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Posterior cervical instrumentation is frequently indicated for the treatment of conditions of traumatic, degenerative, cancerous, or inflammatory origin. This instrumentation has evolved from wires to facet and lateral mass screws and laterally based pedicle screws. The evolution in cervical instrumentation has coincided with the increased availability and higher resolution of three-dimensional medical imaging. Cervical pedicle screws, first described in the 1960s as C2 pedicle screw insertion for osteosynthesis of a hangman fracture, and popularized by Abumi and colleagues for reconstructive surgery of the subaxial cervical spine in 1994, offer a biomechanical advantage over other techniques that makes them an attractive option to surgeons, but at the expense of increased risk of iatrogenic damage to the adjacent neurovascular structures. Cervical pedicle screws offer a potential benefit in patients with deficient or dysplastic lateral masses or laminae.
Studies performed since the 1990s in an attempt to reduce the risks of pedicle screw insertion have addressed pedicle morphology, optimal entry point, and trajectory, and preoperative and intraoperative imaging. Nonetheless, the technique is inherently risky. Preoperative radiologic evaluation of the pedicles and adjacent neurovascular structures is mandatory, as is meticulous operative technique. The purpose of this chapter is to review the preoperative considerations, surgical technique, complications, and results for cervical pedicle screw fixation.
When considering the use of pedicle screws to stabilize the cervical spine, the surgeon should take a focused history directed toward the potential for congenital vertebral anomalies and abnormalities of the vertebral arteries. Cervical malignant disease or spondylodiskitis can involve the arteries in the pathologic process. Furthermore, vertebral artery injury is associated with 0.5% of all cases of blunt trauma, and this rate approaches 30% to 40% in patients with cervical fractures because of the tortuous semiosseous course of the artery.
Damage to the dominant vertebral artery from trauma or involvement of the artery in a pathologic process can lead to symptoms and signs of posterior circulation stroke or transient ischemic attack. The presence of any of these features should direct the clinician to the potential for involvement of the vertebral artery and necessitates imaging of the arteries.
The focus and the extent of the physical examination should be directed by the nature of the disorder for which the operative intervention is being considered. The patient is observed for the syndromic features of conditions with known cervical spine involvement and for cutaneous manifestations of systemic diseases such as neurofibromatosis. In cases of deformity correction, the cervical alignment is assessed, and consideration is given to the overall spinal balance. Assessment of horizontal gaze is paramount in correction of cervical kyphosis, to help calculate the amount of correction required intraoperatively. A detailed neurologic examination then follows to exclude ischemic posterior circulation stroke secondary to vertebral artery occlusion, spinal cord compression or injury, and radicular pattern nerve root dysfunction.
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