Interactive Transcript
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Okay, this is a very spry octogenarian
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who came to the CT
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after an invasive coronary angiogram, which was done
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for very targeted reasons.
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And it's two reasons.
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Number one, to plan some, uh, coronary imaging
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to clarify a degree of stenosis
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and calcium at the site of an occlusion.
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And also to look at the peripheral access.
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So when they do a situation like this
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where it would be considered a high risk
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PCI percutaneous coronary intervention, um,
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just like in the other cases we talked about, it's helpful
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to know how calcified things are.
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Uh, they already know that there's gonna be some severe
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stenosis in the LED.
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So it's more about describing the lesion, seeing how much
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of it is calcified, how long the segment of occlusion is,
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if there's an occlusion, uh, and giving a roadmap.
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Uh, and that's certainly easy enough to do.
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In a way it's the easiest job
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because we already have the prior angiogram.
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In fact, the angiogram in this case was done, um,
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just the month before.
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And before I show you that, uh, I just wanted
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to show you the importance of getting a proper CT angiogram
1:11
of the, uh, chest avenue and pelvis.
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And what you're really looking for in this case,
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they also want to do, uh, balloon, uh, pump support
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or, um, they might be thinking of doing something called,
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um, a device, um,
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which is basically like a left ventricular assist device,
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but via a catheter.
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But the, um, the blood is sucked out of the left ventricle
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through a rotating tubular, uh, pump
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and then out into the aorta.
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So what you can do there then is cross the aortic valve,
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offload the left ventricle
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by doing, managing the forward flow.
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And that, um, relaxes the demand for blood so
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that if you do inflate a balloon and occlude the left main
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or the LAD something proximal, you don't stress the heart
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because they're, the heart's not
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working to pump blood forward.
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Just the opposite. You've rested the heart.
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So, um, for one of these reasons, they've done that.
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And you can also just happen to see a little bit
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of fatty metaplasia and the seven endocardial
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interceptive wall here.
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So an old mi uh, certainly not a surprise.
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Uh, and if you're gonna do this, uh, planning to look
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for the, um, the device,
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the device is about five millimeters, so you wanna make sure
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that there's no segment throughout the, um, chest, abdomen,
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or pelvis into the iliac access
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that is smaller than five millimeters.
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And you also wanna warn them about really acute
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angulation or tortuosity.
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Nothing terrible here.
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Um, so nothing that I see,
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and I'm not gonna measure it in front of you,
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but you could certainly get your calipers out.
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And we do, when we read these, make sure
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that if there is a stenosis that looks tight, just
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to make sure it's not less than five millimeters so
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that the catheter can go from the groin up into the heart.
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So that part looks widely successful.
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Um, and then of course,
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you can do your mapping views like we did before.
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So there's that tight LED stenosis.
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Um, and we can look at the lesion characteristics.
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There's, uh, some calcium before and after it, and
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Then we can look at the invasive angiogram.
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Okay, so here's the invasive angiogram.
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Loading up and remembering that this happened
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before the CT angiogram.
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It's actually kind of an occlusion of the LEDI see, uh,
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collateral vessels.
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I see the circumflex,
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but I, the LED ought to be right around here.
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Let's take another look. You can see it's just kinda absent.
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That looks like a large, uh, septal perforator to me.
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So really kinda absent LED.
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So what on the CT is difficult
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to distinguish from stenosis, from occlusion?
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Uh, we can tell by that forward flow in the catheterization
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that there's a, a total occlusion.
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Now, one thing that can help us clarify that is, uh, knowing
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what the anatomy looks like normally.
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And so in this view, this is the lateral wall.
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This is, um, septal perforators.
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The LED should be coming down straight at us.
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Um, another thing that can help you is if you look late in
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the runs on the contralateral injection, in this case,
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you're looking at the RCA injected
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and late filling in retrograde.
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From right to left collaterals is the filling
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of the distal LED,
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which I didn't see on the integrated injection.
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So a really nice example of a chronic total occlusion,
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partly supplied by collaterals
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and the complementary role of CT
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and, uh, catheter angiography.
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In this case, we can augment the confidence
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that this is a calcified stenosis,
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so it's gonna be a difficult, uh,
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antegrade wiring of this vessel.
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And of course, we would measure the angulation,
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show the number of branches, uh, talk about the,
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the stump approximately
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and how much calcium, how many bends,
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and, uh, any other features that we wanna note for risk.
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And we also talked about the use of,
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looks like not an issue in this case,
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but when they go to the intervention, just make sure
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that every vessel segment between the heart
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and the groin have at least five millimeters of diameter.