Design/Failure Modes in Total Hip Replacement - Jonathan Jones 12/9/2000Biomechanics : Forces acting on Hip, Centralization of head, Length of Abductor Lever arm, Neck Length, Offset, Head and Neck Diameter, Coefficient Of Friction and Frictional Torque, Wear, Lubrication, Stress Transfer Design : Femur- Cemented, Uncemented (Porous/Non Porous/Press Fit/HA ) Acetabulum- Cemented, Uncemented, Reinforcement rings Bipolar Components Hip Resurfacing "Charnley": Low friction torque Arthroplasty, Surgical Alteration of Hip Biomechanics, Lubrication, Materials, Design, Operating room environment, Cold-Curing acrylic cement Failure : Deviation from the stable femoral component where there is adequate fixation at each interface and intact material integrity. Loosening : Radiographic interpretation of change in the mechanical integrity of the load-carrying cemented femoral component, specifically, fractured cement and an interface gap such as a radiolucent zone at the stem-cement or at the cement bone interface. Wear : Loss of materials from surfaces of prosthesis as a result of motion between those surfaces (Abrasive, Adhesive, Fatigue and Third body) Factors Associated with Wear : Coefficient Of friction Of Materials/Surface Finish Hardness of Materials Applied Load Sliding Distance for Each Cycle (Head diameter/motion of Hip) No. Of Cycles Creep : (Plastic Deformation) Implant shape change without loss of material or production of debris Failure Modes (Gruen 1979 ): (I) Pistoning Behaviour (a) Stem within Cement (b) Cement Within bone (II) Medial Midstem Pivot (III) Calcar Pivot Please log in to view the content of this page. If you are having problems logging in, please refer to the login help page. |
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