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Case: Bilateral Jumped Facets

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Let's look at this patient who suffered a hyperflexion injury.

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When I look at the cervical spine,

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I usually start with the sagittal reconstruction

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of the axial scans.

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And this is because identifying the malalignment and the

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potential compromise of the spinal canal is very important.

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And I might get on the phone with the clinician almost immediately

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if I see the gross offset of the cervical spine.

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So looking at this sagittal scan,

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I'm already on the phone saying, all right, well,

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this is grade two anterolisthesis of C5 with respect to C6.

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Again,

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using the standard nomenclature for spondylolisthesis,

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where one-fourth is grade one,

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one fourth to two-fourths vertebral body

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offset is grade two. One-half to three

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fourths offset is grade three.

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And greater than three fourths offset is grade four.

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So in this case,

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it's greater than one fourth of the vertebral body is offset.

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So, this is likely going to be an unstable fracture.

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As we move off of the midline,

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we come and we see that once again,

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the superior facet of the

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C6 vertebra is posterior to the inferior facet of the C5

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vertebra. This is abnormal. We see that on the normal side,

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the superior facet is anterior to the inferior facet.

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Anterior to the inferior facet, anterior to the inferior facet.

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So this is a jumped facet,

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and you can see that it is associated with a fracture.

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And as we go off to the contralateral side,

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we see that this is a bilateral facet fracture-dislocation.

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In fact, this one's even more offset.

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And in addition to that,

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we have a fracture of the spinous process.

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Now, when it's at the C7 level,

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we call this a clay shoveler's fracture.

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This is at the C5 level,

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and therefore we just call it the spinous process fracture.

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So this is like an unstable injury,

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and let's look at it on the axial scan.

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So I've looked at this sagittal scan,

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I then will go to the thick section axial scans

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in bone and soft tissue windows.

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So, when we're scrolling through here from the C2 level going

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downward, we come across the level of the fracture.

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And this is the displaced dislocated facet.

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And some people have called this the hamburger sign,

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with the facet being displaced and dislocated posteriorly here.

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And it's convex outward on both sides.

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That is, facets are seen to convex outward opposed to each other.

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This will often compromised the neural foramina.

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So if we go off to the neural foramina,

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we don't see that compromised so much on the one side,

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but on the other side,

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we do see that facet encroaching on the neural foramen.

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In addition,

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this patient has the fracture fragment

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on the vertebral body that you saw here.

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And we also saw the spinous process fracture.

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This is in addition to the lamina

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fracture on the left side.

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So this portion of the spine's process has been avulsed

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from the normal position of the spinous process.

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And just as the clay shoveler's fracture

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is a hyperflexion avulsion injury,

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this is likely to be an avulsion injury as well.

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After I've looked at the thick section bones,

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I will then look at the thick section soft tissue windows.

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The thick section soft tissue windows have better signal

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to noise than the thin section soft tissue windows.

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And what I'm looking for here is the presence of epidural

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hematoma or cord injury or potentially

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even cord hemorrhage,

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as well as the incidental findings of head neck masses or

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calcification of the carotid arteries or any

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of the cysts that can occur in the neck.

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So although this is an unstable fracture and quite severe,

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we do not see compromise of the spinal canal,

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at least on the CT scan.

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This is a cervical spine MRI scan of an individual

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who had a cervical spine fracture.

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We're looking at the T2-weighted scan and the STIR image.

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One of the things that should strike you on this case is that

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there is bright signal intensity that's going through the C5

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C6 disc. That is not normal and that's not degenerative.

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That is actually traumatic injury to the disc.

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Not only that,

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but you see that the anterior longitudinal ligament is

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disrupted with this bright signal intensity right at

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that disc level. So this is single-column disease.

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Remember, we have the anterior half of the vertebra and the

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interior longitudinal ligament is one column.

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But this bright signal going across the disc extends past the

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midpoint of the vertebral body into the posterior portion.

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That's the second column injury.

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Not only that,

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but we see this lifted up posterior longitudinal ligament

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here's our posterior longitudinal ligament,

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and then it's lifted up and it's discontinuous

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across the back of C5.

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Another portion of the second column

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injury in this individual.

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As we proceed posteriorly,

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we notice that there is a discontinuity in this

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black line, the so called spinolaminar line,

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and that represents injury to the ligamentum flavum.

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So this is the third column.

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First column, anterior longitudinal

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ligament and the anterior half of the vertebra. Second column,

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posterior half of the vertebra and the spinal,

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the posterior longitudinal ligament.

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And here we have the ligamentum flavum as well as the

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interspinous ligaments, which are showing high signal intensity.

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As you can see, there's absence of good visualization of the

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normal bone of the spinous process.

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And this patient does have a spinous process fracture.

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As we go off to the off-midline,

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we can see the normal articulation

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of the facet joints on the one side.

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And then as we go to the contralateral side, again,

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although there is high signal intensity in the joint,

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the facet joint of the superior facet is anterior to the

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inferior facet. Lots of bright signal intensity in the muscle.

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And this is confirmed on the sagittal T2.

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We look at the sagittal T1 as well, obviously.

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And the sagittal T1 is also useful from the standpoint of

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demonstrating any hematoma. Because often the

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hematoma is bright in the epidural space,

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on the sagittal T1-weighted scan.

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The cord looks fine and there does not appear

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to be an epidural hematoma.

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Now, this,

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by virtue of the three columns involved, is an unstable spine.

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And in point of fact, the shocking fact is that

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that CT scan which showed grade 2 anterolisthesis of C5

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on C6, is the exact same patient as this patient.

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So that instability of the spine was manifested by the anterior

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displacement subsequently of C5 on C6,

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which potentially could injure the spinal cord by that offset.

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So this was the preceding MRI scan showing the ligamentous

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disruption and then subsequently, the patient dislocated

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the facets and the vertebral body anteriorly.

Report

Faculty

David M Yousem, MD, MBA

Professor of Radiology, Vice Chairman and Associate Dean

Johns Hopkins University

Tags

Trauma

Spine

Neuroradiology

MRI

CT

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