Classification of Thoracolumbar Spine Injuries - PowerPoint PPT Presentation

1 / 31
About This Presentation
Title:

Classification of Thoracolumbar Spine Injuries

Description:

Classification of Thoracolumbar Spine Injuries – PowerPoint PPT presentation

Number of Views:1340
Avg rating:3.0/5.0
Slides: 32
Provided by: Nico177
Category:

less

Transcript and Presenter's Notes

Title: Classification of Thoracolumbar Spine Injuries


1
Classification of Thoracolumbar Spine Injuries
  • Jim A. Youssef, MD
  • Original Authors Christopher Bono, MD and Mitch
    Harris, MD March 2004
  • New Author Jim A. Youssef, MD Revised January
    2006

2
Historical Classification Systems
3
More Commonly Used Classification Systems
4
Denis Three-column model
  • Anterior column- formed by the anterior
    longitudinal ligament, the anterior annulus, and
    the anterior portion of the vertebral body
  • Middle osteoligamentous- the critical feature.
    Very important to spinal stability consists of
    posterior longitudinal ligament, the posterior
    portion of the annulus, and the posterior aspect
    of the vertebral body
  • Posterior column- includes the neural arch, facet
    joints and capsules, ligamentum flavum, and
    remaining ligamentious complex

Denis F. Clin Orthop Relat Res. 1984
5
Denis Middle-column concept
  • Developed to define burst fracture
  • Middle column has limited value for biomechanical
    stability modeling

6
History- Denis
  • Studies have supported the three-column theory
    and found that the middle column is the primary
    determinant of mechanical stability of the
    thoracolumbar region of the spine.

Panjabi, MM. Spine, 1995.
7
History- Gertzbein
  • Other classification systems developed
    concurrently, most focusing on flexion-distraction
    injuries
  • Gertzbein et al. suggests classification into
    three separate portions
  • Posterior component
  • Anterior component
  • Body component

Gertzbein SD, Court-Brown CM Flexion-Distraction
Injuries of the Lumbar Spine. Clin Orth 1988
8
History- Gertzbein
  • The relative proportion of disc and ligamentous
    involvement compared to bony involvement predicts
    the probability that the injury will heal without
    surgical involvement
  • Involvement of the vertebrae is important as it
    might relate to bony collapse and thus kyphosis

Gertzbein SD, Court-Brown CM Flexion-Distraction
Injuries of the Lumbar Spine. Clin Orth 1988
9
McAfee and Associates
  • Based on the CT scan appearance of 100 fractures
  • Six injury patterns
  • Wedge-compression fracture
  • Stable burst
  • Unstable burst
  • Chance
  • Flexion-distraction
  • Translational

McAfee PC, Yuan HA, et al. The value of CT in
thoracolumbar fractures. JBJS 1993
10
Classification
  • Compression Fracture

McAfee PC, Yuan HA, et al. The value of CT in
thoracolumbar fractures. JBJS 1993
11
Classification
  • Stable Burst Fracture
  • Minimal Kyphosis
  • lt 50 Ht. Loss
  • Moderate CC
  • No Neuro Deficit
  • No Posterior Inj.

McAfee PC, Yuan HA, et al. The value of CT in
thoracolumbar fractures. JBJS 1993
12
Classification
  • Unstable Burst Fracture
  • Posterior element disruption
  • Progressive neurological deficit
  • Kyphosis of greater than 20º-30º
  • Anterior height loss gt 50
  • Canal compromise gt 50

McAfee PC, Yuan HA, et al. The value of CT in
thoracolumbar fractures. JBJS 1993
13
Classification
  • Flexion - Distraction Injury

McAfee PC, Yuan HA, et al. The value of CT in
thoracolumbar fractures. JBJS 1993
14
Classification
  • Translational Shear Injury

McAfee PC, Yuan HA, et al. The value of CT in
thoracolumbar fractures. JBJS 1993
15
Ferguson and Allen
  • Combines the work of Denis and McAfee and et al.
  • Uses a mechanistic classification to clarify the
    patterns of thoracolumbar spine injury
  • Hypothesizes that most injuries were the result
    of
  • Compression
  • Tension
  • Torsion
  • Translational forces

