Abstract
Introduction: Wear simulator studies have predicted that highly cross-linked polyethylenes can reduce linear wear by 50–90% when compared to traditional polyethylene (gamma sterilized in air). Clinical experience with a highly cross-linked polyethylene which was irradiated to 10 megarads and cold anneled but not remelted (Crossfire) began in October 1998.
Methods: 72 Crossfire implants (69 patients) were implanted and have a minimum 3 year follow-up (mean 3.85 years). 31 of these implants (29 patients) have a minimum 4 year follow-up (mean 4.64 years). Linear wear utilizing a validated computerized technique was measured and compared to 38 hips (37 patients) implanted with a non-cross-linked polyethylene (gamma irradiated – N2 vac) with a mean follow-up of 4.96 years.
Results: The mean wear in millimeters per year for the highly cross-linked Crossfire polyethylene with minimum 3 year follow-up was 0.054 (sd=0.032). At minimum 4 year follow-up wear was 0.057 mm/yr (sd=0.036). The wear for the N2 vac non-cross-linked polyethylene was 0.138 mm/yr (sd=0.066). Using a standard t-test the difference in wear was highly significant at p=< 0.001.
Discussion & Conclusion: Cross-linking is the only material characteristic shown to improve wear performance of polyethylene. Our clinical experience demonstrates a 50% reduction in wear over N2 vac irradiated polyethylene during the first three years with no significant change out to a mean of 4.64 years. Cross-linked polyethylenes hold great hopes for significant reduction in wear and osteolysis and prolonged life of hip arthroplasty in patients of all ages.
Theses abstracts were prepared by Professor Roger Lemaire. Correspondence should be addressed to EFORT Central Office, Freihofstrasse 22, CH-8700 Küsnacht, Switzerland.