Advances in medical tribology : orthopaedic implants and implant materials

Edited by Professor Duncan Dowson, Advances in Medical Tribology, includes contributions from the eminent engineers, scientists, amd clinicians in this field. This important collection of papers, previously published as Special Issues of the Proceedings of Mechanical Engineers in the Journal of Engineering in Medicine, brings together some of the most imposrtant research and clinical findings in medical tribology. Key Features: Provides a one-volume collection of the most important work in the field Key research and clinical findings Heavily illustrated Engineers, tribologists, materials scientists, orthopaedics specialists, medical researchers, and any specialists concerned with joint replacement will find this a valuable source of information.

• Mechanistic and morphological origins of ultra-high molecular weight polyethylene wear debris in total joint replacement prostheses, A. Wang et al
• the importance of multidirectional motion on the wear of polyethylene, C.R. Bragdon et al
• wear and morthology of ultra-high molecular weight polyethylene wear particles from total hip replacements, P. Campbell et al
• a three-axis hip simulation for wear and friction studies on total hip prostheses, V.O. Saikko
• estimation of wear in total hip replacement using a ten station hip simulator, K. Brummitt and C.S. hardaker
• effect on counterface material on the characteristics of retrieved uncemented cobalt-chronium and titanium alloy total hip replacements, K. Brummitt et al
• wear in retrieved Charnely acetabular sockets, R.M. Hall et al
• an investigation into the origins of time-dependent variation in penentration rates with accetabular cups - wear, creep or degradation?, G.H. Isaac et al
• theory and practice of meniscal knee replacement - designing against wear, J.J. O'Connor and J.W. Goodfellow
• metal-on-metal articulation for artificial hip joints - laboratory study and clinical results, R.M. Streicher et al
• application of numerical descriptors to the characterization of wear particles obtained from joint replacements, G.W. Stachowiak et al
• the size and shape of particulate polyethylene wear debris in total joint replacements, A. Koyabashi et al
• the wear of ultra-high molecular weight polyethylene sliding on metallic and ceramic counterfaces representative of current femoral surfaces in joint replacement, J.G. Lancaster et al
• Charnley wear model for validation of hip simulators - ball diameter versus polytetrafluorotheylene and polyethylene wear, I.C. Clarke et al
• development of a six station knee wear simulator and preliminary wear results, I.C. Burgesset al
• factors contributing to the wear of polyethylene in clinical practice, I.D. Learmonth and J.L. Cunningham
• the pathogenesis of osteolysis in two different cementless hip replacements, I.D. Learmonth et al
• the role of polyethylene wear in joint replacement failure, M.A. McGee et al
• clinical wear behaviour of ultra-high molecular weight polyethylene cups paired with metal and ceramic ball heads in comparison to metal-on-metal pairings of hip joint replacements, M. Semlitsch and H.G. Willert
• kinematics of the MATCO (TM) hip simulator and issues related to wear testing of metal-metal implants, J.B. Medley et al
• frictional heating of bearing materials tested in a hip joint wear simulator, Z. Lu and H. McKellop
• wear in the high-density polyethylene socket in total hip arthroplasty and its role in endosteal cavitation, B.W. Wroblewski
• development of standards for orthopaedic implants, J.P. Paul.