RU2192206C1 - Pelvic component of hip joint endoprosthesis - Google Patents

Abstract

FIELD: medicine, traumatology, orthopedics. SUBSTANCE: the component includes a spherical body with polymeric insertion piece, a ball head and a closing lock. A body is made as a closed chamber with detachable bottom, the inner cavity is supplied with hollows to fix the constant position of an insertion piece, bottom and closing lock. The bottom is designed with external thread. Closing lock is in the form of a ring with external left-handed thread. Between insertion piece and ball head an interlayer is additionally installed. The innovation provides reliability due to matching and retaining the rotation centers of spherical body and ball head in zero-point position that excludes rotating moments in traumatic and orthopedic patients. EFFECT: higher reliability and efficiency. 1 cl, 3 dwg

Description

 The invention relates to medicine, and more particularly to the pelvic components of hip arthroplasty intended for the treatment of traumatological and orthopedic patients.

 Among a wide variety of designs for pelvic components, devices consisting of a spherical body, a polymer insert, a ball head, and a locking lock stood out as a separate group of so-called bipolar endoprostheses, borrowing the name from the company Biomet Incorporated, which manufactures such devices under the trademark "BI-POLAR Articulating Components "since 1984

 Bipolar endoprostheses attract a lot of attention of surgeons, since they are widely used in patients with medial femoral fractures. This type of endoprosthesis is an alternative to the total endoprosthesis, combining the basic qualities of both unipolar and total endoprostheses. Operations using bipolar endoprostheses are significantly less traumatic than with other types of prosthetics, which explains their predominant use in debilitated patients, as well as in elderly and senile patients.

 A feature of the bipolar endoprosthesis is that it has two centers of rotation - a spherical body adjacent to the acetabulum, and a ball joint.

The disadvantages of bipolar endoprostheses include:
- large contact forces and increased friction between the surface of the acetabulum and the spherical body;
- increased friction between the liner and ball head;
- the shift of the centers of rotation due to the destruction of the contact surfaces, as well as a consequence of the displacement of the parts in the structure, which leads to the appearance of unwanted rotational movements, and this in turn leads to deformation of the acetabulum, loss of the ball head and dislocation of the entire joint;
- unreliability of fixation of the ball head and the complexity of the assembly-disassembly of the endoprosthesis during surgery.

 Known pelvic component of the hip joint replacement, including a spherical body, a polymer liner, a ball head and a locking lock (see US patent 4172296, class 623-22, 1978).

 In the said patent, the center of rotation of the spherical body is located above the center of rotation of the ball head, which brings it out of a stable position and turns the ball head clockwise to the right side (negative eccentricity).

 In US Pat. No. 4,619,658, class 623-22, an attempt was made to move the center of rotation of a spherical body and position it below the center of rotation of the ball head by changing the position of the body and ball head. This somewhat stabilized the appearance of unwanted efforts, but did not lead to their final exclusion. In this case, the ball head is turned to the left side clockwise (positive eccentricity).

 Another problem of the pelvic component of the endoprosthesis is the unreliable fastening of the ball head in a spherical body.

 As you know, all the nodes of the pelvic component of the endoprosthesis are held as a result of the snug fit of the spherical body to the surface of the acetabulum, tight contact of the insert with the inner surface of the spherical body, crimping the ball head with a polymer insert and fixing with locks of various designs.

 One-piece designs of locking locks in the pelvic components are known, upon failure of which, the entire component is completely replaced. Typically, these locks are made of polymer material, the elastic properties of which are the basis of these locks.

 For example, US Pat. No. 4,044,403, class 623-22, 1976 is known, in which a polymer ring with radial cuts along the lower edge forming movable petals is used as a locking lock. When you enter the ball head into the liner, the petals deviate to the side, passing the ball, and then return to their original position, locking the entire structure.

 Known US patent 4770658, class 623-22, 1987, in which the polymer ring with movable petals is provided with an additional retaining ring, which is attached using grooves and protrusions. Known US patent 4770659, class 623-22, 1987, in which the function of the locking lock performs the lower part of the polymer liner with an end stop located above a horizontally laid groove. The ball head is held by the compressive forces of the lower part of the liner.

