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MRI Anatomy of the knee: Quadricep Femoral Tendon

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So on your left, the sagittal water sensitive PD spur.

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T1 fat-weighted anatomy image in the middle,

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and the T2 spin echo on the right.

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I have intentionally provided a scan with

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a little bit of quadriceps inflammation,

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showing exaggerated striations.

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Now these exaggerated striations are related

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to fluid between the interstitial fibrils or the

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insertional fibrils of the subgroups

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that make up the quadriceps.

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So it's a multi-layered structure.

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And what's it made up of?

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The rectus femoris in the front,

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the vastus medialis and lateralis in the mid lateral

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and mid medial portions of the quad.

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And then the VIO,

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the vastus intermedius is the deepest layer.

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So you can separate the layers,

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you can perpendicularly tear a superficial

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layer, like the rectus.

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You can go halfway through or 3/4 full and get 2 or 3 layers,

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or you could get the whole thing in which case it retracts,

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you can tear it and separate it here.

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You can take a piece of bone with it,

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and the striated appearance is very apparent

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down low as you approach the patella.

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Now, the continuation of the quadriceps across the

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patella is seen, perhaps better, as the union of

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the pre-patellar plate and the cortex in front.

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You've already learned that there are three separate bursa layers

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here that can lead to fascial degloving

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or Morel-Lavallée syndrome.

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Patient has a small traction spur anteriorly.

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Now, what is continuing over the patella ee articulated earlier

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is just the rectus layer or the most superficial layer.

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The deeper layers, namely the VMO, the VLO,

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and the VIO drop out.

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Then this continues on as the patellar tendon,

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which has a slight slope from anterosuperior

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to posteroinferior. Therefore, it's prone to magic angle effect

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or in other words, higher signal on short TE sequences

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that go away on the T2-weighted image

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or if the patellar tendon is a little wavy at each site

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where there's a little wave,

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the tendon may appear a little bit gray.

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Then it inserts on the tibial tubercle.

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Above, we see the reflected fat pad,

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which is a site of potential impingement.

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We have an infrapatellar fat pad,

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which is another site of potential impingement.

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We'll teach you a little bit later on how to use the PD spur,

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the T1 and the T2 to recognize

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and to properly named abnormalities

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of all tendons.

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But especially the quadriceps tendon.

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Let me turn my attention with you now to the axial projection.

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I'm up above the patella, right near the insertion

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and now we see vertical striations.

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And this is common

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and the interdigitation between the rectus femoris,

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the VIO,

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the VMO and the VLO, is not so apparent

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as it is in the sagittal projection.

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But you could tear on one side or the other side,

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you could tear partial thickness,

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or full thickness,

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you can tear vertically and separate the tendinous

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way or you could tear horizontally, a so-called

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delamination tear that separates

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the individual muscle bundles.

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The depth of the tear is measured this way.

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The length of a tear of the quadriceps is

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measured this way from side to side.

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So you could,

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you could tear all the way through on this side,

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you would have a full thickness, yet incomplete tear.

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You could have a delamination tear in

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the superficial layer and the mid layer or

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in the deep layer running side to side.

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Now, a little bit more anatomy.

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On the lateral side is the vastus lateralis and the VLO tendon.

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We also have the continuation of the quadriceps as the

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quadriceps retinaculum, which contributes

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to layer 2 of the anterior LCL.

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Let's look at the coronal projection now.

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We're very far anterior and we see the quadriceps

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tendon layering out. In other words,

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fanning out from side to side.

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We see a continuation of it as the lateral quadriceps retinaculum

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merging with the parapatellar retinaculum.

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And although not seen in this projection,

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the vastus lateralis oblique is tendon.

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There you see it again on a more posterior slice.

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The retinaculum and continuation of the quadriceps tendon,

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forming part of the parapatellar retinaculum.

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Remember that the quad contributes to layer two

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of the lateral collateral ligament complex.

Report

Description

Faculty

Stephen J Pomeranz, MD

Chief Medical Officer, ProScan Imaging. Founder, MRI Online

ProScan Imaging

Tags

Trauma

Syndromes

Musculoskeletal (MSK)

MRI

Knee

Iatrogenic

Drug related

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