RU65755U1 - HIP Joint Endoprosthesis - Google Patents

Abstract

The invention relates to medicine, it is used in traumatology-orthopedics to replace a pathologically altered hip joint. The essence of the invention lies in the fact that the endoprosthesis of the hip joint contains the pelvic component, the head, the neck, the trochanteric part and the leg, made in the form of a conically narrowing in the distal part of the plugged tube. The foot has a stop in the proximal part, with a square hole in the center, and a blind guide hole in the bottom. In the spit, cylindrical section, a rod is rigidly mounted, in the middle section of which a centering cylinder is fixed, the proximal end of the rod has a square section under the hole in the stop. The distal end of the rod is axially displaceable in the guide hole. The centering cylinder slides along the inner surface of the tube. Around the stem, along its axis, on both sides of the centering cylinder, leaf springs are mounted, fixed, on the one hand, between the stop and its upper base, and on the other, between the bottom of the tube and its lower base. The springs are made of tribologically stable material in a state of partial tension. 1 s.p. f-ly, 1 ill.

Description

The invention relates to medicine, it is used in traumatology-orthopedics to replace a pathologically altered hip joint. Aseptic instability of articular implants resulting from a conflict in the metal-bone system remains a serious problem of endoprosthetics today. To increase the stability of the position of the endoprosthesis leg, cementing is used in the bone marrow canal, grooves are made on the leg of the prosthesis, and holes are drilled for bone tissue to grow in them, etc.

Devices are also known in which elastic systems are used, such as, for example, in an endoprosthesis of a hip joint [1]. In the tubular leg of this endoprosthesis, elastic-elastic annular elements are installed, which, in alternation with metal gaskets, are placed on the rod and are designed to absorb the loads on the endoprosthesis both in the support phase and in the limb transfer phase. However, elastic-elastic elements are subject to rather rapid wear, which leads to an endoprosthesis loss of functional qualities.

The closest, in terms of its technical solution, to the claimed one, is the hip joint endoprosthesis [2], in which tape torsions are used as elastic elements, which, like springs, have certain disadvantages. The energy stored when exposed to them returns to the oscillatory system. Thus, torsion bars, like springs, carry out only a shock-absorbing (weakening, softening) effect. Leaf springs have not only a cushioning effect, but also a damping (damping) effect. In a working spring, this occurs due to friction between its sheets, on which energy is expended. Since energy does not accumulate in the spring, it does not return to the oscillatory system. Not only that, as the pressure exerts on the spring, the number of interacting

sheets rubbing against each other, which provides a more intense absorption of energy return, and hence the strengthening of the damping qualities of the device. This, in turn, significantly reduces the risk of loosening the endoprosthesis leg.

The essence of the invention lies in the combination of essential features sufficient to achieve the desired technical result, which consists in increasing the stability of fixation of the leg of the endoprosthesis in the medullary canal of the femur by enhancing the damping qualities of the device.

The essence of the invention lies in the fact that the hip joint implant contains a pelvic component, a head, a neck, a trochanteric part and a leg, made in the form of a conically tapering, in the distal section, plugged tube. The foot has a stop in the proximal part with a square hole in the center and a blind guide hole in the bottom. In the spit, cylindrical section, a rod is rigidly mounted, in the middle part of which a centering cylinder is fixed. The proximal end of the rod has a square section under the hole in the stop. The distal end of the rod is axially displaceable in the guide hole. The centering cylinder slides along the inner surface of the tube. Around the stem, along its axis, on both sides of the centering cylinder, leaf springs are mounted, fixed, on the one hand, between the stop and its upper base, and on the other, between the bottom of the tube and its lower base. The springs are made of tribologically stable material in a state of partial tension.

Springs located on both sides of the centering cylinder, depending on the phase of the step, alternately straighten, lengthen, or take a more curved shape and shorten. In this case, respectively, increase or decrease the degree of their initial stress and, thereby, dampen the loads affecting the endoprosthesis.

The partially stressed state of the springs, providing full damping, eliminates the possibility of complete relaxation of one side when the voltage of the other increases, which ensures the smooth operation of the device, both in the reference phase and in the phase of limb transfer.

A graphical representation of a hip joint prosthesis in longitudinal section with cross sections at different levels is shown in the attached illustration.

The device comprises a pelvic component 1, a head 2, a neck 3, a trochanteric part 4 with a cylindrical section 5, and a leg 6 made in the form of a tube. In the distal section, the tube narrows and is plugged, and a guide hole 7 is made in its bottom. The cylindrical section 5 of the spit part 4 is connected to the stem 8, the proximal end of which 9 has a square cross section and is axially displaceable in the square hole of the stop 10, and its distal the end is immersed, with the possibility of axial movements, in the guide hole 7. In the middle part of the rod 8 there is a centering cylinder 11 mounted in the tubular part of the legs 6 along a sliding fit. The centering cylinder 11 is suspended from both sides on leaf springs 12 fixed between the stop 10 and its upper base, and also between the bottom of the tube and its lower base. Springs 12 are made of tribologically stable material and are in a state of partial tension.

The surgical technique for replacing a pathologically altered joint with an artificial one, as well as postoperative management of patients, is common for hip joint replacement surgery.

Information sources:

1. RF patent No. 2198625, A61F 2/32 (1 option), BI No. 5, 2003.

2. RF patent No. 2198625, A61F 2/32 (option 2), BI No. 5, 2003.

Claims (1)

An endoprosthesis of the hip joint containing the pelvic component, the head, the neck, the trochanteric part and the leg, made in the form of a conically tapering in the distal part of the muffled tube having a stop in the proximal part, with a square hole in the center, and a blind guide hole in the bottom, in the trochanteric, a rod is rigidly mounted in the cylindrical section, in the middle section of which a centering cylinder is fixed, the proximal end of the rod has a square section under the hole in the stop, the distal end is axially movements in the guide hole, the centering cylinder has the ability to slide along the inner surface of the tube, characterized in that around the stem, along its axis, on both sides of the centering cylinder, leaf springs are mounted, fixed on one side between the stop and its upper base, and the other is between the bottom of the tube and its lower base, made of a tribologically stable material in a state of partial tension.