Document Type
Article
Language
eng
Publication Date
6-2018
Publisher
Elsevier
Source Publication
Clinical Biomechanics
Source ISSN
0268-0033
Abstract
Background
Biomechanical/anatomic limitations may limit the successful implantation, maintenance, and risk acceptance of posterior cervical plate/rod fixation for one stage decompression-fusion. A method of posterior fixation (crisscross) that resolves biomechanical deficiencies of previous facet wiring techniques and not reliant upon screw implantation has been devised. The biomechanical performance of the new method of facet fixation was compared to the traditional lateral mass plate/screw fixation method.
Methods
Thirteen human cadaver spine segments (C2-T1) were tested under flexion-compression loading and four were evaluated additionally under pure-moment load. Preparations were evaluated in a sequence of surgical alterations with intact, laminectomy, lateral mass plate/screw fixation, and crisscross facet fixation using forces, displacements and kinematics.
Findings
Combined loading demonstrated significantly lower bending stiffness (p < 0.05) between laminectomy compared to crisscross and lateral mass plate/screw preparations. Crisscross fixation showed a comparative tendency for increased stiffness. The increased overall motion induced by laminectomy was resolved by both fixation techniques, with crisscross fixation demonstrating a comparatively more uniform change in segmental motions.
Interpretation
The crisscross technique of facet fixation offers immediate mechanical stability with resolution of increased flexural rotations induced by multi-level laminectomy. Many of the anatomic limitations and potentially deleterious variables that may be associated with multi-level screw fixation are not associated with facet wire passage, and the subsequent fixation using a pattern of wire connection crossing each facet joint exhibits a comparatively more uniform load distribution. Crisscross wire fixation is a valuable addition to the surgical armamentarium for extensive posterior cervical single-stage decompression-fixation.
Recommended Citation
Cusick, Joseph F.; Pintar, Frank A.; Cheng, Joseph S.; Lifshutz, Jason I.; and Yoganandan, Narayan, "Posterior Cervical Spine Crisscross Fixation: Biomechanical Evaluation" (2018). Biomedical Engineering Faculty Research and Publications. 498.
https://epublications.marquette.edu/bioengin_fac/498
Comments
Accepted version. Clinical Biomechanics, Vol. 55 (June 2018): 18-22. DOI. © 2018 Elsevier B.V. Used with permission.