11.

 The groove 10 for the protrusion of the ratchet 7 on the platform 3 is made in the form of a guide slit 12, turning into a conical socket 13 with a rounded base 14.

 The arc groove 9 under the protrusion of the limiter 8 can be symmetrical, as in FIG. 4-6, and can be made with an asymmetric wall 15, as in FIG. 7-9. The asymmetric wall 15 is located on the side corresponding to the right or left knee.

 The protrusion of the ratchet 7 is provided with a support 17 rigidly connected to it through the belt 16, has the shape of a cylinder with an elongated base and is located along the axis of symmetry of the tibial component 2.

 In addition, the protrusion of the ratchet 7 is movably connected with the guide slot 12 to create lateral movements of the tibial component 2 relative to the platform 3 and forms a hinge 18 at the outlet of the guide slot 12, which rotates the tibial component 2 relative to the vertical axis.

 The stop 17 of the protrusion of the ratchet 7 interacts with the walls of the conical socket 13 to limit the angle of rotation.

 The protrusions of the ratchet and limiter 7, 8 are interconnected by a partition 19, the length of which corresponds to the length of the guide slot 12. The height of the protrusion of the ratchet 7 is less than the height of the protrusion of the limiter 8, but greater than the height of the partition 19, and the height of the bridge 11 between the arcuate groove 9 under the protrusion of the limiter 8 and the groove 10 under the protrusion of the ratchet 7 is reduced to the height of the partition 19.

 The device provides for conducting a synthetic endoprosthesis of the anterior cruciate ligament (not shown) through a through hole 20 made in a conical socket with the formation of platforms 21 for supporting the protrusion of the ratchet 7, through a second through hole 22 passing between the ratchet 7 and the stop 17, and through the tibial component 2.

 The principle of operation of the device is based on the interaction of two functional units.

 The first node is the relationship of the sled 1 'of the femoral component 1, the arcuate shape of the outer surface 4 of which is similar to the anatomical shape of the femoral condyles and the corresponding recesses 6. The recesses 6 are made on the platform 3 and are connected with the sled 1' along truncated cylindrical surfaces.

This node is a sliding bearing, the movable part of which is the slide 1 'of the femoral component 1. It provides rotation of the femoral component 1 relative to the platform 3 and rotation of the tibial component 2 when bending the legs. Platform 3 in this connection is stationary. In the process of movement, the magnitude of the contact surface changes slightly (see Fig. 2-3) and when the leg bends 110 ^°, the contact area of the rubbing surfaces for an average sized prosthesis is 320 mm ² , which is 10 times the contact area of the rubbing surfaces of known structures. This allows you to reduce the wear of rubbing surfaces and, thus, increase operational reliability and durability.

 The femoral component is made of cobalt-chromium alloy, and the platform is made of ultra-high molecular weight polyethylene.

 The second node provides lateral movements of the tibial component 2 relative to the platform 3, movable in this connection, and the rotation of the tibial component 2 relative to the vertical axis. This achieves an increase in the physiological adequacy of the movement of the proposed knee joint replacement.

 The transverse movement of the tibial component relative to the platform is provided by the possibility of moving the protrusion of the ratchet 7 in the guide slit 12. The length of the guide slit corresponds to the length of the partition 19 connecting the protrusions of the ratchet 7 and the limiter 8, and determines the maximum lateral movement of the platform 3.

 At the exit of the guide slot 12, the protrusion of the ratchet 7 forms a hinge 18 with the guide slot 12, which provides rotations of the tibial component 2 within the limits defined by the walls of the conical socket 13 and the stop 17 of the protrusion of the ratchet 7.

The arcuate groove 9 under the protrusion of the limiter 8 can be truncated by an asymmetric wall 15 with the sides corresponding to the left or right knee to limit the rotation of the lower leg relative to the vertical axis by 8-10 ^° outward and 15-20 ^° inward, i.e. just like in physiology.

 This allows you to increase the physiological adequacy of the movements and dynamics of the proposed endoprosthesis.

 The height of the protrusion of the ratchet 7 is less than the height of the protrusion of the limiter 8, but greater than the height of the partition 19, and the bridge 11 between the arc groove 9 and the groove under the protrusion of the ratchet has a height reduced by the height of the partition 19.

 This combination of parameters eliminates the instability and unintended displacement of the platform beyond the tibial component, even at significant loads.

 The device provides for the synthetic endoprosthesis of the anterior cruciate ligament through a through hole 20 made in a conical socket with the formation of platforms 21 for supporting the protrusion of the ratchet 7, through a second through hole 22 passing between the ratchet 7 and the stop 17, and through the tibial component 2. These holes 21 and 22 for conducting through them a synthetic endoprosthesis of the ligament communicated in working position when passing through them ligaments. This design allows joint arthroplasty of the knee joint and the anterior cruciate ligament and, thus, expands the capabilities of the device.

 The technical and economic effect of the proposed device is to create a stable endoprosthesis that can increase the physiological adequacy of movements and dynamics, to expand the capabilities of the device while increasing operational reliability and durability.

Claims (3)

 1. Device for total knee arthroplasty containing a femur component in the form of an arc-shaped sled, a tibial component made with protrusions of a ratchet and a limiter, a platform located between the femoral and tibial components and having recesses on one side that are connected to the femoral component sled and, on the other hand, an arc groove for the protrusion of the limiter and a groove for the protrusion of the ratchet, between which there is a jumper, clamps for attaching the femoral and tibial components c, characterized in that the slides of the femoral component and the recesses on the platform are mated on truncated cylindrical surfaces, the groove for the ratchet protrusion on the platform is made in the form of a guide slot that goes into a conical socket with a rounded base, the ratchet protrusion is equipped with a stop rigidly attached to it through the girdle , and is located along the axis of symmetry of the tibial component, while the ratchet protrusion is movably connected with the guide slot to create lateral movements of the tibial component relative to the boards forms and forms at the exit from the slot a hinge for turning the tibial component relative to the vertical axis, the stop of the ratchet protrusion is movably connected to the walls of the conical socket to limit the angle of rotation, and the protrusions of the ratchet and limiter are connected by a partition whose length corresponds to the length of the guide slot, the height of the protrusion of the ratchet is less than the height the protrusion of the limiter, but greater than the height of the partition, and the height of the jumper between the arc groove under the protrusion of the limiter and the groove under the protrusion of the ratchet is reduced by the height of the partition and. 2. A device for total knee arthroplasty according to claim 1, characterized in that the arc groove under the protrusion of the limiter is truncated by an asymmetric wall with sides corresponding to the left or right knee to limit the rotation of the lower leg relative to the vertical axis by 8 - 10 ^° outwards and by 15 - 20 ^o inside.  3. Device for total knee arthroplasty according to paragraphs. 1 and 2, characterized in that in the conical slot of the groove for the ratchet protrusion, a through hole is made for the synthetic endoprosthesis of the anterior cruciate ligament with the formation of a perimeter around the hole of the platform for supporting the ratchet protrusion, a second through hole is made between the stop and ratchet for the synthetic endoprosthesis of the anterior cruciate ligament passing through the tibial component and communicated in working position with the specified hole in the conical socket.

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