Aims.
Aims. The aim of this study was to assess the clinical and radiological results of patients who were revised using a custom-made triflange acetabular component (CTAC) for component loosening and
This report reviews the long-term results of treating acetabula with unusually severe problems, such as
Stabilisation of a
Stabilisation of a chronic
Introduction. During revision total hip arthroplasty, successful treatment of acetabular bone loss with an associated chronic
Uncemented hemispherical sockets are the implant of choice for most acetabular revisions. Several studies at mid-term document good clinical results, and furthermore, the implants are both versatile and technically straightforward to insert. When bone loss is present, the indications for uncemented sockets are expanded by using jumbo uncemented cups or uncemented cups placed at a high hip center. The main limitation of uncemented hemispherical cups is the need to place them on sufficient host bone to provide initial mechanical stability with a high, long-term likelihood of biologic fixation. The amount of host bone needed to meet these criteria has been debated. One rule of thumb that has been used is 50% surface area contact of the shell with host bone. However, for large sockets with a large surface area, a smaller percentage of the surface in contact with host bone may prove acceptable, provided the shell has host bone support in key areas including a peripheral rim fit and support in the dome of the socket. When these criteria cannot be fulfilled, an alternative method of acetabular reconstruction must be considered. These alternatives include structural bone grafts, impaction grafting, and anti-protrusio cages. Anti-protrusio cages have the advantage of distributing forces over a large surface area of native bone, resisting migration, and being compatible with either bulk or particulate graft in massive acetabular deficiencies. These implants do not provide for biologic fixation and thus their use probably is best restricted to situations in which porous coated implants are not likely to work.
In our center the cup cage reconstruction is our most common technique where a cage is used, especially if there is a
The advent of trabecular metal (TM) augments has revolutionized the management of severe bone defects during acetabular reconstruction. The purpose of this study was to evaluate patients undergoing revision total hip arthroplasty (THA) with the use of TM augments for reconstruction of Paprosky 3A, 3B defects and defects associated with
The treatment of severe acetabular bone loss is challenging, especially in the setting of an associated chronic
Although the introduction of ultraporous metals in the forms of acetabular components and augments has substantially improved the orthopaedic surgeon's ability to reconstruct severely compromised acetabuli, there remain some revision THAs that are beyond the scope of cups, augments, and cages. In situations involving catastrophic bone loss, allograft-prosthetic composites or custom acetabular components may be considered. Custom components offer the potential advantages of immediate, rigid fixation with a superior fit individualised to each patient. These custom triflange components require a pre-operative CT scan with 3-D reconstruction using rapid prototyping technology. The surgeon can fine-tune exact component positioning, determine location and length of screws, modify the fixation surface with, for example, the addition of hydroxyapatite, and dictate which screws will be locked to enhance fixation. The general indications for using custom triflange components include: (1) failed prior salvage reconstruction with cage or porous metal construct augments, (2) large contained defects with possible discontinuity, (3) known
Revision surgery for
Chronic
Acetabular distraction for the treatment of chronic
Purpose: