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Computer Methods in Biomechanics and Biomedical Engineering Volume 16, 2013 - Issue sup1
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Abstract

Subject-specific finite element modelling of canine long bones up to fracture

C. LaurentDepartment of Aerospace and Mechanics, University of Liège, Liège, Belgium;Department of Clinical Sciences, Faculty of Veterinary Medicine, University of Liège, Liège, BelgiumCorrespondence[email protected]
,
B. BohmeDepartment of Clinical Sciences, Faculty of Veterinary Medicine, University of Liège, Liège, Belgium
,
V. d'OtreppeDepartment of Aerospace and Mechanics, University of Liège, Liège, Belgium
,
M. BalligandDepartment of Clinical Sciences, Faculty of Veterinary Medicine, University of Liège, Liège, Belgium
&
J.-P. PonthotDepartment of Aerospace and Mechanics, University of Liège, Liège, Belgium
Pages 270-271 | Published online: 07 Aug 2013

REFERENCES

  • d'OtreppeVBomanRPonthotJ.-P. 2012. Generating smooth surface meshes from multi-region medical images. Int J Numer Methods Biomed Eng.28:642–660.
  • HelgasonBTaddeiFPalssonHSchileoECristofoliniLVicecontiMBrynjolfssonS. 2008. A modified method for assigning material properties to FE models of bones. Med Eng Phys.30:444–453.
  • PithiouxMSubitDChabrandP. 2004. Comparison of compact bone failure under two different loading rates: experimental and modelling approaches. Med Eng Phys.26:647–653.
  • PonthotJ.-P. 2002. Unified stress update algorithms for the numerical simulation of large deformation elasto-plastic and elasto-viscoplastic processes. Int J Plasticity.18:91–126.
  • SchileoETaddeiFCristofoliniLVicecontiM. 2008. Subject-specific finite element models implementing a maximum principal strain criterion are able to estimate failure risk and fracture location on human femurs tested in vitro. J Biomech.41:356–367.
  • WirtzDCSchiffersNPandorfTRadermacherKWeichertDForstR. 2000. Critical evaluation of known bone material properties to realize anisotropic FE-simulation of the proximal femur. J Biomech.33:1325–1330.

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