 According to US Pat. No. 4,714,477, class 623-22, 1987, the polymer liner is further heated prior to assembly.

 A common drawback of these designs is the lack of reliability during operation. Petals on polymer rings often burst, grooves and grooves are worn and worn out, and in addition, they lose their elasticity and the stiffness necessary to hold them.

 To eliminate these drawbacks, additional spring-type retainers (US Pat. No. 4,3800,090, class 623-22, 1981), spring-loaded female rings (US Pat. No. 4,195,544, class 623-22, 1981) are introduced into the locking locks.

 The disadvantage of these designs is the presence of a large number of parts, which during assembly during the operation takes extra time.

 In the pelvic components of endoprostheses, there is another problem - the occurrence of significant friction at the initial moment of operation of the prosthesis between the ball head and insert.

 Known designs of the pelvic components of endoprostheses in which this problem is solved by introducing bearings between the rubbing surfaces (US Pat. No. 5,092,898, class 623-22, 1989) or an additional metal cup with polished spherical protrusions (see PCT application 00/06053, class A 61 F 2/32).

 However, the above additions to the design lead to its complication, an increase in the number of parts, and this, ultimately, does not give a positive result.

 The closest technical solution is the hip component of the hip joint prosthesis (see International Application 93/03687, Class A 61 F 2/32, 1993). According to the application, the pelvic component includes a spherical body with a polymer insert, a ball head and a locking lock, while the body is made in the form of a closed chamber with a removable bottom, the internal cavity of which is equipped with slots for fixing the constant position of the liner, bottom and locking lock, profiled accordingly to their outer surface .

 The design drawback is the unreliable fastening of the ball head in a spherical body due to the displacement of the centers of rotation and the occurrence of torques as a result of erasing the spherical surfaces during operation and the destruction of the locking lock made of a polymeric material.

 The technical result of the invention is to ensure reliability by combining and holding the centers of rotation of the spherical body and ball head in the zero position (zero eccentricity) and thereby eliminating torques.

 The reliability of the pelvic component of the endoprosthesis also depends on the rigidity of the structure, on the reliability of fixation of its parts, preservation of their initial position during operation and the exclusion of spontaneous disconnection.

 In the pelvic component of the hip joint prosthesis, including a spherical body with a polymer insert, a ball head and a locking lock, the body of which is made in the form of a closed chamber with a removable bottom, the internal cavity of which is equipped with slots for fixing the constant position of the bottom and locking lock, profiled accordingly to their external surface, the bottom is made with an external thread, and the locking lock is made in the form of a ring with an external left-hand thread.

 The invention has a development consisting in the fact that it is possible to use a spherical gasket in the pelvic component by placing it between the liner and the ball head. An additional gasket serves as a means of adjusting the alignment in cases of discrepancy between the size of the ball and the body.

 In this design, it is advisable to perform the bottom of the chamber with an axial hole, which is made in the form of a sphere in the zone of contact with the ball head, and in the form of a cone in the neck zone. The cone allows the neck to rotate freely in the axial hole and increase the amplitude of the angle of rotation of the ball head.

 Preferably, the spherical body, ball head and additional gasket are made of a biologically inert material having high wear resistance and a low coefficient of friction, and the liner is made of high molecular weight polyethylene.

 The invention is further explained in the description of specific examples of its implementation and the accompanying drawings.

 In FIG. 1 is a sectional view of the pelvic component of the hip joint endoprosthesis.

 In FIG. Figure 2 shows the details of the pelvic component of the hip joint prosthesis in a disassembled form, in a perspective view.

 In FIG. Figure 3 shows the details of the pelvic component of the hip joint replacement prosthesis using a gasket.

