Interactive Transcript
0:01
Okay, so this next case is a elderly gentleman
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who had a bypass graft years ago.
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Uh, came in for a CTA to look at some symptoms
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and, uh, let's just solve it as an unknown case.
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So just following the vessels
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and you can now see that the lima is off the chest wall.
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There's rema, a little tortuous.
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Um, this might be a nice example of how it's helpful
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to have a volume rendered CTA
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and you can see the tortuosity of these vessels.
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So I certainly like to use that, uh, to follow these vessels
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and just give an overview.
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Usually snapping a few pictures.
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And there's the lima anastomosis with the LED.
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Again, the most common bypass graft,
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it's the most durable patency with arteries.
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So, and that's the easier one to get to the left side.
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Uh, now if I'm gonna follow the additional bypass grafts,
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you're gonna see that there's
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something coming off the aorta.
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So it's an aortal coronary, probably a, a venous graft.
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It's a little bigger. And then I kinda have some trouble
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following this vessel
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because it's in, oh, there's actually two.
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So here's the first graft coming off of the aorta
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and then there's the second one, a short distance below.
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This is another great use for CTA,
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but uh, you can see already I've cut part
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of the upper graft off, but this one is occluded.
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So the more superior oriented graft is patent
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and the more inferiorly is occluded.
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But you're probably noticing what I'm noticing
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and that there's, uh, something wrong
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with even the patent graft.
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But just to illustrate the use of NPRs for this case,
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it's very easy to confuse one for the other.
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So, um, it's nice to make an image
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and maybe even do a maximal intensity projection image.
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But you can see here there's your patent graft
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and there's your occluded stump of a graft.
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Um, but something about this patent graft does not
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looking normal.
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And so when you follow it, you can see here
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that the vessel looks normal and then it becomes very thick.
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And what you're looking at is a saphenous graft aneurysm.
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And so these are venous aneurysms because the veins are used
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and harvested, they become
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arterialized and a little thicker.
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But what is not normal is the presence of an aneurysm.
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And it's important to think of it just like any
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other aneurysm in the body.
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In fact, we know that invasive angiography will undersize
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these because it won't see the walls,
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whereas you can see the uh, um, aneurysm pretty well here.
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Hard to make a volume rendered
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'cause we're looking at the contrast lumen.
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But you can see that giant aneurysm
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surrounding the venous graft here.
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So I'd make sure I'm centered on it.
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I'd get into perpendicular short axis
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and I can do that with using my alternative planes here.
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And I just wanna make sure that one
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of my views is perpendicular.
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So, uh, this is a nice view to make sure.
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And then I can line the other up.
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So now I've got it perpendicular to both planes
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and I'm just gonna measure it,
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making sure I'm not oblique or exaggerating it.
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And so something that's aneurysmal
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the strictest definition is that anything
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that's 1.5 times the reference segment are larger.
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In this case, there's really not a question.
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This is far beyond that.
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So this is a, you know, eight millimeter vessel, but
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It's a 22 millimeter aneurysm.
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So bypass graft aneurysm,
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and I think we just followed this one.
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They can rupture.
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Uh, it's important to, uh, closely follow them, uh,
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or resect them if you have to.
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Or I suppose you could occlude it
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intentionally shut down the flow.
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Just wanna show you also that there's a, uh,
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nice look at the RCA here.
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And this is an occluded native RCA.
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So if I was gonna talk about this,
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I would talk about the lesion length.
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So it's just on the border of a critical, uh,
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subtotal stenosis versus, uh, severe.
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I think I maybe under measured it there,
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so it's probably a total occlusion likely chronic.
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Uh, and then I'm just gonna real quickly look back
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and make sure I don't, I'm not missing
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that there's a bypass graft.
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So Lima, sorry, REMA unused.
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I'm watching this side of the aorta
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and I'm not finding any, I'm seeing a cannulation site,
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but I'm not seeing any bypass graft.
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So unprotected RCA occlusion and we say unprotected
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because there's not a stent
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or a graft that's supplying the arteries.
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So again, uh, saphenous vein graft aneurysm
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in the circumflex graft
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and then occluded, uh, bypass graft
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and occluded native artery.
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So if we were talking about CAD rads,
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I would give a couple of codes here.
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I would say this is a cadrad G.
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So, um, G is indicative of graft.
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I would say that there is a cadrad five meaning occlusion
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since I have at least a good bypass graft occluded in, um,
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I think a second occlusion in the RCA
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and I might put throw a slash e on there for exceptions.
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'cause an aneurysm doesn't really, uh, care about the degree
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of stenosis, but rather the size.
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So interesting case with a, uh, rare
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but not completely uncommon complication
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of a saphenous graft, which is an aneurysm.