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Discoid Meniscus

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We have a teenager here with lateral knee

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pain, and one of the most common reasons

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for lateral knee pain is a discoid meniscus.

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There's stuff out there that says, okay,

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you need to count the number of bow ties on

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the lateral view, make sure it's not more

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than four, or look at the measurement of

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the body on the coronal view to make sure

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that it's not bigger than 11 millimeters.

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But sometimes that becomes a little

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problematic in the pediatric population,

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because one, it may be a small knee, and

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the 11 millimeter rule may not apply.

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Oftentimes, we're getting slice thicknesses that

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are much smaller than the typical 4 millimeters.

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So counting bow ties and saying a

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cutoff of 4 may not be relevant when

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your slice thicknesses are so thin.

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It may be 6, 7, 8.

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So I don't like to use that rule.

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I like to look at the shape of the meniscus.

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And I want to, when I do that, I get a better

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idea, an overall idea of what's going on.

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I want to see how much

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encroachment there is of that body,

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close to the intercondylar notch,

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and I compare it to the other side.

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That's something I like to think about when

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I look at the shape of the menisci.

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Rule number one, the posterior horn,

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here, should always be at least the same

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size or bigger than the anterior horn.

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So let's go to the other

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side to give you that clue.

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So the posterior horn is at least as

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big or bigger than the anterior horn.

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Okay.

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Rule number two, when we look at the

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meniscus, there should be no

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high signal that extends to an articular

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surface that would indicate a tear.

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And finally, if we have the meniscus and

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we're suspecting some kind of injury,

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there should be at least on one slice some

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attachment of that posterior meniscus to

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the capsule, which is known as the tear.

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Posterior meniscus capsular ligaments,

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or coronary ligaments, depending

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on what literature you use.

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So, as I look at this, on the

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lateral side, I see that, in fact,

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it's a different shape, isn't it?

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It's a more globular shape, it doesn't have

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a clear demarcation, uh, where there's a

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nice triangle posteriorly, uh, and nice

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triangle anteriorly, but there is still

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maintenance of attachments to the capsule.

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So this is a discoid meniscus.

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Now I said, I look at the shape.

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The best way to look at the shape

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is actually on the axial projection.

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If you take a conventional axial projection,

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for example, something like this, fat suppressed

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fluid sensitive sequence, and we get to the

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level of the meniscus, it's hard to see where

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exactly that meniscus is, because the slice

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thicknesses are so big, and the plane at which

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you are imaging the meniscus, if you look at the

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sort of image over here, this reference line.

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It doesn't go through the entire

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meniscus in the plane that you want.

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So because of these limitations, I like to

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reconstruct my own images for the meniscus.

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So for that, I'm going to go to one on one and

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I'm going to bring down my thinnest slices.

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My thinnest slice is going to be

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this one, which is a sagittal desk.

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Okay.

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Now I'm going to take this image and

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reconstruct it such that My axial plane

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goes right through that meniscus, okay?

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For that, I'm going to go on to and hit

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this little triangle on the right, and

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I'm going to say 4 on 1, and that will

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automatically generate these orthogonal images.

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So, it doesn't help to have

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conventional axial and sagittals.

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What I want is an image that I can define

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that goes right through my area of interest.

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So, I'm going to look right over here.

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So, I'm going to orient this

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such that it goes like this.

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And put it right here on that meniscus.

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So on the coronal plane, it's

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going right through the meniscus.

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Now let's go to the sagittal plane.

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On the sagittal plane, it's

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not quite the way I want it.

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I'm going to rotate that just a little bit.

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And now, on both planes, I am going

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right through that meniscus, aren't I?

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So as I scroll back and forth, I'm going

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to zoom in a little bit on this image.

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As I scroll back and forth on here.

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So this actually isn't.

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The C, this one still gives me

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a direct corona, a direct axial.

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What I want is to look at this image.

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This image is a little rotated.

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I'm going to rotate it the way I want it.

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Which is this way.

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And now that's better.

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So, this is the normal side.

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This is the medial side.

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And look at this nice C shape of the meniscus.

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Right?

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Thicker on the posterior aspect.

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Right?

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A little thinner anteriorly.

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You can see the meniscal roots

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very, very well anteriorly.

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Meniscal roots very, very well posteriorly.

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Now let's go to our side that's abnormal.

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And here it is.

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Let's convince you that that is

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in fact what we're looking at.

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Let's go to that side.

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And here's a line right through the meniscus.

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And here's a line right through the meniscus.

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So this indeed is our lateral meniscus.

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Look at the shape of this lateral meniscus.

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I'm going to outline this for you.

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I'm going to zoom it up.

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I'm going to bring it out.

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So here is your meniscus.

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And here are the roots going anteriorly.

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And we can't see the posterior roots very

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well, but this is where it would go through.

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Now look at the shape of that meniscus.

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It's very, very globular.

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That's why we call it a discoid meniscus.

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It should look something like this.

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But this part of it here, persists.

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So what can happen?

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Because it's a, it's an abnormal discoid

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meniscus, you can have, it's more prone to

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being torn, it's more prone to having little

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free fragments come into the intercondylar

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surface over here and cause locking.

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So lots of problems associated with this.

Report

Faculty

Mahesh Thapa, MD, MEd, FAAP

Division Chief of Musculoskeletal Imaging, and Director of Diagnostic Imaging Professor

Seattle Children's & University of Washington

Tags

Pediatrics

Non-infectious Inflammatory

Musculoskeletal (MSK)

MRI

Congenital

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