Burst Fractures
A spinal burst fracture involves disruption of both the anterior and middle columns of the vertebral body under axial-compression load.
Retropulsion of posterior wall fragments into the spinal canal is typical and may cause neurological injury through direct compression or secondary deformity.
The thoracolumbar junction (T11–L2) is most often affected because it transitions from rigid thoracic to mobile lumbar segments.
Common mechanisms include falls from height and motor-vehicle accidents.
Clinical Features
Sudden severe back pain and limited motion
Possible neurologic deficit (paresthesia, weakness, paralysis)
Local tenderness, paraspinal spasm, step deformity, or widened interspinous gap → posterior-ligamentous injury
Always perform complete trauma survey to rule out associated injuries
Neurological exam must include sensory, motor, reflex, and bulbocavernosus reflex evaluation
💡 Absence of bulbocavernosus reflex = spinal shock; hyperactive response = complete cord injury.
Imaging
X-ray (AP + Lateral)Loss of vertebral-body height, widened interpedicular distance, sagittal malalignment, spinous-process gap
CT scanDefines bony detail, canal compromise, facet/pedicle/lamina fractures; essential for classification
MRIVisualizes posterior-ligamentous complex (PLC), spinal-cord edema, epidural hematoma, disc or soft-tissue injury; guides non-operative decision
Classification & Decision Making
AO / Magerl Classification for fracture morphology
TLICS (Thoracolumbar Injury Classification and Severity Score) guides management
≤ 3 points: Conservative
4–5 points: Surgeon discretion
≥ 6 points: Surgical stabilization
Conservative Treatment
Indications
Neurologically intact
Kyphosis < 35°
Vertebral-height loss < 50 %
PLC intact
Medically unfit for surgery
Protocol
Bed rest 4–12 weeks ± hyperextension brace
Early mobilization under brace
Serial X-rays (2 wk → 1 mo → 2 mo → 3 mo)
Stop brace once alignment and pain stable
Surgical Treatment
Indications Goals:
Unstable fracture,
progressive neural deficit,
kyphosis > 35°,
height loss > 50%
canal decompression,
anterior/posterior column reconstruction
spinal stabilization
Approaches
Posterior instrumentation → shorter time, less blood loss, good outcomes
Anterior reconstruction → better kyphosis correction, less hardware failure
Combined approach → selected cases with severe retropulsion
Short vs long segment fixation: intermediate screw in the fractured body improves stability and fusion
Minimally invasive (percutaneous pedicle screws) shows promising results for selected patients
Clinical Pearls
💡 Intermediate screws through the fractured vertebra enhance construct rigidity and fusion rate.
💡 Posterior-ligamentous complex integrity is key determinant for non-operative management.
💡 Early mobilization in brace reduces pulmonary and thrombotic complications.
References
Dai LY et al. Conservative treatment of thoracolumbar burst fractures: long-term follow-up with load sharing classification. Spine (Phila Pa 1976). 2008;33:2536–2544.
Cahueque M et al. Management of thoracolumbar burst fractures. J Orthop. 2016;13:278–281.
Rockwood & Green’s Fractures in Adults, 10th ed.