AO Spine classification of thoracolumbar injuries

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The AO Spine classification of thoracolumbar injuries is ~~one of the two~~a commonly used thoracolumbar spinal fracture classification ~~systems~~system.

The current AO Spine system (2013) supercedes the more complex and less reproducible AO Magerl classification¹. Unlike the other widely used system, the thoracolumbar injury classification and severity score (TLICS)¹, the AO Spine classification system is primarily descriptive ~~and does not aim~~rather than aiming to determine treatment, has more options for describing fracture morphology, and is designed for primary evaluation by CT with or without MRI ¹. Moreover, separate alphanumeric codes are given for the injury morphology and neurological status in the AO Spine system, whereas TLICS combines these assessments ~~are combined~~ in a numeric score ~~in TLICS~~.

Usage

Although ~~its~~the existence of the AO Spine classification is ~~widely~~ known among ~~the relevant~~international subspecialty groups and most spine surgeons could apply it as or more reliably than prior systems ², its day-to-day use varies greatly from institution to institution and it is not safe to assume that clinicians reading a report are familiar with it. It is therefore not wise to simply describe an injury as "B2".

The ~~terminology/descriptive~~components and descriptive terms used in the classification are, however, ~~widely used and also are~~ an excellent systematic overview of how to ~~think about~~assess and describe these injuries. ~~As such, familiarity with them is worthwhile. Combining~~Combining the colloquial descriptor along with the AO Spine alphanumeric classification, even though redundant, may increase acceptance among practitioners who are not familiar ¹.

Classification system

The AO Spine thoracolumbar classification system consists of three classes of thoracolumbar injuries.

Three separate components to every injury are coded ⁴:

injury morphology
neurological status
indeterminate status of ligamentous integrity or presence of comorbid conditions (referred to as modifiers)

Morphology (A, B or C)

Injuries are categorised into three groups, in order of increasing severity:

A: compression injuries
B: distraction injuries
C: displacement/translational injuries

Injuries are coded according to the vertebral level involved (e.g., T12: A4) except for injuries that involve the discs, facets, or ligaments between vertebrae, which are coded by the motion segment (e.g., T12-L1: B2).

Multiple injury types can be present at the same level, but the more severe injury (type B or C) is the primary coding and the less severe type (type A or B) is specified as a secondary descriptor.

When multiple levels are injured, each injury is classified separately and should be reported in order of declining severity and, in case of ties, cranial to caudal ¹.

A: compression injuries

Type A injuries involve the vertebral body, with the exception of A0.

A0: no fracture or clinically insignificant fracture of the spinous or transverse processes
A1: wedge compression or impaction fracture, which involves a single endplate of the vertebral body without involvement of the posterior vertebral wall
A2: split or pincer type fracture, which involves both endplates without the involvement of the posterior wall
A3: incomplete burst fracture, which involves a single endplate along with the posterior vertebral wall
A4: complete burst fracture, which involves both endplates along with the posterior vertebral wall; split fractures that involve the posterior vertebral wall are also included

With burst (A3 or A4) fractures, vertical fractures of the lamina may also be present. However, there is no horizontal fracture through the posterior elements or other posterior tension band injury that would qualify the primary injury as B1 or B2 type.

B: distraction injuries

Type B injuries involve either the anterior or posterior tension band and are often combined with type A vertebral body fractures.

B1: Chance fracture or pure transosseous tension band disruption, which involves a single vertebra with fracture through the pedicles and out the pars interarticularis or spinous process
B2: osseoligamentous posterior tension band disruption, which involves a motion segment with disruption of the posterior ligamentous complex with or without involving the bony posterior elements
B3: hyperextension injuries, which disrupt the anterior tension band by tearing the anterior longitudinal ligament and extending either through the intervertebral disc or vertebral body; the injury may extend into the posterior tension band but an at least partially intact posterior hinge prevents complete displacement

C: displacement/translational injuries

Type C injuries involve displacement in any direction. No subtypes are present as there are numerous possibilities of dislocating fractures. However, they should be specified along with relevant vertebral body (A-type) or tension band (B-type) injuries to better describe the morphology.

Distraction (B-type) fractures with clear and complete disruption of both anterior and posterior vertebral elements/tension bands should be described as a type C injury with secondary B descriptor even if there is not displacement at the time of imaging ¹.

Neurological signs (N)

N0: no focal neurological signs present
N1: a history of transient neurological deficit
N2: current signs or symptoms of radiculopathy
N3: an incomplete spinal cord or cauda equina injury
N4: complete spinal cord injury (complete absence of motor and sensory function; ASIA A)²
NX: cannot be assessed (e.g., due to head injury, intoxication, sedation)

Modifiers (M)

M1: the presence of tension band injury is indeterminate ~~based on spinal imaging~~ (whether or not MRI was performed); applies to injuries that seem stable from a bony standpoint (type A) but the possibility of ligamentous insufficiency (type B) remains, which would ~~help determine~~guide consideration of operative stabilization
M2: the presence of co-morbid conditions such as ankylosing spondylitis, diffuse idiopathic skeletal hyperostosis, osteopenia, osteoporosis, overlying burns, etc.

