Messer-Hannemann, PhilippPhilippMesser-HannemannWeyer, HannahHannahWeyerCampbell, Graeme MichaelGraeme MichaelCampbellMorlock, MichaelMichaelMorlock2020-08-062020-08-062020-07Medical Engineering and Physics (81): 68-76 (2020-07)http://hdl.handle.net/11420/6970Deformation of an acetabular cup implant during cementless implantation is indicative of the radial compressive forces, and such of the initial implant fixation strength. Stress relaxation in the surrounding bone tissue following implantation could reduce the deformation of the cup and thus primary implant fixation. The aim of this study was therefore to determine the early shape change of the implanted cup immediately after implantation with different press-fit levels and whether recording the force during cup impaction can be used to estimate initial cup fixation. Cup implantations into porcine acetabulae (n=10) were performed using a drop tower. The force induced by the drop weight and cup seating after each impact was recorded. Deformation of the implanted cup was determined with strain gauges over a period of 10min. Lever-out torques were measured to assess the initial fixation strength. Stress relaxation in the bone caused a reduction in cup deformation of 13.52±4.06% after 1min and 29.34±5.11% after 10min. The fixation strength increased with a higher force magnitude during impaction (Rs2=0.810, p=0.037). Reduction of the radial compressive forces due to stress relaxation of the surrounding bone should be considered during press-fit cup implantation in order to compensate for the reduced fixation strength over time. In addition, recording the implantation force could help to estimate initial fixation strength.en1350-453320206876Cup deformationHip arthroplastyImplant fixationPress-fitViscoelasticityJournal Article10.1016/j.medengphy.2020.05.01232507677Other