Bruce E. Northrup

Neurologic outcome of early versus late surgery for cervical spinal cord injury.

Study Design. A prospective analysis evaluating neurologic outcome after early versus late surgery for cervical spinal cord trauma. Objectives. The study was conducted to determine whether neurologic and functional outcome is improved in traumatic cervical spinal cord‐injured patients (C3‐T1, American Spinal Injury Association grades A‐D) who had early surgery (<72 hours after spinal cord injury) compared with those patients who had late surgery (>5 days after spinal cord injury). Summary of Background Data. There is considerable controversy as to the appropriate timing of surgical decompression and stabilization for cervical spinal cord trauma. There have been numerous retrospective studies, but no prospective studies, to determine whether neurologic outcome is best after early versus late surgical treatment for cervical spinal cord injury. Methods. Patients meeting appropriate inclusion criteria were randomized to an early (<72 hours after spinal cord injury) or late (>5 days after spinal cord injury) surgical treatment protocol. The neurologic and functional outcomes were recorded from the acute hospital admission to the most recent follow‐up. Results. Comparison of the two groups showed no significant difference in length of acute postoperative intensive care stay, length of inpatient rehabilitation, or improvement in American Spinal Injury Association grade or motor score between early (mean, 1.8 days) versus late (mena, 16.8 days) surgery. Conclusions. The results of this study reveal no significant neurologic benefit when cervical spinal cord decompression after trauma is performed less than 72 hours after injury (mean, 1.8 days) as opposed to waiting longer than 5 days (mean, 16.8 days).

Magnetic resonance evaluation of the intervertebral disc, spinal ligaments, and spinal cord before and after closed traction reduction of cervical spine dislocations.

STUDY DESIGN A prospective clinical study using magnetic resonance imaging of the cervical spine in a consecutive series of patients with cervical spine dislocations. OBJECTIVES To determine the incidence of intervertebral disc herniations and injury to the spinal ligaments before and after awake closed traction reduction of cervical spine dislocations. SUMMARY OF BACKGROUND DATA Prior series in which the prereduction imaging of disc herniations in the dislocated cervical spine are described have been anecdotal and have involved small numbers of patients. In addition, no uniform clinical criteria to define the presence of an intervertebral disc herniation in the dislocated cervical spine has been described. The incidence of disc herniations in the unreduced dislocated cervical spine is unknown. METHODS Eleven consecutive patients with cervical spine dislocations who met the clinical criteria for an awake closed traction reduction had prereduction and postreduction magnetic resonance imaging. Using strict clinical criteria for the definition of an intervertebral disc herniation, the presence or absence of disc herniation, spinal ligament injury, and cord injury was determined. Neurologic status before, during, and after the closed reduction maneuver was documented. RESULTS Disc herniations were identified in 2 of 11 patients before reduction. Awake closed traction reduction was successful in 9 of the 11 patients. Of the nine patients with a successful closed reduction, two had disc herniations before reduction, and five had disc herniations after reduction. No patient had neurologic worsening after attempted awake closed traction reduction. CONCLUSIONS The process of closed traction reduction appears to increase the incidence of intervertebral disc herniations. The relation of these findings, however, to the neurologic safety of awake closed traction reduction remain unclear.

Reanalysis of central cervical cord injury management.

Early investigators indicated that conservative management was superior to operative intervention in the treatment of central cord injuries. Their clinical data suggested that operative treatment, in fact, worsened the condition. Recent experience with this clinical entity, however, indicates that in selected patients operative intervention may be of value in improving the rate and degree of motor recovery. A retrospective study of all individuals admitted to our hospital (Delaware Valley Spinal Cord Injury Center) with central cervical spinal cord injury was done (28 patients). One-half had been treated with medical therapy alone (Group I); the others were treated both medically and surgically (Group II). Medical therapy consisted of intravenous mannitol, dexamethasone, and sodium bicarbonate given during the acute phase of the injury. Both groups were immobilized using either a halo or a Philadelphia collar. Criteria for entry into the surgical group were one or both of the following: (a) failure to improve progressively after an initial period of improvement, with persistent compression of neural tissue visualized on myelography and (b) unacceptable instability of the spinal bony elements. The patients were given neurological scores based on the motor power of the major muscle groups. The stability of the spine was scored using the Panjabi-White scale. The two groups were compared using Students t-test and the two-factor analysis of variance. There was no significant difference in initial neurological scores between the groups. The surgical groups had a higher incidence of instability of the bony elements of the cervical spine, as judged by the Panjabi-White scale.(ABSTRACT TRUNCATED AT 250 WORDS)

Baclofen for the treatment of acute low-back syndrome. A double-blind comparison with placebo.

