Granulocytic sarcoma of the spine.

OBJECTIVE: Granulocytic sarcomas (chloromas) are tumors consisting of primitive myeloid cells. They are rare manifestations of acute and chronic leukemias and can occasionally precede the development of systemic disease by weeks to years. Spinal complications of chloromas, such as cord compression secondary to epidural tumor or cauda equina syndrome, have been described but are uncommon. METHODS: We present eight new cases of spinal chloroma. Three patients displayed significant motor deficit in the form of paraparesis or paraplegia. All patients complained of lower back pain, with other complaints including generalized pain, abdominal pain, numbness and pain in the lower extremities and perianal region, and poor appetite. The average age of the patients was 37 years. Treatment strategies included surgery, chemotherapy, and radiotherapy. Three patients underwent surgical decompression. Six patients received chemotherapy, and six patients received radiotherapy at doses of 2000 to 3000 cGy in up to 30 fractions. RESULTS: Patient survival ranged from 18 days to 9.5 years after diagnosis. A review of the previously reported cases of granulocytic sarcoma in addition to our new cases reveals that the most effective treatment is multimodality therapy coupled with early diagnosis. CONCLUSION: Increased awareness of this entity will facilitate early diagnosis and minimize potentially preventable neurological morbidity.

Segmental cervical spine motion during orotracheal intubation of the intact and injured spine with and without external stabilization.

OBJECT: The purpose of this study was to establish a cadaveric model for evaluating cervical spine motion in both the intact and injured states and to examine the efficacy of commonly used stabilization techniques in limiting that motion. METHODS: Intubation was performed in fresh human cadavers with intact cervical spines, following the creation of a C4-5 posterior ligamentous injury. Movement of the cervical spine during direct laryngoscopy and intubation was recorded using video fluoroscopy and examined under the following conditions: 1) without external stabilization; 2) with manual in-line cervical immobilization; and 3) with Gardner-Wells traction. Subsequently, segmental motion of the occiput through C-5 (Oc-C5) was measured from digitized frames of the recorded video fluoroscopy. The predominant motion, at all levels measured in the intact spine, was extension. The greatest degree of motion occurred at the atlantooccipital (Oc-C1) junction, followed by the C1-2 junction, with progressively less motion at each more caudal level. After posterior destabilization was induced, the predominant direction of motion at C4-5 changed from extension to flexion, but the degree of motion remained among the least of all levels measured. Traction limited but did not prevent motion at the Oc-C1 junction, but neither traction nor immobilization limited motion at the destabilized C4-5 level. CONCLUSIONS: Cadaveric cervical spine motion accurately reflected previously reported motion in living, anesthetized patients. Traction was the most effective method of reducing motion at the occipitocervical junction, but none of the interventions significantly reduced movement at the subaxial site of injury. These findings should be considered when treating injured patients requiring orotracheal intubation.

Cervical spinal motion during intubation: efficacy of stabilization maneuvers in the setting of complete segmental instability.

OBJECT: The purpose of this study was to characterize and compare segmental cervical motion during orotracheal intubation in cadavers with and without a complete subaxial injury, as well as to examine the efficacy of commonly used stabilization techniques in limiting that motion. METHODS: Intubation procedures were performed in 10 fresh human cadavers in which cervical spines were intact and following the creation of a complete C4-5 ligamentous injury. Movement of the cervical spine during direct laryngoscopy and intubation was recorded using video fluoroscopy and examined under the following conditions: 1) without stabilization; 2) with manual in-line cervical immobilization; and 3) with Gardner-Wells traction. Subsequently, segmental angular rotation, subluxation, and distraction at the injured C4-5 level were measured from digitized frames of the recorded video fluoroscopy. CONCLUSIONS: After complete C4-5 destabilization, the effects of attempted stabilization on distraction, angulation, and subluxation were analyzed. Immobilization effectively eliminated distraction, and diminished angulation, but increased subluxation. Traction significantly increased distraction, but decreased angular rotation and effectively eliminated subluxation. Orotracheal intubation without stabilization had intermediate results, causing less distraction than traction, less subluxation than immobilization, but increased angulation compared with either intervention. These results are discussed in terms of both statistical and clinical significance and recommendations are made.

Management of type II dens fractures: a case-control study.

STUDY DESIGN: A case-control study of patients with isolated type II dens fractures treated with halo vest immobilization. OBJECTIVES: To evaluate age as a risk factor for failure of halo immobilization in patients with type II dens fractures. SUMMARY OF BACKGROUND DATA: The literature reports an average fusion rate of approximately 70% in patients with type II dens fractures treated by halo vest immobilization. Although many investigators have examined patient age as a risk factor for nonfusion using halo immobilization, all studies have been supported only by Class III data. These studies, consequently, carry little or no statistical significance. Therefore, a case-control study based on Class II data was designed to evaluate age as a risk factor for failure of halo vest immobilization in patients with type II dens fractures. METHODS: Thirty-three patients with isolated type II dens fractures treated with halo vest immobilization at the University of Iowa Hospitals and clinics between 1983 and 1997 were included. Type II fractures were defined with plain radiography as per the Anderson-D'Alonzo classification. Cases were defined as nonfusions after halo immobilization, whereas control subjects represented successful bony unions attained with halo immobilization. RESULTS: When the case and control groups were compared, there was no significant difference between the groups in the presence of concomitant medical conditions, sex, the amount of fracture displacement, the direction of fracture displacement, the length of hospital stay, or length of follow-up. Age more than 50 years was found to be a highly significant risk factor for failure of halo immobilization (P = 0.002; Fisher's exact test, two-tailed). The odds ratio of these data indicate that the risk of failure of halo immobilization is 21 times higher in patients aged 50 years or more. CONCLUSIONS: Surgical intervention should be considered in those patients aged 50 years or more who have a type II dens fracture, if it can be accomplished with acceptable risk of morbidity and death.