Computational Bioengineering: Current Trends and Applications

Jasty, M., Maloney, W. J., Bragdon, C. R., O'Connor, D., Haire, T., Harris, W. H., The initiation of failure in cemented femoral components of hip arthroplasties, J Bone Joint Surg [Br] 73-B (1991) pp. 551-8.
Gardiner, R. C., Hozack, W. J., Failure of the cement-bone interface: A consequence of strengthning the cement-prosthesis interface, J Bone Joint Surg [Br] 76-B (1994) pp. 49-4.
Ebramzadeh, E., Sarmiento, A., McKellop, H. A., Llinas, A., Gogan, W., The cement mantle in total hip arthroplasty: analysis of long-term radiographic results, J Bone Joint Surg [Am] 76-A (1994) pp. 77-11.
Mann, K. A., Werner, F. W., Ayers, D. C., Mechanical strength of the cement-bone interface is greater in shear than in tension, J Biomechanics 32 (1999) pp. 1251-1254.
Stolk, J., Verdonschot, N., Cristofolini, L., Toni, A., Huiskes, R., Finite element and experimental models of cemented hip joint reconstructions can produce similar bone and cement strains in pre-clinical tests, J Biomechanics 35 (2002) pp. 499-510.
Orr, J. F., Dunne, N. J., Quinn, J. C. Shrinkage stresses in bone-cement, Biomaterials 24 (2003) pp. 2933-2940.
Viceconti, M., Muccini, R., Bernakiewicz, M., Baleani, M., Cristofolini, L., Large-sliding contact elements accurately predict levels of bone-implant micromotion relevant to osseointegration, J Biomechanics 33 (2000) pp. 1611-1618.
Alart, P., Curnier, A., A mixed formulation for frictional contact problems prone to Newton like solution methods, Comp Meth Appl Mech Engng 93(3) (1991) pp. 353-375.
Ramaniraka, N. A., Rakotomanana, L. R., Models of...