Deviation analysis of atlantoaxial pedicle screws assisted by a drill template.

Although C1-C2 pedicle screw fixation provides an excellent fusion rate and rigid fixation, this technique has a potential risk. It is essential to develop an accurate screwing method to avoid this neurovascular injury. To develop and validate the accuracy of a novel navigational template for C1-C2 pedicle screw placement in cadaveric specimens, computed tomography scans with 1-mm-wide cuts were obtained of 32 cadaveric cervical specimens. The authors developed 64 three-dimensional full-scale templates that were created by computer modeling with a rapid prototyping technique from the computed tomography data. Drill templates were constructed with a custom trajectory for each level and side. The drill templates were used to guide the establishment of a pilot hole for screw placement. The average distances between ideal and actual entry points of the C1 pedicle screws in the x, y, and z axes were 0.16±0.46 mm, 0.11±0.52 mm, and -0.01±0.54 mm, respectively, on the left side and 0.11±0.49 mm, 0.01±0.56 mm, and -0.09±0.59 mm, respectively, on the right side. The average distances between ideal and actual entry points of the C2 pedicle screws in the x, y, and z axes were 0.05±0.54 mm, 0.20±0.59 mm, and -0.06±0.58 mm, respectively, on the left side and 0.17±0.55 mm, 0.1±0.58 mm, and -0.01±0.49 mm, respectively, on the right side. Factors related to human error and imprecision are responsible for most malpositioning of instrumentation. The rapid prototyping drill template for C1-C2 screw placement is described to minimize human error, although it introduces error related to computer software and variation in manufacturing.

[1]  I. Lieberman,et al.  Robotic-assisted pedicle screw placement: lessons learned from the first 102 patients , 2013, European Spine Journal.

[2]  Benson P. Yang,et al.  Percutaneous Lumbar Pedicle Screw Placement Aided by Computer-Assisted Fluoroscopy-Based Navigation: Perioperative Results of a Prospective, Comparative, Multicenter Study , 2012, Spine.

[3]  Yoshiharu Kawaguchi,et al.  Development of a New Technique for Pedicle Screw and Magerl Screw Insertion Using a 3-Dimensional Image Guide , 2012, Spine.

[4]  V Ferrari,et al.  An optimal design for patient‐specific templates for pedicle spine screws placement , 2012, The international journal of medical robotics + computer assisted surgery : MRCAS.

[5]  Hiroyuki Kato,et al.  Computer-assisted C1-C2 Transarticular Screw Fixation "Magerl Technique" for Atlantoaxial Instability , 2012, Asian spine journal.

[6]  B. Chang,et al.  Routine insertion of the lateral mass screw via the posterior arch for C1 fixation: feasibility and related complications. , 2012, The spine journal : official journal of the North American Spine Society.

[7]  Zheng Wang,et al.  Accuracy and efficacy of thoracic pedicle screws in scoliosis with patient-specific drill template , 2012, Medical & Biological Engineering & Computing.

[8]  M. Crostelli,et al.  Free-hand pedicle screws insertion technique in the treatment of 120 consecutive scoliosis cases operated without use of intraoperative neurophysiological monitoring , 2012, European Spine Journal.

[9]  S. Rajasekaran,et al.  Safety of Cervical Pedicle Screw Insertion in Children: A Clinicoradiological Evaluation of Computer-Assisted Insertion of 51 Cervical Pedicle Screws Including 28 Subaxial Pedicle Screws in 16 Children , 2012, Spine.

[10]  Di Lu,et al.  Efficacy and accuracy of a novel rapid prototyping drill template for cervical pedicle screw placement , 2011, Computer aided surgery : official journal of the International Society for Computer Aided Surgery.

[11]  Jean-Paul Wolinsky,et al.  Accuracy of Free-Hand Pedicle Screws in the Thoracic and Lumbar Spine: Analysis of 6816 Consecutive Screws , 2011, Neurosurgery.

[12]  Sujit Kumar Tripathy,et al.  Transarticular screw fixation for atlantoaxial instability - modified Magerl's technique in 38 patients , 2010, Journal of orthopaedic surgery and research.

[13]  G. Yoshida,et al.  Clinical accuracy of three-dimensional fluoroscopy-based computer-assisted cervical pedicle screw placement: a retrospective comparative study of conventional versus computer-assisted cervical pedicle screw placement. , 2010, Journal of neurosurgery. Spine.

[14]  Le Xie,et al.  A novel computer-assisted drill guide template for placement of C2 laminar screws , 2009, European Spine Journal.

[15]  Paul D. Kim,et al.  An Anatomical Study of the Mid-Lateral Pars Relative to the Pedicle Footprint in the Lower Lumbar Spine , 2009, Spine.

[16]  L. Lenke,et al.  Free-Hand Pedicle Screw Placement During Revision Spinal Surgery: Analysis of 552 Screws , 2008, Spine.

[17]  D. Resnick,et al.  Biomechanical Comparison of Four C1 to C2 Rigid Fixative Techniques: Anterior Transarticular, Posterior Transarticular, C1 to C2 Pedicle, and C1 to C2 Intralaminar Screws , 2006, Neurosurgery.

[18]  E. Schneider,et al.  Biomechanical Analysis of Transpedicular Screw Fixation in the Subaxial Cervical Spine , 2004, Spine.

[19]  Paul S D'Urso,et al.  Biomodeling as an Aid to Spinal Instrumentation , 2004, Spine.

[20]  Atul Goel,et al.  Vertebral artery in relationship to C1-C2 vertebrae: an anatomical study. , 2004, Neurology India.

[21]  N. Wright Posterior C2 Fixation Using Bilateral, Crossing C2 Laminar Screws: Case Series and Technical Note , 2004, Journal of spinal disorders & techniques.

[22]  Ping Yi,et al.  Morphometric Evaluation of Screw Fixation in Atlas via Posterior Arch and Lateral Mass , 2003, Spine.

[23]  A. Goel C1-C2 pedicle screw fixation with rigid cantilever beam construct: case report and technical note. , 2002, Neurosurgery.

[24]  D. Resnick,et al.  Anatomic Suitability of the C1-C2 Complex for Pedicle Screw Fixation , 2002, Spine.

[25]  J Vander Sloten,et al.  Three-Dimensional Computed Tomography-Based, Personalized Drill Guide for Posterior Cervical Stabilization at C1–C2 , 2001, Spine.

[26]  Paul Suetens,et al.  Image-Based Planning and Validation of C1-C2 Transarticular Screw Fixation Using Personalized Drill Guides , 1999, MICCAI.

[27]  C. Dickman,et al.  The anatomical suitability of the C1-2 complex for transarticular screw fixation. , 1996, Journal of neurosurgery.

[28]  M. Panjabi,et al.  Three-Dimensional Movements of the Upper Cervical Spine , 1988, Spine.

[29]  Le Xie,et al.  A novel computer-assisted drill guide template for thoracic pedicle screw placement: a cadaveric study , 2011, Archives of Orthopaedic and Trauma Surgery.

[30]  M. Amling,et al.  Evaluation of anatomic landmarks and safe zones for screw placement in the atlas via the posterior arch , 2009, European Spine Journal.