Westphal, F. M.F. M.WestphalBishop, NicholasNicholasBishopPüschel, KlausKlausPüschelMorlock, MichaelMichaelMorlock2024-03-192024-03-192006-01-01HIP International 16 (3): 22-30 (2006)https://hdl.handle.net/11420/46638The migration pattern, cyclic motion, system stiffness and failure load of a new short-stemmed hip prosthesis were compared to a clinically successful shaft prosthesis during the initial loading phase. The influence of implant-sizing on mechanical stability was also investigated for the new stem, in particular with relation to the bone quality. Prostheses were implanted in paired human femora and loaded cyclically up to 3515 cycles. Relative displacements between prosthesis and bone were measured using a 3D-camera and reflective marker system. Migration of the new stem was predominantly into varus and was higher than for the shaft prosthesis. The test set-up wes proposed to simulate a worst-case loading scenario since muscle forces, which tend to reduce bone deformation, were not simulated. It could therefore be expected that clinical migration of the implants would be less pronounced than that observed in this study. Cyclic motion for the new stem was similar to that for the clinically successful shaft prosthesis, suggesting that bone ingrowth could be expected for the new stem. No significant difference in fracture load was observed between the implants. The system stiffness with the new stem was lower than for the shaft prosthesis, indicating more physiological load transfer. Smaller implant sizing with 'cancellous' fixation seems favourable, as it led to similar migration and smaller cyclic motion values than with 'cortical' fixation. A trend for higher cyclic motion and migration was observed in femora with poor bone quality. Hence, sufficiently good bone stock is necessary when implanting the new short-stemmed prosthesis. © Wichtig Editore, 2006.en1120-7000Hip international2006SUPPL. 3SageBone densityPrimary stabilityRelative motionUncemented hip prosthesisMedicine, HealthEngineeringBiomechanics of a new short-stemmed uncemented hip prosthesis : an in-vitro study in human boneJournal Article10.5301/hip.2009.716Journal Article