Post on 07-May-2015
CERVICAL FACET INJURIES
NEW ENGLAND SPINE STUDY GROUP
January 8, 2011
JESSE G. EISLER, MD PhD
Connecticut Back Center
55 yo Male, s/p fall c/o neck pain,no neuro deficits
Treatment:Collar
Followup with flexion/extension views in 2-3 weeks
Goals of TreatmentCervical Spinal Segment
Healed motion segmentStable - mechanically, neurologicallyWell-alignedPainless
55 yo F, fell off golf cartRight elbow dislocationComplaining of neck pain at followup for elbowclosed reductionX-ray showed C5-6 subluxation
What is the next most appropriate imaging study?
1. Flexion-Extension Xrays
2. MRI
3. CT scan
4. Bone Scan
5. No additional Imaging
CT
Negative predictive value:
95% for all spinal injuries
100% for unstable spinal injuries
100% sensitivity when used to view specific areas of suspicion on plain films
Neurosurgery Supplement: 50(3), March 2002(Hadley, Walters, Grabb, Oyesiku, Przbylski, Resnick, Ryken)
Next Step?
1. External Bracing – no additional treatment 2. Immediate closed reduction – no MRI 3. MRI to assess for disc before closed
reduction 4. Immediate Surgery – Anterior approach 5. Immediate Surgery – Posterior approach
Awake Closed ReductionComplete Motor and sensory loss below C6
80 lbs traction
CR Literature Review
50 yr lit review:42 articles (retrospective case series)1200 pts treated with CR in the acute/subacute period
80% had restored anatomic alignment
11 pts/1200 (0.92%) had new permanent neuro deficits(2 root, 2 ascending cord injuries, 7 decreased ASIA scores post reduction with ?
cause )
• 20/1200 (1.7%) had transient deficits (improved after weight reduction/ open reduction)
Causes: overdistraction, noncontiguos lesion, disc herniation, epidural
hematoma, spinal cord edema
Food for Thought!(Awake CR)
Rizzolo (Spine 1991): 55 prereduction MRI:
54% incidence of hnp! No neuro comp in awake and alert pts who had CR
Grant (J Neurosurg 1999): 80 pts post-reduction MRI:
46 % had hnp No coorelation with outcome!
Vaccaro (Spine 1999): 11 pts, mri pre-post reduction MRI:
HNP 2 pre 5/9 post sucessful CR MRI did not predict neuro deterioration!
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Unilateral Facet Dislocation C5/6 Immediate MRI ? Immediate Traction ? Immediate Operative Reduction ?
14
Unilateral Facet Dislocation C5/6 Immediate MRI - Is this possible at most centers ? Immediate ORIF - Is this possible at most centers ? GW tongs & traction can occur quickly at most hospitals
15
Unilateral Facet Dislocation C5/6:Immediate TractionThe real questions are is it safe to reduce the dislocation before you get MRI or should you wait ?
Is it better just to wait and fix them in OR ?
Do you go anterior or posterior ?
16
Literature Review Immediate Closed Reduction of Cervical Spine
Dislocations Using Traction. Star , Jones, Cotler, Balderson, Sinha. Spine 15 1068-72, 1990.
Bottom line closed reduction is safe when patients can undergo serial exams
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Literature ReviewExtrusion of an Intervertebral Disc Associated with
Traumatic Suluxation or Dislocation of Cervical Facets. Eismont, Arena, Green. JBJS 73A 1555-1560, 1991.
Raises question Should MRI be done on every patient prior to reduction ?
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Literature ReviewMRI Evaluation of the Intervertebral Disc, Spinal
Ligaments, and Spinal Cord Before and After Closed Reduction Of Cervical Spine Dislocations. Vaccaro, Falatyn, Flanders, Balderson, Northrup, Cotler. Spine 24 1210-1217, 1999.
Demonstrated 56% incidence of disk herniation after reduction
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Immediate Closed Reduction Allows spinal realignment to occur quick indirect neuro decompression Literature demonstrates safety in awake alert patients
Next Step?(after releasing traction & return to baseline neuro status)
1. External Bracing – no additional treatment
2. MRI
4. Immediate Surgery – Anterior approach
5. Immediate Surgery – Posterior approach
MRILarge Anterior Disk
Take-Home Recommendations
If CR fails there is a higher incidence of anatomic obstacles (facet fx/HNP)
These patients should undergo MRI prior to open reduction
Disc herniation in this setting is an indication for anterior decompression prior to reduction
MRI in patients who can’t be examined for neuro deterioration !
Next Step?