Nicole EA Fractures of the dorsolumbar spine. J
Bone Joint Surg Br 31376-394, 1949
16
Ferguson and Allen
  • Treatment is linked to injury patterns and an
    attempt was made to match the type of
    instrumentation to the type of injury
  • System proved to be cumbersome and non-specific
    for everyday use

Nicole EA Fractures of the dorsolumbar spine. J
Bone Joint Surg Br 31376-394, 1949
17
Gaines Load Sharing Classification
  • Created system in response to poor patient
    outcomes when the vertebral body sustained a
    disproportionately severe injury
  • Classification system grades
  • Amount of damaged vertebral body
  • Spread of the fragments in the fracture sight
  • Amount of corrected kyphosis

McCormack et al. Spine, 1994
18
Gaines Load Sharing Classification
  • Load-Sharing Classification a straight-forward
    way to describe the amount of bony comminution in
    a spinal fracture
  • Can help the surgeon select short-segment
    pedicle-screw-based fixation using the posterior
    approach for less comminuted injuries and the
    anterior approach for those more comminuted
    injuries if the patient meets the following
    criteria
  • Isolated spine fracture
  • Compliant with 3 to 4 months of spinal bracing

Parker et al, Spine, 2000
19
Gaines Load Sharing Classification
  • System can be used pre-operatively to
  • Predict screw breakage when short segment,
    posteriorly placed pedicle screw implants are
    being used
  • Describe any spinal injury for retrospective
    studies
  • Select spinal fractures for anterior
    reconstruction with strut graft

McCormack et al. Spine, 1994
20
Gaines Load Sharing Classification
  • Inter-observer and intra-observer reliability of
    the Load Sharing system was evaluated by 5
    observes on 2 occasions.
  • Analysis found high levels of agreement when Load
    Sharing Classification was used to assess
    thoracolumbar burst fractures.
  • Dai and Jin (2005) concluded that the system
    could be applied with excellent reliability.

Dai LY, Jin WJ. Spine, 2005.
21
AO Classification
  • Based on the review of 1445 consecutive
    thoracolumbar injuries
  • Primarily based on pathomorphological criteria
  • Categories based on
  • Main mechanism of injury
  • Pathomorphological uniformity
  • Prognostic aspects regarding healing potential

Magerl et al. Eur Spine J. 1994.
22
AO Classification
  • Classification reflects progressive scale of
    morphological damage by which the degree of
    instability is determined
  • Consists of a 3-3-3 grid for sub-grouping
    injuries into three types
  • A, B and C
  • Every type has three groups, each of which
    contains three subgroups with specifications

Magerl et al. Eur Spine J. 1994.
23
AO Classification
  • Types have a fundamental injury pattern which is
    determined by the three most important mechanisms
    acting on the spine
  • Compression
  • Distraction
  • Axial torque

Magerl et al. Eur Spine J. 1994.
24
AO Classification - A, B, Cs
  • Type A
  • Vertebral body compression- injury patterns of
    the vertebral body
  • Type B
  • Anterior and posterior element injuries with
    distraction, characterized by transverse
    disruption either anteriorly or posteriorly
  • Type C
  • Anterior and posterior injuries with rotation,
    injury patters resulting from axial torque

Magerl et al. Eur Spine J. 1994.
25
Examples of AO Classification
26
AO Classification
  • Superior incomplete
  • Burst fracture
  • A3.1.1

27
AO Classification
  • Flexion-subluxation
  • B1.1.1

28
AO Classification
  • Rotational shear injury
  • C3.2

29
Determination of Thoracolumbar Instability
30
Reproducibility studies
  • Blauth el al Mean inter-observer reliability
    67 when 22 hospitals evaluated 14 radiographs
    and CT scans
  • Wood, Vaccaro, et al Only moderate
    reproducibility and repeatability among
    well-trained spine surgeons using AO and Denis
    classification systems

Orthopade, 1999 NASS, 2004
31
Summary
  • Currently no classification system that has
    achieved global clinical utility and acceptance
  • Few studies evaluating the effectiveness of the
    different systems studies which have been
    conducted use small samples sizes

Gotzen L, et al. Unfallchirurg, 1994.
If you would like to volunteer as an author for
the Resident Slide Project or recommend updates
to any of the following slides, please send an
e-mail to ota_at_aaos.org
Return to Spine Index
E-mail OTA about Questions/Comments
Write a Comment
User Comments (0)
About PowerShow.com