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Wk 5, Case 4 - Review

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The first case we're going to tackle is an 18

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18-year-old woman with a chronic wound following

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a Lisfranc ligament repair, and now she's

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complaining of increased drainage and pain.

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This is one of the more common

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problems that MRI has asked to solve.

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One of the reasons why I wanted to show it

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is because it's a problem that MRI can solve

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in a way that no other modality can solve.

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And that is with a very high level of sensitivity

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and a very high level of specificity and an

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almost 100 percent negative predictive value.

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And what I mean by that is, if you perform a

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STIR or a water-weighted MRI, a SPUR, a SPARE

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a special, a STIR something fat suppressed.

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If there's no edema in the bone, it is

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impossible, scientifically impossible,

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for the patient to have osteomyelitis.

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So that's it.

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That's an excellent rule out.

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So the water-weighted image is to

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guide you as it relates to sensitivity.

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But in terms of specificity, we all

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know that lots of things can produce

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edema and bone contusions tumors.

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Inflammatory reactions such as RA, juxta

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articular osteoedema is very common in RA, but

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very few things will actually destroy bone.

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In other words, reduce the cortex and

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the architecture of the bone to nothing.

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You can see that has happened here on the T1

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weighted image, and it's the T1-weighted image

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that you use to decide what that edema is from.

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So you're looking at the zone of transition,

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which for the most part is actually pretty narrow.

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For instance, look at this tract

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where they did a Lisfranc repair.

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Um, this is a tract for a fixation

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device for anchors, uh, and suture anchors.

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And it's got a pretty sharp sclerotic

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edge, so it doesn't look that disturbing.

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Now, most people know that do this for

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a living, when you take a screw or a

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bioresorbable anchor, you put it in,

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it is resorbed within 6 to 9 months.

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And what goes into that spot,

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what goes into that spot is fat.

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So unless you knew how old this

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was, this alone is not a problem.

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It might get your attention because it's

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very fluid-like, but it's not a problem.

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Now, the fact that there is

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extensive edema throughout the base of

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the first metacarpal, sorry, metatarsal.

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That is a huge problem.

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There's, there's no explanation for that.

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So that should at least worry you.

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And then when you look at the, the, um, more

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distal images, you know, when you think of

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somebody who's had, say, a fixation device put

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into anything, whether it's a shoulder or the

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knee, it's going to look something like this.

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It's going to be an anchor.

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It may be bullet-shaped.

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It may have screws associated with it,

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with threads, but it doesn't look round.

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Nothing that you put in the

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extremity is going to look round.

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So now when you go and look at this anchor

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right here, there is a floating area

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of anchor tissue and suture material.

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And here it is.

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And even though you do have a pretty sharp

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edge to it, it's too big and it just blows

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its way out into the soft tissues and enters

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the subcutaneous area where it is draining.

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So the history is supportive.

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The shape of the lesion is supportive.

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There's no other explanation that you

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could give, uh, that would explain this

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widening that you have here a hemorrhage.

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First of all, it's not the signal of blood.

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Lymph wouldn't do that.

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An epidermoid.

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Well, that would be a very unusual diagnosis.

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It wouldn't explain the drainage of this patient.

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It's also not a great shape for an

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epidermoid, which is almost never

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round and more often lobulated.

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So you're really left with no, no other diagnosis

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other than an abscess at the operative site.

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Now let's look at the short-axis projection.

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This is a scout.

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Let's put up the short-axis T2, and I

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really don't use a lot of T2 imaging

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for infection, but I'll tell you where it

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comes in extremely handy when the entire

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extremity is just an unmitigated mess.

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You know, you have a Charcot foot.

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You have massive trauma.

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You're trying to sort out an osteo.

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There are very few things that are

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going to be bright on a T2, on a

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regular T2 without fat suppression.

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Only things with extreme swelling

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or extreme fluid collections.

