thoracolumbar spinal fractures : three column concept

The three-column concept of thoracolumbar spinal fractures (of Denis) forms the basis of a number of widely used thoracolumbar spinal fracture classification systems.

Usage

While the three-column concept was initially developed for classification of thoracolumbar spinal fractures, it can also be applied to the lower cervical spine  as the general vertebral anatomy is similar to thoracic and lumbar vertebrae. Due to its simplicity, it is widely used in routine clinical practice and can be used in reports with the expectation that involved treating clinicians will be familiar with the idea of anterior, middle and posterior columns.

In contrast, the classification system the Denis described (see below) has been superseded by more modern classifications (AO classification of thoracolumbar injuries and the thoracolumbar injury classification and severity score) and is only of historical interest.

Columns

Denis divided the vertebral column into 3 vertical parallel columns based on biomechanical studies related to stability following traumatic injury. Instability occurs when injuries affect 2 contiguous columns (i.e. anterior and middle column or middle and posterior column). Obviously a 3 column injury is also unstable.

The three columns are:

• anterior column
  • anterior longitudinal ligament (ALL)
  • anterior two-thirds of the vertebral body
  • anterior two-thirds of the intervertebral disc (annulus fibrosus)
• middle column
  • posterior one-third of the vertebral body
  • posterior one-third of the intervertebral disc (annulus fibrosus)
  • posterior longitudinal ligament (PLL)
• posterior column
  • everything posterior to the PLL
    • pedicles
    • facet joints and articular processes
    • ligamentum flavum
    • neural arch and interconnecting ligaments

Classification

Only of historical interest, it is worth noting that in the original 1976 article, Denis differentiated five types of fractures A-E:

• type A
  • fracture of both endplates without kyphosis
  • mechanism of injury: pure axial load
  • predilection site: low lumbar region
• type B
  • fracture of the superior endplate (CT may also demonstrate a sagittal split of the lower endplate)
  • most frequent burst fracture
  • mechanism of injury: axial load and flexion
  • predilection site: thoracolumbar junction
• type C
  • fracture of the inferior endplate
  • rare
  • mechanism of injury: probably axial load and flexion.
  • no particular site pattern could be identified
• type D
  • burst rotation fracture
  • burst fracture with comminution of the vertebral body, large central defect on CT, loss of posterior height, an increase of the interpedicular distance, vertical fracture of the lamina, bone retropulsed into the spinal canal
  • mechanism of injury: axial load and rotation
  • predilection site: mid lumbar region
• type E
  • burst lateral flexion fracture
  • fractured posterior wall of the vertebral body with fragment extrusion towards the side of the flexion
  • mechanism of injury: axial load and lateral flexion

Siehe auch:

• Frakturen der Wirbelsäule
• thoracolumbar spinal fracture classification systems
• thoracolumbar spinal fractures : McAfee classification
• 2-Säulen-Modell von Whiteside