Abstract
Introduction: The concept that aseptic loosening is a function of polyethylene wear has led to the introduction of cross-linked polyethylene in THA. We studied the relationship between polyethylene wear rate and aseptic loosening to model the potential effects of wear-reducing strategies on the failure rate for each prosthetic component.
Methods: 350 subjects who had previously undergone Charnley THA were divided into 3 groups: Controls (n=273); isolated femoral stem looseners (n=43); and isolated cup looseners (n=34). Polyethylene wear was measured using a validated method (EBRA). The relationship between wear rate and loosening was examined using logistic regression analysis, and estimates of the effect of wear rate modulation made using odds-ratios (OR ).
Results: The median annual wear rate in the controls (0.07mm) was lower than both stem looseners (0.09mm, p=0.002) and cup looseners (0.18mm, p< 0.001). The OR of cup loosening increased 4.7 times per standard deviation (SD) increase in wear rate above the reference (control) population (p< 0.001). The OR of stem loosening increased 1.7 times per SD, but was not independent of other risk factors (p> 0.05). The potential reduction in risk of loosening was calculated using the following formula: (OR ^SD2)/(OR ^SD1), where 1 and 2 are the predicted mean z-score wear rates of modified versus conventional polyethylene. Thus, for a 25% or 50% reduction in wear rate, the incidence of cup loosening may reduce by 71% and 293%, respectively. The rate of stem loosening may reduce by 7% and 17%, respectively.
Discussion: The use of cross-linked-polyethylene has the potential for a major impact on the incidence of cemented cup loosening. However their effect on femoral stem loosening may be limited.
Correspondence should be addressed to Mr John Hodgkinson, BHS, c/o BOA, The Royal College of Surgeons, 35–43 Lincoln’s Inn Fields, London WC2A 3PE.
