Abstract

BackgroundEven if the benefits of collars are unclear, they remain widely used, in several femoral stem designs. This study aimed to determine whether collar size should be proportional to hip dimensions and morphology. The hypothesis was that the collar should be larger for greater stem sizes and for varus femoral necks.MethodsComputed Tomography scans of 204 healthy hips were digitally analysed and manually templated to determine principle dimensions, appropriate stem size and model, as well as cortical distance at the femoral calcar (ideal collar size).ResultsUnivariable analysis revealed that cortical distance was moderately correlated with mediolateral offset (r = 0.572; p < 0.0001) and stem model (r = 0.520; p < 0.0001). Cortical distance was weakly correlated with head diameter (r = 0.399; p < 0.0001), stem size (r = 0.200; p = 0.017), and patient gender (r = 0.361; p < 0.0001). Multivariable analysis confirmed that stem model (p < 0.0001) and head diameter (p = 0.0162) are directly correlated to cortical distance.ConclusionWe found that cortical distance along the femoral calcar is directly correlated with the model of the stem implanted (‘standard’ or ‘varus’) and with the head diameter. This cortical distance indicates optimal collar size, which would grant maximum calcar coverage without prosthetic overhang. Collar size should be proportional to the size of the operated hip, and should be larger for ‘varus’ stem models than for ‘standard’ stem models.

Highlights

  • Even if the benefits of collars are unclear, they remain widely used, in several femoral stem designs

  • The hypothesis was that the collar should be larger for greater stem sizes and for varus femoral necks

  • Men were significantly younger than women (p < 0.0001), and had considerably larger absolute dimensions, including cortical distance, femoral head diameter, and mediolateral offset (p < 0.0001)

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Summary

Introduction

Even if the benefits of collars are unclear, they remain widely used, in several femoral stem designs. The addition of collars to femoral stems was intended to enable load transfer to the resected femoral calcar, and thereby prevent implant subsidence within the cancellous bone of the metaphysis (Demey et al, 2011; Flecher et al, 2012). Since their development, collars have been controversial, with unclear evidence of their benefits. To the authors’ knowledge, there are no published studies that investigated optimal collar dimensions in relation to stem size or neck angle

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