Abstract
Introduction
Retrieved metal-on-metal acetabular components are invaluable resources from which to investigate the wear behaviour of failed hip implants. New forensic and investigative techniques continue to be developed to help the surgeon further understand factors which contribute to early failure. We have developed a novel technique to locate the in vivo location of the primary wear scar of an explanted cup.
Patients/Materials & Methods
Thirteen (13) patients with failed metal hip resurfacings were recruited and their acetabular components retrieved. A 3D wear map was generated and the precise location of the primary wear scar in each cup was identified using a coordinate measuring machine (CMM). This wear scar position and location was noted in relation to standard landmarks on the acetabular cup. All patients underwent a computerised tomography (CT) scan prior to revision surgery. The 3D positional map from the CMM was then co-registered with the implant on the patient's pelvic 3D CT scan.
Results
A schematic diagram was generated revealing the 3D orientation and location in the patient of the acetabular primary wear scars for all 13 subjects. The distribution of the location of the in vivo primary wear scars was variable and unique for each of the patient's acetabular cup.
Discussion
We were able to identify the location of the in vivo primary wear scar of all thirteen acetabular cups successfully with this novel method. This technique can only be recruited for acetabular components that have clearly identifiable features which can be identified on CT. This is the first study to co-relate the point of highest wear on the acetabular cup to its pre-failure position in vivo.
Conclusion
This technique has made it possible to better understand the three-dimensional properties of wear behaviour and can be used in further studies to investigate variables that determine the orientation and position of the primary wear scar.
