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The Journal of Bone & Joint Surgery British Volume
Vol. 86-B, Issue 7 | Pages 974 - 978
1 Sep 2004
Thomas SR Shukla D Latham PD

Cemented titanium stems in hip arthroplasty are associated with proximal cement-stem debonding and early failure. This was well publicised with the 3M Capital hip. However, corrosion in this setting has been reported with only one stem design and is less widely accepted.

We present a series of 12 cemented titanium Furlong Straight Stems which required revision at a mean of 78 months for thigh pain. At revision the stems were severely corroded in a pattern which was typical of crevice corrosion. Symptoms were eliminated after revision to an all-stainless steel femoral prosthesis of the same design. We discuss the likely causes for the corrosion. The combination of a titanium stem and cement appears to facilitate crevice corrosion.


Orthopaedic Proceedings
Vol. 85-B, Issue SUPP_I | Pages 64 - 65
1 Jan 2003
Thomas SRYW Shukla D Latham PD
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12 patients requiring revision of a cemented Furlong total hip replacement had advanced corrosion of their titanium femoral stems. Thigh pain unlike that of loosening was a characteristic feature of presentation an average 38 months after implantation (range 20–58 months). Radiographs demonstrated fusiform periosteal thickening of the middle and distal thirds of the femur around the prosthetic stem with variable amounts of osteolysis around the tip. None of the femoral stems showed evidence of loosening and in 9 cases revision was solely for recurrent atypical pain.

The titanium stems were retrieved at an average 80 months (range 60–113). All were well-fixed but showed signs of advanced corrosion distally with blackened stems, loss of surface metal and thick white deposits. Two stems were examined with scanning electron microscopy and energy dispersive X-ray analysis. Micromotion abrasions were identified proximally with loss of all alloy constituents. Distally, there was selective loss of titanium in a pattern suggestive of crevice corrosion. This may be accelerated by a galvanic effect if a cobalt chromium head is mixed with a titanium stem.

After revision to an all stainless steel femoral stem and head, early follow-up demonstrates resolution of both symptoms and radiological abnormalities at an average 13 months (range 3–33) from revision.

Conclusion: Once stem debonding has set up crevice conditions around a femoralimplant, the cement layer prevents repassivation (oxidation) of the metal surface upon which titanium depends for its stability. We therefore caution against the use of a titanium alloy stem with cementation, the conclusion of at least one other similar series. We also believe that the combination of cobalt chromium and titanium alloys is unsafe as, contrary to some of the published work on the subject, depassivated titanium is prone to galvanic attack in this situation.