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So in a Charcot foot, which this is not, by

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the way, the foot will turn very dark from

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the sclerosis and the reactive bone formation.

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Whereas an abscess.

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will stick out or destructive

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osteomyelitis will stick out.

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So this is an abscess, and you can appreciate

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how the abscess has blown into the soft tissues.

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It is the source of drainage into the skin.

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So the T2 simply reaffirms

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what we already knew.

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Now we have another problem, and that is

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our abscess is not just in the in the

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first. It's gone into the cuneiform.

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It's gone into the base of the

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second, and it also has some floating

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anchor and suture material in it.

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So we have actually two bones

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that are affected by this process.

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And we have two drain its sites.

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We have one drain its site over here that

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may or may not be going through to the skin.

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We have another drain its site that

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is clearly going through to the skin.

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So, you know, resection is not really an option.

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What are the options for this young girl?

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The options are, of course, antibiotics,

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but they're going to have to put direct at

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they're going to have to bathe this, take

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everything out, lavage the holes or the tracks.

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They're going to have to put antibiotic beads

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in after they lavage it with antibiotics.

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And then this patient is going to have to

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be on IV antibiotics for somewhere between

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eight and 20 weeks with a PICC line.

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Now I want to show you, I'll

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put up the T1 one more time.

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And you can see just how irregular, uh, this

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abscess is and how it has a sclerotic edge,

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which is, which indicates a high degree

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of, of chronicity associated with this.

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This is not your typical osteomyelitis.

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However, this is one that's more

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chronic that is dominated by an abscess.

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And let me show you one that is

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more typical of an osteomyelitis.

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First of all, when you have osteomyelitis,

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especially with typical organisms,

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it looks like a bomb went off.

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And here's what I mean.

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So this is a different patient, and I don't

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think the history really matters here.

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So I'm going to put up, um, the

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sagittal water weighted image.

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We'll start with the first, then the second.

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There's, by the way, your plantar plate.

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Just beautiful.

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There it is right there.

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This curvilinear black thing

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right there is the plantar plate.

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Let's keep going, shall we?

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We're in the third now and now we're in

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the fourth and now we're in the fifth.

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So the fourth looks a little

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bit swollen there, doesn't it?

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Let's keep looking.

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Shall we?

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Let's go to a long axis view.

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So this patient has diffuse soft tissue swelling.

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Let's look at the fourth.

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There was a little bit of edema on

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one of the water weighted sequences.

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This was a patient with

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cellulitis rule out osteomyelitis.

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The T1 weighted image is negative.

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The remaining water weighted sequences

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are negative, and the patient has diffuse

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interstitial swelling of the soft tissues.

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So this is one where osteomyelitis was suspected,

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but not found, and you could easily as part of

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your practice, just perform a T1 weighted image.

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Now, the only reason to perform more

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than a T1 weighted image would be to

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sort of isolate an abscess for biopsy.

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But look at this ulcer right here.

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You can see how close it is to the

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bone of the fourth right there.

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Now it doesn't invade the fourth.

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It doesn't destroy the bone.

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So this one you could say, does not yet have bone.

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osteomyelitis.

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One other comment I'll make is when you have

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osteomyelitis, the bone is almost almost erased.

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you'll completely lose the cortex of the bone.

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So you actually will not see the

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cortical outline of bone at all.

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So you'll actually see gray signal intensity,

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replace the architecture of the bone and

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it'll look like the bone is completely erased.

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Do you need a water weighted

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image to assess bone marrow edema?

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You do need a water weighted

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image to assess bone marrow edema.

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But I was making the point that if you wanted

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to do a tailored five-minute examination

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rule out osteo, you could do a T one weighted

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image and that would give you the answer.

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If you see nothing on the T one, it's not osteo.

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Now that doesn't mean you couldn't have a

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stress injury or some other stress phenomenon.

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And, um, so every, every MR of

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the extremity always includes.

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Um, a water weighted image and not.

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A T2.

