260. Comparing outcomes and mortality of upper cervical and subaxial cervical spine trauma in elderly patients

In contrast to younger patients, the elderly are more likely to sustain severe cervical spine trauma from relatively low energy mechanisms of injury. The presence of preexisting spine pathology such as osteoporosis, cervical stenosis, ankylosis, spondylosis, and degenerative changes can predispose e...

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Published in:The spine journal 2021-09, Vol.21 (9), p.S134-S134
Main Authors: Carlile, Catherine, Schultz, Jacob, Rees, Andrew, Stephens, Byron F., Waddell, Hunter
Format: Article
Language:English
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Summary:In contrast to younger patients, the elderly are more likely to sustain severe cervical spine trauma from relatively low energy mechanisms of injury. The presence of preexisting spine pathology such as osteoporosis, cervical stenosis, ankylosis, spondylosis, and degenerative changes can predispose elderly patients to fractures and neurologic injury in both the upper and subaxial cervical spine. To date, there has been little research comparing outcomes and mortality rates of patients with upper cervical (occiput-C2) versus subaxial (C3-C7) cervical spine injuries. Given the paucity of data on this subject, this current study compares mortality rates and outcomes between elderly patients with upper cervical and subaxial cervical spine injuries using our prospective trauma database. Using data extracted from our clinical trauma registry, we conducted a single center retrospective cohort study. Retrospective chart review was performed to assess treatment rendered, complications, and outcome measures and then stored in a deidentified database. All elderly (65+) trauma patients with cervical spine injuries who presented to a single, high-volume, level I trauma center between 2010-2019 were identified. Outcomes such as medical and surgical complication rates, length of hospitalization, and mortality at various time points were collected. Imaging characteristics of patients including psoas index (a marker for sarcopenia) and L3 Hounsfield Unit (an indicator of osteoporosis) were calculated using standard technique and recorded into the database. Patients with cervical spine trauma were sorted into upper cervical (occipital condyle, C1, and C2 vertebral fractures and ligamentous injuries) and subaxial (C3-7) cohorts and by treatment (operative vs nonoperative management). Surgical and medical morbidity variables recorded include surgical site infection, pneumonia, STEMI, DVT/PE and stroke. Pearson's Chi-squared tests were used to compare rates of mortality and complications between groups. A total of 922 patients were identified, with 545 upper cervical (59%), and 377 subaxial (41%) trauma patients. Patients with upper cervical spine trauma were significantly older (p
ISSN:1529-9430
1878-1632
DOI:10.1016/j.spinee.2021.05.373