The efficacy and safety of baclofen (30–80 mg daily) for the treatment of acute low-back syndrome were evaluated in a 14-day, double-blind, randomized study of 200 patients (100 baclofen, 100 placebo). Patients with initially severe or extremely severe symptoms (as opposed to moderate symptoms) benefitted most from treatment with baclofen. The incidence of adverse effects was significantly higher in the baclofen group; however, most were mild to moderate and disappeared in all but two patients who required a reduction in dosage, without reduced drug efficacy. Baclofen was shown to be effective, safe, and well-tolerated for the treatment of patients with acute low-back syndrome.

Occurrence of infection in anterior cervical fusion for spinal cord injury after tracheostomy.

Study Design This study retrospectively reviewed the outcomes of 11 patients treated for a cervical spine injury with a tracheostomy placed before anterior cervical spine surgery. Objectives The primary goal was to show that anterior cervical spine surgery in the setting of spinal cord injury is a viable option in patients with previous tracheostomy. Summary of Background Data Respiratory failure after cervical cord injury commonly requires tracheostomy, possibly increasing the risk of soft tissue or bony infection in patients at high risk for morbidity after surgery. Although numerous studies have explored the risk of infection after tracheostomy or anterior cervical spine surgery, no study has been performed to explore the risk of infection in patients with previous tracheostomy at the time of anterior cervical spine surgery. Methods A retrospective review of the clinical data of 1800 spinal cord injury patients seen from 1979 to the present at the Regional Spinal Cord Injury Center of the Delaware Valley of Thomas Jefferson University with affiliated institutions of Thomas Jefferson University Hospital and Magee Rehabilitation Hospital was performed. Eleven patients were found who had existing tracheostomy at the time of anterior cervical spine surgery. Clinical follow-up period averaged 28 months with a range of 6–51 months, and radiographic analysis averaged 7 months with a range of 1–51 months. Autogenous iliac crest graft was used in all patients, consisting of an intervertebral graft after a discectomy or a strut graft after a complete corpectomy. Anterior instrumentation was used in more than 60% of the patients. Results After all patient interviews and review of all radiographs for evidence of infection, no patient was noted to have evidence of a cervical soft tissue or bony infection after surgery. The tracheostomy complications were minor and resolved quickly. Conclusions The authors concluded that in patients with cervical cord damage resulting from nonpenetrating trauma, tracheostomy was not found to increase the risk of infection in subsequent anterior cervical surgery. Careful preparation of the skin and placement of the second surgical incision lateral to the tracheostomy site is recommended. Anterior cervical spine surgery remains a viable treatment option in this severely injured patient population.

Giant basilar artery aneurysm presenting as a third ventricular tumor.

Giant aneurysm of the basilar artery presenting as a 3rd ventricular tumor is an unusual phenomenon. We are reporting a case in which a patient with a giant aneurysm of the basilar artery presented with symptoms of headaches and gait disturbance secondary to obstructive hydrocephalus. Although giant aneurysms presenting as mass lesions have been reported, the computed axial tomographic findings in our case were unique. Giant aneurysms of the basilar artery may be considered in the differential diagnosis of 3rd ventricular tumors.

The use of autografts for vertebral body replacement of the thoracic and lumbar spine

Thirty-seven patients with fractures of the thoracic or lumbar spine underwent anterior corpectomy (partial or complete) and vertebral body replacement for either destructive lesions from tumor or infection (13 patients) or trauma (24 patients). The vertebral bodies were replaced using either rib (12 patients) or tricortical iliac crest (25 patients) autografts. The Dunn device was utilized in conjunction with the autografts in 19 patients. Posterior stabilization was used in five patients; three prior to anterior stabilization and two after anterior stabilization. Within 2 weeks of the operative procedure, all patients began walking or sitting. Of the 37 patients, 21 with incomplete neurologic deficits improved, and 10 of those went onto complete recovery. Of the 27 patients who have been followed for a minimum of 1 year, 25 have obtained solid fusions, one developed a pseudarthrosis that required regrafting, and one had a delayed union prior to death from metastatic disease. There were two deaths in the immediate postoperative period and three deaths in the first six postoperative wounds due to metastatic disease. The purpose of this study is to present a consecutive series of patients who have undergone corpectomy and vertebral body replacement as well as to define the adequacy of stabilization.

Cervical spinal canal plasticity in children as determined by the vertebral body ratio technique.

The sagittal cervical canal measurement from a plain spine radiography is easy to obtain and has a smaller range than the interpedicular distance. In an effort to standardize the sagittal measurement, a canal ratio, using the vertebral body diameter, has been formulated. If this method is to be used in the pediatric spine, the effect of the growing neuraxis must be considered. Lateral cervical spine radiographs of 301 normal children and adults were evaluated and grouped according to age. The canal ratio measurement demonstrated a consistent decrease through to the adult groups. Adjacent groups showed statistically significant decreases with age in all groups tested other than the oldest two groups. With the pediatric spinal canal vulnerable to various intracanalicular influences, the canal ratio may reflect early disease processes.