The effect of low-viscosity cement on mantle morphology and femoral stem micromotion: A cadaver model with simulated blood flow

Abstract

Background: Limited data exist on the performance of low-viscosity cement in clinically realistic cadaver models. Methods: Paired stem/cement/femur constructs were generated with low-viscosity and standard-viscosity cements. The constructs were created and tested under simulated in vivo conditions, for which novel techniques were developed during this study. Mantle function was quantified by stem/cortex micromotions over 105 cycles of "stair-climbing". Mantle morphology was determined from transverse sections. Results: Penetration of low-viscosity cement was greater proximally but less distally (p = 0.02). Low-viscosity cement resulted in more stem retroversion (p = 0.04), but there was no difference in subsidence (p = 0.4). Low-viscosity cement mantles had greater fractions of non-apposed interface (p = 0.006). Fraction of non-apposed interface predicted stem retroversion (R 2 = 0.64, p = 0.002). Interpretation: Low-viscosity cement resulted in inferior cement mantles. Early micromotion was reduced by better interface apposition. The greater stem retroversion of low-viscosity cement would probably lead to higher revision rates. Early stem migration is due to interface non-apposition. Techniques should be developed to reduce non-apposition of cemented interfaces. Copyright © Taylor & Francis 2006.