You are about to leave jnjmedicaldevices.com. By clicking to continue, you will be taken to a web site governed by their own Legal and Privacy Policies.
Enhanced Hip Tribological and Mechanical Properties of AOX™ UHMWPE Blend
Authors and Affiliations:
Elizabeth Hippensteel and Bharat Patel, PhD
DePuy Synthes Joint Reconstruction, Warsaw, IN USA
Keywords: total hip arthroplasty, hip, wear simulation, AOX™, antioxidant
The application of Pentaerythritol tetrakis (3-[3,5-di tertiary butyl-4-hydroxyphenyl] propionate (PBHP) antioxidant Ultrahigh Molecular Weight Polyethylene (UHMWPE) blends (AOX™ Antioxidant Polyethylene) in total hip arthroplasty offers potential advantages including long-term oxidative stability of the implant, improved wear properties and potential for improved mechanical properties. This study quantified wear of AOX™ Antioxidant Polyethylene material in a joint simulator and its mechanical attributes under accelerated aging conditions.
Two acetabular liner groups (n=6 for each + 4 each loaded soak controls) were evaluated in this study. The control liners (GUR 1050 UHMWPE cross-linked at 5.0Mrad and re-melted) and AOX™ Liners were articulated against CoCrMo femoral heads. Testing was conducted on an AMTI ADL hip simulator with load soak controls for 6.0 million cycles (MC) in bovine serum and gravimetric wear was calculated. A student’s t-test was used to analyze differences in wear rates between sample groups. Accelerated aging for the AOX™ Antioxidant Polyethylene was performed under ASTM F2003 protocol, wherein the material was aged at 70oC under O2 at 5 atm. for 14 days. While we studied 14 days, we also extended the aging period to 28 and 40 days.
The mean wear rate (mg/MC±95% CI) was 10.8±2.4 and 6.4±0.7 for the control and AOX™ Liners, respectively. The results conclude that the mean wear rate of the AOX™ Liners was not statistically significantly greater (p > 0.99) than the mean wear rate of the control liners. Data from the extended aging studies indicate mechanical properties such as tensile, yield and impact strength remain relatively constant after 40 days of aging according to ASTM F2003.
This study evaluated the gravimetric wear of an AOX™ Acetabular Liner as compared to a control UHMWPE. The wear rate of the AOX™ Liners was not statistically significantly greater than the control UHMWPE. Mechanical properties remain relatively constant with aging indicating material stability. The data provides a baseline for understanding AOX™ Acetabular Liners for use in hip bearings with increased tribological demands as well as enhanced mechanical properties.
Please refer to the instructions for use for a complete list of indications, contraindications, warnings and precautions.
All products may not be available and/or approved or cleared by all global regulatory authorities. Please contact your sales representative for questions regarding regional product availability and indications.
© DePuy Synthes 2021. All rights reserved.