Abstract
Background
There has been a trend in the evolution of total hip arthroplasty towards increased modularity, with this increase in modularity come some potentially harmful consequences. Modularity at the neck shaft junction has been linked to corrosion, adverse reaction to metal debris and pseudotumor formation.
The aim of this retrieval study is to assess whether the surface integrity of the polyethylene (PE) liner is affected by metal wear debris in a single implant design series of THA revised for trunnionosis.
Method
A retrieval analysis of thirty dual-taper modular neck hip prostheses was performed, the mean time from implantation to revision was 2.7 years (1.02–6.2). The PE liners were analysed using a scanning electron microscope with an energy dispersive spectrometer to assess for metal particles embedded on the liner surface. Serum metal ion levels and inflammatory markers were also analysed.
Results
There were small numbers of metal particles present on the PE liners. The mean number of metal particles per liner was 4 and the particles varied in size from 0.5–122μm mean 16μm. All patients had elevated metal ion levels: cobalt 6.02μg/l, chromium 1.22μg/l, titanium 3.11μg/l. The cobalt:chromium ratio was 7.55:1. The inflammatory markers were also marginally raised (ESR 17 CRP 10).
Conclusion
These results suggest that retention of the PE liners may be reasonable when performing isolated revision of the femoral component in cases of failure at the modular neck stem junction; especially when the inner diameter of the liner is already optimized for head size and stability.