1. External Bracing – no additional treatment
2. Immediate Surgery – Anterior approach
3. Immediate Surgery – Posterior approach
Facet Dislocations:Why Operate? Closed Management
50 yr lit review: 28 articles, 701 pts
26% (181/701 pts) failed to achieve reduction with craniocervical traction
Reduction when accomplished could not be maintained in 28% (112/ 393 pts) treated with external immobilization
No differences in success rates of closed reduction and maintaining alignment in UFC or BFD injuries
Malalignment = Pain
Anterior Surgery
Is Additional Posterior Surgery Necessary?1. Yes
2. No
67 yo Male, s/p Motorcycle Crash
● Retired postal worker on motorcycle trip, lost control of bike
● Right open tibia fracture, s/p External Fixator● Right distal humerus fracture s/p ORIF● C5-6 facet/lamina fracture
TREATMENT OPTIONS:O
NON-OPERATIVECOLLARHALO
OPERATIVEPOSTERIOR INSTRUMENTATIONANTERIOR
CERVICAL ORTHOSIS
REHAB HOSPITAL
Neurological exam
● Left C6 motor and sensory deficits● No spinal cord injury
TREATMENT OPTIONSMORE IMAGING
CLOSED REDUCTION
SURGICAL APPROACH
Cervical Cervical ReductionsReductions
Reduction < 8 hrs Reduction < 8 hrs post injury-NApost injury-NAIndirect Indirect decompression of the decompression of the Spinal CordSpinal CordGreater Neuro Greater Neuro recovery compared to recovery compared to age, injury matched age, injury matched controlscontrols
Treatment OptionsSurgicalAnteriorDisc presentPlate
Posterior (+/-) Post-closed reduction
Wires/plates
Non-surgicalNo/ minimal root findings
MRI: (+) disc integrity
Reduction NOT NEC
• Halo• Posterior fusion with wiring• Posterior fusion with lateral
mass fixation• Posterior fusion with
pedicle screws• Anterior fusion with plating.• Anterior and posterior
fusion with fixation
Treatment Options
Treatment
● Awake closed reduction with traction using Barton tongs- 40-50lbs.
● Surgical fixation , C5-6 posterior instrumentation, unilateral and C5-6 ACDF
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Classification of Subaxial Cervical Spine Injuries
1.1. OTAOTA2.2. AOAO3.3. Allen-FergusonAllen-Ferguson4.4. CSISS – Cervical CSISS – Cervical
Spine Injury Severity Spine Injury Severity ScaleScale
5.5. SLIC – Subaxial SLIC – Subaxial Cervical Spine Injury Cervical Spine Injury Classification SystemClassification System
Sub-Axial Cervical SpineSub-Axial Cervical Spine
• Allen and Ferguson• Mechanistic
• Static radiographs
• Seven categories• Position of spine • Dominant load to failure• Graduated increments of
tissue failure
• 24 different classifiers
Allen, Ferguson Spine 1982.
Sub-Axial Cervical SpineSub-Axial Cervical Spine
• AO• Mechanistic• Type A
• Compressive
• Type B• Flex/Ext Distraction
• Type C• Rotation
AOAO Type AType A
CompressionCompressionType I – Anterior Type I – Anterior CompressionCompression
Type II – Comminuted Type II – Comminuted FracturesFractures
Type III – Teardrop Type III – Teardrop FracturesFractures
No translationNo translation
No rotationNo rotation No ligamentous injuryNo ligamentous injury
II
III
AO
Type BFlex/Ext Distraction I – Moderate Strain II – Severe Strain III – Bilateral Fracture Dislocation
III
AOAO
Type CRotational injury I – Unilateral facet
fracture II – Fracture
separation of the articular pillar
III – Unilateral facet dislocation
III
II
White & Panjabi Instability ScoreWhite & Panjabi Instability Score
Points
Anterior Element Destruction
Posterior Element Destruction
2
2
Translation > 3.5 mm
Rotation > 11°
2
2
+ Stretch Test
Cord Injury
2
2
Root Injury
Disk Narrowed
1
1
Anticipated Loads 1
5 points = unstable
White, Panjabi, 1990
Sub-Axial Cervical TraumaSub-Axial Cervical Trauma• Sub-axiaL Cervical Spine Injury
Classification (“SLIC”)
SLICSLIC• Three Major
Components
• Injury Morphology• Compression
• Distraction
• Translation/Rotation
• Discoligamentous Status
• Neurological Status
Injury Morphology
Points
Compression
- Burst
1
1
Distraction 3
Translation/
Rotation
4
Total Injury Morphology
Max 4
SLICSLIC• Three Major
Components
• Injury Morphology• Compression
• Distraction
• Translation/Rotation
• Discoligamentous Status
• Neurological Status
DLC status Points
Intact 0
Indeterminate 1
Disrupted 2
Total DLC Score Max 2
SLICSLIC• Three Major
Components
• Injury Morphology• Compression
• Distraction
• Translation/Rotation
• Discoligamentous Status
• Neurological Status
Neurologic Status Points
Intact 0
Nerve Root Deficit 1
Complete Spinal Cord
2
Incomplete Spinal Cord
3
Add-on:Persistent compression or stenosis with neuro deficit
1
Total Neurologic Score
Max 4
SLICInjury Morphology Points
Compression
- Burst
1
2
Distraction 3
Translation/
Rotation
4
Total Injury Morphology
Max 4
DLC status Points
Intact 0
Indeterminate 1
Disrupted 2
Total DLC Score Max 2
Neurologic Status Points
Intact 0
Nerve Root Deficit 1
Complete Spinal Cord 2
Incomplete Spinal Cord 3
Add-on:
Persistent compression or stenosis with SCI
1
Total Neurologic Score Max 4
SLIC Recommended SLIC Recommended TreatmentTreatment
• Score > 4 OperativeScore > 4 Operative• Score < 4 Non-Score < 4 Non-
operativeoperative
Vaccaro et al Spine. 2007
SLICSLIC C6/7 unilateral dislocationC7 root injury
• Morphology• Translation 4 pts
• DLC• Disrupted 2 pts
• Neurological Status• Root injury 1 pt
Total Score: 7 pts
Operative Treatment
SLIC Treatment Threshold
Assign Points
Conservative Surgery
< 4 points > 4 points