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Garo, A.
1,2
;
Arnoux, P. J.
1
;
Aubin, C. E.
2
Estimation of bone material properties using an inverse finite element method
Comput Methods Biomech Biomed Eng
. August 2009;12(suppl 1):121-122
©2009 Taylor & Francis
Affiliations
1
Laboratoire de Biomécanique Appliquée – UMRT 24,
INRETS
/Université de la Méditerranée, Marseille, France
2
Département de Génie Mécanique,
École Polytechnique, Montréal
, Canada
Links
DOI:
10.1080/10255840903080851
Cited Works (5)
Year
Entry
2005
Shim VPW, Yang LM, Liu JF, Lee VS. Characterisation of the dynamic compressive mechanical properties of cancellous bone from the human cervical spine.
Int J Impact Eng
. December 2005;32(1-4):525-540.
1998
Kopperdahl DL, Keaveny TM. Yield strain behavior of trabecular bone.
J Biomech
. July 1998;31(7):601-608.
2003
Ochia RS, Tencer AF, Ching RP. Effect of loading rate on endplate and vertebral body strength in human lumbar vertebrae.
J Biomech
. December 2003;36(12):1875-1881.
2008
Hansen U, Zioupos P, Simpson R, Currey JD, Hynd D. The effect of strain rate on the mechanical properties of human cortical bone.
J Biomech Eng
. February 2008;130(1):011011.
1991
Linde F, Nørgaard P, Hvid I, Odgaard A, Søballe K. Mechanical properties of trabecular bone: dependency on strain rate.
J Biomech
. 1991;24(9):803-809.
Cited By (2)
Year
Entry
2020
Ogurkowska MB, Błaszczyk A. Distribution of Young's modulus at various sampling points in a human lumbar spine vertebral body.
Spine J
. November 2020;20(11):1861-1875.
2011
Wagnac É.
Expérimentation et modélisation détaillée de la colonne vertébrale pour étudier le rôle de facteurs anatomiques et biomécaniques sur les traumatismes rachidiens
[PhD thesis]. École polytechnique de Montréal; November 2011.