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Now you can include a T2, but the guts of

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orthopedic MRI is the proton density fat

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suppression image with a TE between 40 and 50.

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Now a common mistake is to make that TE 20.

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It's called proton density fat set.

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So when you think of proton density,

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you think long TR, short TE.

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You don't want the TE too short.

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Because that affects your tissue contrast.

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You want the T right about 45 at 1.

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5 T is the sweet spot, 50 at 3 T.

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And if you go much beyond that, now

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you're into T2 imaging and you're going

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to be less sensitive to shifts in water.

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So, every standard orthopedic MRI

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has a proton density, fat set.

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Proton density spur, spare, special, they all

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mean the same thing, and everyone has a T1.

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T2s are optional, but they usually are

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included on most orthopedic MR studies.

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Bone marrow edema is best seen on proton

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density fat suppression imaging.

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It is the detector sequence.

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The T1 is the specificity sequence.

Report

Patient History
18-year-old female with a chronic wound following Lisfranc ligament repair with graft, now complaining of increased drainage and pain.

Findings
Skeletal/osseous:
Evidence for previous C1 M2 Lisfranc ligament repair. Graft severely attenuated. Fluid intensity material within the medial cuneiform surgical tract, along the region of the severely attenuated graft and proximal 2nd metatarsal surgical tract. Cortical/osseous erosion surrounding the surgical graft/surgical site (involving the proximal 2nd metatarsal, base of 1st metatarsal and medial cuneiform). Extensive osteoedema throughout the proximal to mid 1st metatarsal, medial cuneiform, proximal to mid 2nd metatarsal, intermediate cuneiform. Exuberant periosteal reaction involving the proximal shaft of the 2nd metatarsal. No subperiosteal abscess.

Articulations:
Unremarkable.

Lisfranc joint:
Status post previous C1 M2 Lisfranc ligament repair as described above. Markedly attenuated infected graft, with diffuse periligamentous edema/fluid signal.

Tendons:
The partially imaged flexor digitorum longus and flexor hallucis longus tendons are unremarkable in appearance. No evidence for flexor tenosynovitis. Extensor tendon of the 2nd digit is mildly displaced by the adjacent phlegmonous soft tissue mass, without associated tenosynovitis. The remaining extensor tendons are intact and unremarkable in appearance. No tenosynovial sheath effusion or abscess.

Ligaments:
Noncontributory.

Plantar plates:
Intact.

Soft tissues:
2.2 x 0.9 cm dorsal subcutaneous midfoot abscess/phlegmon with a communicating sinus tract connecting with the infected Lisfranc ligament repair site. The midfoot abscess/phlegmon is immediately superficial to the extensor tendons (extensor hallucis longus and 2nd extensor digitorum tendon). A sinus tract is seen extending from the medial cuneiform into the deep subcutaneous tissues of the medial midfoot.
No bulky Morton neuroma. Reactive 1st intermetatarsal space bursal thickening with a small effusion. Nominal reactive 2nd intermetatarsal space bursal thickening.
Other:
Edema of the muscles surrounding the proximal 2nd metatarsal.

Impressions
1. Status post previous C1 M2 Lisfranc ligament repair with infected graft/surgical site and surrounding PERIGRAFT osteomyelitis (involving the proximal 2nd metatarsal, lateral base of the 1st metatarsal, and medial cuneiform). No evidence for graft incorporation (graft failure).
2. Inflammatory phlegmon/abscess formation dorsal subcutaneous tissue with a sinus tract/tail to the Lisfranc joint. Recommend fluid aspiration/analysis.
3. Sinus tract/involucrum medial cuneiform.

Case Discussion

Faculty

Stephen J Pomeranz, MD

Chief Medical Officer, ProScan Imaging. Founder, MRI Online

ProScan Imaging

Todd D. Greenberg, MD

Radiologist

ProScan

Tags

Musculoskeletal (MSK)

MRI

Foot & Ankle

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