Total hip arthroplasty head–neck contact mechanics: A stochastic investigation of key parameters

Abstract A variety of design and patient parameters have been implicated in recent reports of fretting corrosion at modular connections in total hip arthroplasty. We sought to identify the relative sensitivity of mechanical fretting to a comprehensive set of parameters such that attention may be focused on key variables. Stochastic finite element simulation of the head–neck taper–trunnion junction was performed. Four-hundred parameter sets were simulated using realistic variations of design variables, material properties and loading parameters to predict contact pressures ( P ), micromotions ( M ) and fretting work (coefficient of friction× P × M ) over cycles of gait. Results indicated that fretting work was correlated with only three parameters: angular mismatch, center offset and body weight ( r =0.47, 0.53 and 0.43, p