Acrylic bone cement is a poly(methyl methacrylate)-based material that ensures short-term stability of orthopedic implants after surgery. Its long-term performance can be affected by many factors (e.g., composition, cement mixing and delivery method, temperature, humidity). Furthermore, patient activities produce a spectrum of cyclic loads that generate microdamage within the acrylic bone cement mantle. Therefore, pre-clinical studies on fatigue damage of acrylic bone cements are essential for predicting the long-term stability of cemented implants. There are several methods for analyzing damage of acrylic bone cement. However, they present a number of limitations. The aim of this study was to validate the use of a high-resolution scanner to analyze the presence of microcracks in acrylic bone cement. The proposed method met predetermined criteria to overcome limitations of previous methods, ensuring approximate spatial resolution of 5 microns, reduction of image acquisition time, and reduction of artifacts due to operator and/or environment during image acquisition. Additionally, the described method was applied to three types of acrylic bone cement specimens that previously were subjected to a fatigue test. The presented method enables the accurate assessment of fatigue damage induced during cycling loading, including quantification of the number, length, type and position of cement cracks.

Bialoblocka-Juszczyk E., Cristofolini L., Erani P., Viceconti M. (2012). Method to analyse the fatigue damage in acrylic bone cement. JOURNAL OF MECHANICS IN MEDICINE AND BIOLOGY, 12(1), 1250017-1-1250017-14 [10.1142/S0219519411004551].

Method to analyse the fatigue damage in acrylic bone cement

CRISTOFOLINI, LUCA;Viceconti M.
2012

Abstract

Acrylic bone cement is a poly(methyl methacrylate)-based material that ensures short-term stability of orthopedic implants after surgery. Its long-term performance can be affected by many factors (e.g., composition, cement mixing and delivery method, temperature, humidity). Furthermore, patient activities produce a spectrum of cyclic loads that generate microdamage within the acrylic bone cement mantle. Therefore, pre-clinical studies on fatigue damage of acrylic bone cements are essential for predicting the long-term stability of cemented implants. There are several methods for analyzing damage of acrylic bone cement. However, they present a number of limitations. The aim of this study was to validate the use of a high-resolution scanner to analyze the presence of microcracks in acrylic bone cement. The proposed method met predetermined criteria to overcome limitations of previous methods, ensuring approximate spatial resolution of 5 microns, reduction of image acquisition time, and reduction of artifacts due to operator and/or environment during image acquisition. Additionally, the described method was applied to three types of acrylic bone cement specimens that previously were subjected to a fatigue test. The presented method enables the accurate assessment of fatigue damage induced during cycling loading, including quantification of the number, length, type and position of cement cracks.
2012
Bialoblocka-Juszczyk E., Cristofolini L., Erani P., Viceconti M. (2012). Method to analyse the fatigue damage in acrylic bone cement. JOURNAL OF MECHANICS IN MEDICINE AND BIOLOGY, 12(1), 1250017-1-1250017-14 [10.1142/S0219519411004551].
Bialoblocka-Juszczyk E.; Cristofolini L.; Erani P.; Viceconti M.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/128099
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