The Subaxial Cervical AO Spine Injury Score

Injury patterns of the spine following blunt trauma: A per-segment analysis of spinal structures and their detection rates in CT and MRI

Rationale and objectives

To provide a detailed analysis of injury patterns of the spine following blunt trauma and establish the role of supplementary MRI by evaluating discrepancies in the detection rates of damaged structures in CT and MRI.

Method

216 patients with blunt trauma to the spine who underwent CT followed by supplementary MRI were included in this study. Two board-certified radiologists blinded to clinical symptoms and injury mechanisms independently interpreted all acquired CT and MRI images. The interpretation was performed using a dedicated catalogue of typical findings associated with spinal trauma and assessed for spinal stability using the AO classification systems.

Results

Lesions to structures associated with spinal instability were present in 31.0% in the cervical spine, 12.3% in the thoracic spine, and 29.9% in the lumbar spine. In all spinal segments, MRI provided additional information regarding potentially unstable injuries. Novel information derived from supplementary MRI changed clinical management in 3.6% of patients with injury to the cervical spine. No change in clinical management resulted from novel information on the thoracolumbar spine. Patients with injuries to the vertebral body, intervertebral disc, or spinous process were significantly more likely to benefit from supplementary MRI.

Conclusion

In patients that sustained blunt spinal trauma, supplementary MRI of the cervical spine should routinely be performed to detect injuries that require surgical treatment, whereas CT is the superior imaging modality for the detection of unstable injuries in the thoracolumbar spine.

Novel Tape Suture Osteosynthesis for Hyperextension Injuries of the Subaxial Cervical Spine: A Biomechanical Study

BACKGROUND/AIM

Anterior tension band injuries are usually the result of high impact hyperextension trauma. Current surgical treatment includes anterior cervical discectomy and fusion bearing the risk of soft tissue irritation, degeneration of adjacent cervical segments, implant failure or iatrogenic spondylodesis. This study examined the biomechanical properties of tape suture constructs reenforcing ligamental stability for the treatment of Association of Osteosynthesis (AO) type B3 injuries compared to anterior fusion.

MATERIALS AND METHODS

After creation of an AO type B3 injury in synthetic cervical segments (C5/6, Sawbone^®), seven segments were treated with anterior fusion and seven with a tape suture construct, similar to the SpeedBridge™ (Arthrex^®). Biomechanical testing was performed, simulating extension, flexion, lateral bending, and rotation. Dislocation (°) and corresponding force (N) were measured and compared.

RESULTS

Anterior fusion displayed a mean range of extension, lateral bending, and rotation of 3.60° (SD 1.87°), 2.28° (SD 1.55°), and 2.81° (SD 0.78°), respectively. The tape suture showed a mean range of extension, lateral bending, and rotation of 4.24° (SD 0.81°) (p=0.146), 5.44° (SD 1.56°) (p=0.013), and 5.29° (SD 1.44°) (p<0.01), respectively. No specimen suffered from implant failure.

CONCLUSION

The tape suture construct provides sufficient biomechanical stability for the treatment of AO type B3 injuries compared to anterior fusion. Regarding cervical extension, whose limitation is crucial for ligamental healing, the tape suture shows no significant inferiority. Yet, the tape suture approaches physiological mobility in the planes not affected by the injury. Consequently, the tape suture is a promising alternative preventing an iatrogenic spondylodesis.

Beach Breaking Waves and Related Cervical Spine Injuries: A Level One Trauma Center Experience and Systematic Review

OBJECTIVE

To analyze cervical spine injuries resulting from recreational activity in shallow ocean water amidst high energy breaking waves.

METHODS

Single-center 10-year review of patients who sustained cervical injuries at the beach in Long Island, New York. A systematic review following the PRISMA guidelines was also performed.

RESULTS

Nineteen patients (age 17-79 years) sustained cervical injury from high energy breaking waves while in shallow beach water. Six patients dove into a wave; 6 patients were struck by a large wave while standing upright; and 7 tumbled in the waves while engaged in non-specified recreational activity. All 7 patients with Subaxial Cervical AO Spine Injury Score (AO-SIS) scores higher than 10 had cervical spine injury with cord signal change and required operative management. Diving mechanism, AO-SIS score > 10, and cord signal change all predicted significant disability or death at 12 months (p<0.01). The present study and 7 additional studies reporting on 534 patients (mean age: 45.4 years) were analyzed. Within reported literature, most patients (94.2%) sustained a spinal cord injury. On long-term follow up, an estimated 64.8% of patients had permanent neurological injury and 12.5% had permanent quadriplegia.

CONCLUSIONS

We offer the first description of cervical injuries sustained in water-related recreational activity using the AOSpine scoring system. The morphology of injuries varied significantly and appeared to depend upon body position and wave kinetic energy. Patients presenting with cervical injury in this setting and yielding AO-SIS scores higher than 10 are likely to have poor functional recovery.

Skimboarding: An Increasingly Recognized Cause of Life-Threatening Spinal Cord Injury

Skimboarding is a sport that combines elements from aquatic and terrestrial sports and has gained popularity with increased riskier maneuvers. Spinal cord injuries associated with this sport have rarely been reported. Here we present a case of a previously healthy 44-year-old male with a life-threatening C2/C3 fracture and dislocation after a skimboarding fall. Traumatic facet dislocations in the cervical spine are usually consequent to high-energy transmission injuries, so it is difficult to explain the mechanism of injury in this clinical case. As this sport’s practice continues to grow, our purpose is to emphasize that these injuries may occur with irreversible consequences as most of the damage occurs at the time of presentation, so the first step is to alert athletes and the community to prevent them.