Article: Effect of vacuum mixing and manual pressurisation on residual strains in polymethyl methacrylate bone cement mantles Journal: International Journal of Nano and Biomaterials (IJNBM) 2010 Vol.3 No.1 pp.49 - 64 Abstract: Residual stresses associated with the polymerisation and subsequent cooling of PMMA bone cement are suspected to be responsible for the initiation of cement cracks following total hip arthroplasty (THA). A previous study has measured temperatures and strains developed in a twin cylinder construct representing the implant and femur, during and after bone cement polymerisation, for hand mixed PMMA bone cement. In the present study, the effect of manual pressurisation of the cement mantle is experimentally investigated through stem and femur strain measurements which are directly attributable to cement stresses. Manual pressurisation of the curing cement mass had a significant effect on the measured residual strains. The mean representative femur hoop residual strain was reduced from a compressive strain of -1802 (± 449.8) με to tensile strain of 49 (± 374.3) με, while the mean axial residual strain reduced from -649.2 (± 196.6) με to -271.0 (± 173.6) με. This study demonstrates that a reduction in net residual stress may be achieved by pressurisation of the bone cement mantle. Inderscience Publishers - linking academia, business and industry through research

Title: Effect of vacuum mixing and manual pressurisation on residual strains in polymethyl methacrylate bone cement mantles

Authors: John A. Hingston, Lisa Looney, Nicholas J. Dunne, Garrett B. McGuinness

Addresses: School of Mechanical and Manufacturing Engineering, Dublin City University, Collins Avenue, Dublin 9, Republic of Ireland. ' School of Mechanical and Manufacturing Engineering, Dublin City University, Collins Avenue, Dublin 9, Republic of Ireland. ' School of Mechanical and Aerospace Engineering, Queen's University Belfast BT9-5AH, Northern Ireland, UK. ' School of Mechanical and Manufacturing Engineering, Dublin City University, Collins Avenue, Dublin 9, Republic of Ireland

Abstract: Residual stresses associated with the polymerisation and subsequent cooling of PMMA bone cement are suspected to be responsible for the initiation of cement cracks following total hip arthroplasty (THA). A previous study has measured temperatures and strains developed in a twin cylinder construct representing the implant and femur, during and after bone cement polymerisation, for hand mixed PMMA bone cement. In the present study, the effect of manual pressurisation of the cement mantle is experimentally investigated through stem and femur strain measurements which are directly attributable to cement stresses. Manual pressurisation of the curing cement mass had a significant effect on the measured residual strains. The mean representative femur hoop residual strain was reduced from a compressive strain of -1802 (± 449.8) με to tensile strain of 49 (± 374.3) με, while the mean axial residual strain reduced from -649.2 (± 196.6) με to -271.0 (± 173.6) με. This study demonstrates that a reduction in net residual stress may be achieved by pressurisation of the bone cement mantle.

Keywords: bone cement mantle; residual stress; vacuum mixing; manual pressurisation; hip arthroplasty; biomaterials; residual strain; polymethyl methacrylate; PMMA; crack initiation; cement cracks.

DOI: 10.1504/IJNBM.2010.036107

International Journal of Nano and Biomaterials, 2010 Vol.3 No.1, pp.49 - 64

Published online: 19 Oct 2010 *

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Title: Effect of vacuum mixing and manual pressurisation on residual strains in polymethyl methacrylate bone cement mantles

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