Interactive Transcript
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This next case is, uh, pretty interesting.
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I'll show you the p CT tests, uh, afterward
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and then show you the post CT test as well.
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This is somebody who has a very high risk, uh, CT in
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that they recently had an inferior stemi.
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So STEMI stands for ST elevation mi,
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meaning there was a transmural infarct enough
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that the depolarization manifest on the, uh, ST segments.
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So there was already an mi.
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So no matter what the CT shows
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that it's not gonna be negative
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and it needs to be treated with Kid GLO care.
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This is referred by a, an expert cardiologist.
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They needed help. And I'll explain why
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after we review calcium score is not gonna change anything,
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but it is gonna confirm we have a ton of disease
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and some atic vessels, they said inferior stemi.
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So that should localize to the RCA territory
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'cause we already know he is right dominant.
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So, um, if you saw anything on just this first axial review,
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you saw the findings, but let's go back and do it slowly.
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So, right coronary artery, osteo patent, lots of disease,
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lots of disease, looks like an occluded
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or a severely stenotic segment.
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And then coming down here, it's getting really tight,
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probably occluded, and it's a very long segment.
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So I don't know how else
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to explain such a long segment other than it's
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an occluded artery.
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And then I'll just quickly go through the left main plaque,
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but not real stenosis,
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maybe some mild borderline moderate LED.
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There's a bridge. Those aren't any crime.
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Uh, it's not the worst bridge, but it's long.
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And how about this?
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So the circumflex, non-dominant, decent vessel.
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So this patient, by the way,
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should have some revealing functional information.
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So we just saw with our own eyes
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and heard with history that there was an mi uh,
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that affected the inferior wall.
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Not that impressive of, of a wall thickness, though.
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I'm, I'm actually surprised at how
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it's not completely an aneurysm
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and it's, there's still some myocardium left.
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So there must be lots of robust collaterals.
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And remember, this is a resting ct,
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but let's just look at the function.
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So, um, beautiful example of inferior wall hypokinesis,
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which matches the territory.
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So we've tipped all the way down the ischemic cascade.
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This is a resting wall motion abnormality.
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So it's more than likely an MI myocardial infarction.
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It's probably a sub endocardial myocardial infarction.
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Now, the month
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before the ct, there was an outside angiogram, uh,
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and I don't seem to be able to retrieve that.
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Uh, but this patient is now, um, stable,
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comes in as an outpatient.
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And let's look at the C-T-F-F-R.
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So the goal of this would be, just to clarify,
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is there any second lesion in the left
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that might warrant treatment?
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If they're gonna go after the, uh, RCA, now
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this vendor is, um, FDA approved
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to look at stenosis but not occlusion.
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And you can see there's an RCA occlusion.
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So they don't model that they thought it was artifact.
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It's just occlusion. But what we have here is the LED.
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And there is kind of a gradual transition.
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So while this does get into the positive range,
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I don't see a focal lesion.
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So if I were doing this catheterization, I would expect
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to not find a focal disease
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and probably not needing to be treating the, uh,
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left side at all these distal small things, uh,
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without a focal, even in the circumflex branches.
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No big deal. So let's move on
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and look at the invasive angiogram if we can find it.
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I think the history actually said on the ct they were unable
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to successfully cannulate the right coronary artery at the
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outside hospital, or at least they couldn't get
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a wire down and stented.
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So they wanted to know the clinical targeted question
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of the CT was, is the vessel patent?
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And our answer is no.
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Um, you know, we did a little talking about, um,
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CTO planning.
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This is just one view.
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I, I won't, uh, go too crazy with it,
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but you can see this long.
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So there's some stenosis
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and then there's a long segment of a occlusion.
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There's some calcium, right? So there's a lot of bending.
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Uh, there's a long segment
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and there is probably, maybe a better way to show it.
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We'll just go back to the source.
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Um, if I look at the entry point, it's tapered.
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It's not abrupt. So that's a good sign.
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The tortuosity a bad sign.
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The length I think is longer than it's a long segment.
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Uh, really all the way down into the distal, um,
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branches into the PLV and the PDA.
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So bad long segment, bad rim calcification, uh,
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bad tortuosity, good that it's not calcified in the center.
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Good that it's got a tapered lesion.
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So I probably think you could wire this,
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but it'll maybe take a, uh, intermediate amount of time.
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So here's our cardiac catheterization.
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Um, and I'll, I'll point out actually
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before I even get to the cath.
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The, they start these procedures knowing there's a chronic
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total occlusion, they often cannulate both the left
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and the right coronary artery.
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So that's why you have two, this is kind
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of animating quickly, but, um, bilateral cath simultaneously
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because you have to pacify left
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and right to find the, get the collateral flow.
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Um, and so what you see is what we saw on the CTA, which is
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that there's a long, um, patent but tortuous segment
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and then it kind of becomes an occlusion.
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Um, and without getting, um, these things can take all day
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to get tough cases.
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Uh, but you'll see, um, that they were able
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to get some contrast through the, uh,
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acute marginal branches of the right ventricle.
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They injected the left.
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Um, so here's a wire into the, uh, RCA stenosis
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and here's the LAD.
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So no focal things, very tortuous, lot of careful wiring
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and, um, high skill level cath.
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I'm just gonna go right
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and you can see it really was a lot of work
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to get across this, but there's a stent deployed in
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that distal SCA and look at that beautiful result.
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But these things amaze me
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because sometimes I, I look at the CT
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and think, how could anyone push a six foot wire
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and carefully do that? But here's
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Your final result.
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Um, a lot of forward flow.
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Uh, and on this last one, you see the stent is patent
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and there's your PDA and your PLV, uh, so amazing.
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Uh, they were able to restore flow
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and not an unreasonable thing to do.
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There was an mi but there was still viable tissue.
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Uh, we were able
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to spare the patient a I don't even know if you could do a
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bypass surgery 'cause there wouldn't be great targets,
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uh, and flow restored.
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So hopefully the ischemic symptoms resolve.
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But, uh, a nice example of a total occlusion.
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I don't believe that this could be considered a chronic
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total occlusion based on the timeframe, but it
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nonetheless, a, a total occlusion with a, uh, very difficult
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but successful revascularization.