Biomechanical Comparison of Periprosthetic Femoral Fracture Risk in Three Femoral Components in a Sawbone Model |
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Authors: | Logan Windell Ashwin Kulkarni Enrique Alabort Daniel Barba Roger Reed Harvinder P. Singh |
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Affiliation: | 1. University Hospitals of Leicester NHS Trust, Leicester, UK;2. Departments of Engineering Science and Materials, University of Oxford, Oxford, UK;3. E.T.S. de Ingeniería Aeronáutica y del Espacio, Universidad Politécnica de Madrid, Madrid, Spain |
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Abstract: | BackgroundThe increasing use of orthopedic total hip arthroplasty implants has led to a consequent rise in the incidence of associated periprosthetic fractures (PPFs). Analysis of the National Joint Registry data showed the choice of cemented hip stem influenced the risk of a PPF occurring. However, the effect of implant design in relation to the risk of PPFs has not been investigated.MethodsThe main objective is to compare the biomechanics of PPFs as a failure of the Exeter V40, CPT, and DePuy C-Stem stems in a composite Sawbone model to identify whether a difference in the risk of fracture exists between them. Twenty-six Sawbones were divided into 3 groups, cemented with the Stryker Exeter, Zimmer CPT, or DePuy C-Stem and then torqued to fracture.ResultsWhen compared with the Exeter, the CPT- and C-Stem-implanted Sawbone models would sustain PPFs at a statistically significantly lower rotation to failure (20.1° and 26.7° vs 33.6°, P < .01) and torque to failure (124 Nm and 143 Nm vs 174 Nm, P < .01) values. The energy release rate at failure for the Exeter was significantly higher than that for the CPT and C-Stem (61.2 Nm vs 21.8 Nm and 38.6 Nm, P < .01), which led to more comminution.ConclusionThe CPT- and C-Stem-implanted femurs, although fracturing earlier, fractured in a simple pattern with less comminution. The differences in stem design mean higher stress at the critical point of failure in the CPT implanted femur compared with the Exeter and DePuy, which is likely the reason behind the observed increased risk of PPFs with the CPT implant. |
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Keywords: | periprosthetic fracture hip arthroplasty cemented stem failure biomechanical testing Sawbone model |
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