Erschienen in:
01.08.2008 | Orthopaedic Surgery
Surface coating to improve the metal-cement bonding in cemented femur stems
verfasst von:
T. Mumme, R. Marx, R. Müller-Rath, C. H. Siebert, D. C. Wirtz
Erschienen in:
Archives of Orthopaedic and Trauma Surgery
|
Ausgabe 8/2008
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Abstract
Introduction
Hydrolytic debonding of the metal-cement interface is one of the main reasons for aseptic loosening in cemented hip arthroplasty.
Materials and methods
BiContact femur stems (CoCrMo-/TiAl6V4-alloy) were coated by a silica/silane interlayer coating system. The stems were cemented into artificial femurs. The cyclical loading (DIN ISO 7206-4) was performed within a hip-simulator. Uncoated stems (CoCrMo-/TiAl6V4-alloy) were prepared and loaded the same way. After loading, the metal-cement and the bone-cement interfaces were analysed. Unloaded uncoated and unloaded coated BiContact stems served as a control.
Results
The coated loaded stems showed a significant reduction in debonding and cement failure (P ≤ 0.05). A high correlation was documented between debonding and cement failure (r
Spear ≥ 0.9). There was no significant difference between CoCrMo- and TiAl6V4-stems (P ≥ 0.05).
Conclusion
The silica/silane coating significantly decreased hydrolytic debonding at the metal-bone cement interface with consecutively less cement failure.