Scoring

The thoracolumbar AOSpine injury score (TL AOSIS) was devised and validated to guide surgical treatment ⁶. The injury categories correspond to points:

Injury type:

A0: 0 points
A1: 1 point
A2: 2 points
A3: 3 points
A4: 5 points
B1: 5 points
B2: 6 points
B3: 7 points
C: 8 points

Neurologic status:

N0: 0 points
N1: 1 point
N2: 2 points
N3: 4 points
N4: 4 points
NX: 3 points

Patient-specific modifiers:

M1: 1 point
M2: 0 points

The points from the three categories are added together. Based on a survey of practitioners, the following treatment algorithm was suggested:

0-3 points: conservative treatment
4-5 points: operative or non-operative treatment
>5 points: surgical intervention

-The AO Spine classification of thoracolumbar injuries is one of the two commonly used <a href="/articles/thoracolumbar-spinal-fracture-classification-systems">thoracolumbar spinal fracture classification systems</a>.Unlike the other widely used system, the <a href="/articles/thoracolumbar-injury-classification-and-severity-score-tlics-1">thoracolumbar injury classification and severity score (TLICS)</a> 1, the AO Spine classification system is primarily descriptive and does not aim to determine treatment. Moreover, separate alphanumeric codes are given for the injury morphology and neurological status in the AO Spine system, whereas these assessments are combined in a numeric score in TLICS.<h4>Usage</h4>Although its existence is widely known among the relevant subspecialty groups, its day-to-day use varies greatly from institution to institution and it is not safe to assume that clinicians reading a report are familiar with it. It is therefore not wise to simply describe an injury as "B2".The terminology/descriptive terms used in the classification are, however, widely used and also are an excellent systematic overview of how to think about and describe these injuries. As such, familiarity with them is worthwhile. Combining the colloquial descriptor along with the AO Spine alphanumeric classification, even though redundant, may increase acceptance among practitioners who are not familiar 1.<h4>Classification system</h4>The AO Spine thoracolumbar classification system consists of three classes of thoracolumbar injuries. Three separate components to every injury are coded 4:<ol>
+The AO Spine classification of thoracolumbar injuries is a commonly used <a href="/articles/thoracolumbar-spinal-fracture-classification-systems">thoracolumbar spinal fracture classification system</a>.The current AO Spine system (2013) supercedes the more complex and less reproducible AO <a title="Magerl classification of thoracolumbar spinal fractures" href="/articles/magerl-classification-of-thoracolumbar-spinal-fractures">Magerl classification</a> 1. Unlike the other widely used system, the <a href="/articles/thoracolumbar-injury-classification-and-severity-score-tlics-1">thoracolumbar injury classification and severity score (TLICS)</a>, the AO Spine classification system is primarily descriptive rather than aiming to determine treatment, has more options for describing fracture morphology, and is designed for primary evaluation by CT with or without MRI 1. Moreover, separate alphanumeric codes are given for the injury morphology and neurological status in the AO Spine system, whereas TLICS combines these assessments in a numeric score.<h4>Usage</h4>Although the existence of the AO Spine classification is known among international subspecialty groups and most spine surgeons could apply it as or more reliably than prior systems 2, its day-to-day use varies greatly from institution to institution and it is not safe to assume that clinicians reading a report are familiar with it. It is therefore not wise to simply describe an injury as "B2".The components and descriptive terms used in the classification are, however, an excellent systematic overview of how to assess and describe these injuries. Combining the colloquial descriptor along with the AO Spine alphanumeric classification, even though redundant, may increase acceptance among practitioners who are not familiar 1.<h4>Classification system</h4>The AO Spine thoracolumbar classification system consists of three classes of thoracolumbar injuries. Three separate components to every injury are coded 4:<ol>
~~-N4: complete spinal cord injury (complete absence of motor and sensory function; <a href="/articles/asia-impairment-scale-for-spinal-injury">ASIA</a> A) 2~~
~~-</li>~~
+N4: complete spinal cord injury (complete absence of motor and sensory function; <a href="/articles/asia-impairment-scale-for-spinal-injury">ASIA</a> A)</li>
-M1: the presence of tension band injury is indeterminate based on spinal imaging (whether or not MRI was performed); applies to injuries that seem stable from a bony standpoint (type A) but ligamentous insufficiency would help determine consideration of operative stabilization</li>
+M1: the presence of tension band injury is indeterminate (whether or not MRI was performed); applies to injuries that seem stable from a bony standpoint (type A) but the possibility of ligamentous insufficiency (type B) remains, which would guide consideration of operative stabilization</li>

References changed:

2. Schuld C, Franz S, Bruggerman K, Heutehaus L, Weidner N, Kirshblum SC, Rupp R. International standards for neurological classification of spinal cord injury: impact of the revised worksheet (revision 02/13) on classification performance. (2016) J Spinal Cord Med. 39(5): 504–512. <a href="https://www.tandfonline.com/doi/abs/10.1080/10790268.2016.1180831?journalCode=yscm20"> doi:10.1080/10790268.2016.1180831 </a> - <a href="https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5020584/"> Pubmed</a>
3. Kepler CK, Vaccaro AR, Koerner JD, Dvorak MF, Kandziora F, Rajasekaran S, Aarabi B, Vialle LR, Fehlings MG, Schroeder GD, Reinhold M, Schnake KJ, Bellabarba C, Cumhur Öner F. Reliability analysis of the AOSpine thoracolumbar spine injury classification system by a worldwide group of naïve spinal surgeons. (2016) European spine journal : official publication of the European Spine Society, the European Spinal Deformity Society, and the European Section of the Cervical Spine Research Society. 25 (4): 1082-6. <a href="https://doi.org/10.1007/s00586-015-3765-9">doi:10.1007/s00586-015-3765-9</a> - <a href="https://www.ncbi.nlm.nih.gov/pubmed/25599849">Pubmed</a>
4. <a href="https://aospine.aofoundation.org/Structure/education/online-education/classifications/Pages/classifications.aspx">AOSpine classification systems.</a> Accessed April 2018

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