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Computer Methods in Biomechanics and Biomedical Engineering Volume 20, 2017 - Issue sup1: Société de Biomécanique Conference 2017
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Abstract

Biomechanical analysis of different cross-link configurations spinal instrumentation systems: a preliminary study

C. PeltierCHU La Milétrie, Poitiers, FranceCorrespondence[email protected]
,
A. GermaneauInstitut Pprime UPR 3346, CNRS – Université de Poitiers – ENSMA, Poitiers, France
,
J. C. DupréInstitut Pprime UPR 3346, CNRS – Université de Poitiers – ENSMA, Poitiers, France
,
F. HesserInstitut Pprime UPR 3346, CNRS – Université de Poitiers – ENSMA, Poitiers, France
,
C. BrèqueInstitut Pprime UPR 3346, CNRS – Université de Poitiers – ENSMA, Poitiers, France;ABS Lab,University of Poitiers, France
,
P. RigoardCHU La Milétrie, Poitiers, France;Institut Pprime UPR 3346, CNRS – Université de Poitiers – ENSMA, Poitiers, France
&
T. VendeuvreCHU La Milétrie, Poitiers, France;Institut Pprime UPR 3346, CNRS – Université de Poitiers – ENSMA, Poitiers, France
 show all
Pages S157-S158 | Published online: 27 Oct 2017

References

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  • Lynn G, Mukherjee DP, Kruse RN, Sadasivan KK, Albright JA. 1997. Mechanical stability of thoracolumbar pedicle screw fixation. The effect of crosslinks. Spine. 22:1568–1572; discussion 1573.
  • Skovrlj B. 2015. Minimally invasive procedures on the lumbar spine. World J Clin Cases. 3:1.
  • Wahba GM, Bhatia N, Bui CNH, Lee KH, Lee TQ. 2010. Biomechanical evaluation of short-segment posterior instrumentation with and without crosslinks in a human cadaveric unstable thoracolumbar burst fracture model: spine. 35:278–285.
  • Wang Z, Sakakibara T, Yoshikawa T, Inaba T, Kasai Y. 2013. Do the position and orientation of the crosslink influence the stiffness of spinal instrumentation? J Spinal Disorders Tech.

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