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Abstract

In the past, there has been little research into leg length inequality (LLI) and its effect on hip arthroplasty bearing longevity. This investigation aimed to determine the effects of post-operative LLI on hip motions during gait and to postulate the subsequent influence on the wear of the artificial hip joint replacement. Motion data from a clinical gait analysis were processed with an in-house computational model to plot graphs showing the movement of loci of 20 points on the femoral head during one gait cycle for two cohorts: 19 LLI patients and 38 normal healthy patients. Loci paths were quantified by calculating the aspect ratio (AR) of the path shape. It was found that on average, LLI patients had a reduction in flexion/extension and abduction/adduction. Furthermore, the AR of LLI patients was found to be 8% smaller than the normal group. The shorter, more multidirectional, motion paths in LLI patients would suggest the potential for greater wear in a polyethylene bearing compared to an asymptomatic, non-LLI patient. The results have potential implications towards preclinical wear testing of joint replacements.

Keywords

Leg length inequality gait hip arthroplasty wear

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Contact surface motion paths associated with leg length inequality following unilateral total hip replacement

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