Biomechanical impact of C2 pedicle screw length in an atlantoaxial fusion construct

Risheng Xu, Mohamad Bydon, Mohamad Macki, Stephen M. Belkoff, Evan R. Langdale, Kelly McGovern, Jean Paul Wolinsky, Ziya L. Gokalsan, Ali Bydon

Research output: Contribution to journalArticle

5 Scopus citations

Abstract

Background: Posterior, atlantoaxial (AA) fusions of the cervical spine may include either standard (26 mm) or short (16 mm) C2 pedicle screws. This manuscript focused on an in vitro biomechanical comparison of standard versus short C2 pedicle screws to perform posterior C1-C2 AA fusions. Methods: Twelve human cadaveric spines underwent C1 lateral mass screw and standard C2 pedicle screw (n = 6) versus short C2 pedicle screw (n = 6) fixation. Six additional controls were not instrumented. The peak torque, peak rotational interval, and peak stiffness of the constructs were analyzed to failure levels. Results: The peak torque to construct failure was not statistically significantly different among the control spine (12.2 Nm), short pedicle fixation (15.5 Nm), or the standard pedicle fixation (11.6 Nm), P = 0.79. While the angle at the peak rotation statistically significantly differed between the control specimens (47.7° of relative motion) and the overall instrumented specimens (P < 0.001), the 20.7° of relative rotation in the short C2 pedicle screw specimens was not statistically significantly higher than the 13.7° of relative rotation in the standard C2 pedicle screw specimens (P = 0.39). Similarly, although the average stiffness was statistically significantly lower in control group (0.026 Nm/degree) versus the overall instrumented specimens (P = 0.001), the standard C2 pedicle screws (2.54 Nm/degree) did not differ from the short C2 pedicle screws (1.69 Nm/degree) (P = 0.30). Conclusions: Both standard and short C2 pedicle screws allow for equally rigid fixation of C1 lateral mass-C2 AA fusions. Usage of a short C2 pedicle screw may be an acceptable method of stabilization in carefully selected patient populations.

Original languageEnglish (US)
Pages (from-to)S343-S346
JournalSurgical Neurology International
Volume5
Issue number7Supplement
DOIs
StatePublished - Aug 1 2014

Keywords

  • Atlantoaxial
  • C1
  • C2
  • biomechanics
  • pars
  • pedicle

ASJC Scopus subject areas

  • Surgery
  • Clinical Neurology

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    Xu, R., Bydon, M., Macki, M., Belkoff, S. M., Langdale, E. R., McGovern, K., Wolinsky, J. P., Gokalsan, Z. L., & Bydon, A. (2014). Biomechanical impact of C2 pedicle screw length in an atlantoaxial fusion construct. Surgical Neurology International, 5(7Supplement), S343-S346. https://doi.org/10.4103/2152-7806.139664