 The patented pelvic component of the hip joint prosthesis is made in the form of a spherical chamber 1 with a removable bottom 2. In the inner cavity of the chamber 2 there is a socket 3 for a polymer insert 4 with a spherical inner surface 5, socket 6 for a removable bottom 2 with an internal thread 7 and socket 8 for locking lock 9 with internal thread 10. Slots 3, 6, 8 are profiled respectively to the outer surfaces of the polymer liner 4, the removable bottom 2 and the locking lock 9. The removable bottom 2 and the locking lock 9, made in the form of a ring, is equipped with external threads 11 and 12. The internal thread 10 and external thread 12 are left-side lock locking orientation. In the inner cavity 5 of the polymer insert, a ball head 13 is placed on the neck 14. The axial hole of the bottom 2 adjacent to the ball head 13 has a spherical shape, and conical to the neck 14. The neck 14 of the ball head 13 is attached to the leg 15 of the femoral component of the hip joint.

 It is possible to perform the pelvic component of the hip joint when an extra gasket 16 is installed between the polymer insert 4 and the ball head 13.

 Hip arthroplasty is as follows. The operation is performed under general anesthesia in the position of the patient on the back. One of the standard accesses is the capsule of the hip joint that is exposed. A resection of the front of the capsule of the hip joint with exposure of the fracture of the femoral neck is performed, then the head of the femur is removed. Processing of the acetabulum involves excision of the circular ligament.

 The selection of the pelvic component of the endoprosthesis is carried out after measuring the actual size of the removed femoral head. The size of the closed chamber with a removable bottom should approach in its value to the maximum size of the femoral head.

 The pelvic component of the endoprosthesis is assembled on the instrument table in the following sequence. A polymer insert, for example of hirulen, is placed in a preselected spherical body, then a ball head is placed in the insert. Complete the assembly of the pelvic component by screwing the bottom clockwise and the locking lock counterclockwise. The pelvic component of the endoprosthesis is placed on the leg of the femoral component and the bipolar endoprosthesis is reduced to the acetabulum. The correspondence of the length of the endoprosthesis to the true size of the neck of the femur of the opposite limb is monitored. For this purpose, clinical and laboratory control is performed. Clinical control includes measuring the relative length of the lower extremities, the value of which should be the same for both limbs. In addition, produce axial traction for the operated limb and determine the presence of displacement of the ball head relative to the bottom of the acetabulum. The displacement of the ball head of the endoprosthesis relative to the acetabulum more than 5 mm is the basis for replacing the ball head with a head of a different, corresponding larger size. If it is not possible to reposition the spherical head of the pelvic component of the endoprosthesis into the acetabulum, replace the spherical head of the endoprosthesis with a spherical head of the corresponding smaller size. Laboratory control is carried out using x-ray of both hip joints.

 The necessary replacement of the spherical head of the pelvic component of the endoprosthesis is performed on the instrument table. To do this, remove the ball head from the legs of the femoral component, unscrew the ring of the locking lock and the bottom and remove the ball head. Then, the ball head of the required size is selected and the endoprosthesis is assembled and installed in the sequence described previously. Re-produce clinical and radiological control. After proper installation of the endoprosthesis, the joint is drained with a drainage tube and the wound is sutured in layers.

 The pelvic components of the hip joint endoprosthesis (bipolar endoprostheses) are manufactured on the basis of SINKO AOO, and are clinically used in the emergency department of traumatology of the musculoskeletal system of the N.V. Moscow City Research Institute of Emergency Medicine. Sklifosovsky. Currently, bipolar endoprostheses stand in 16 patients for a year. There were no complaints of prostheses in patients.

Claims (2)

 1. The pelvic component of the hip joint prosthesis, including a spherical body with a polymer insert, a ball head and a locking lock, the body is made in the form of a closed chamber with a removable bottom, the inner cavity of which is equipped with slots for fixing the constant position of the liner, bottom and locking lock, profiled respectively, their external surface, characterized in that the bottom is made with an external thread, and the locking lock is made in the form of a ring with an external left-hand thread.  2. The pelvic component according to claim 1, characterized in that a gasket is additionally installed between the liner and the ball head.

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