Interactive Transcript
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So let's take this same example.
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As you remember, it's a 47-year-old male with chest pain.
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He's had some negative ECG and troponin value workup,
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but we know he has coronary disease
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'cause we saw some calcium on his calcium score.
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So let's take this and use that
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to delve into myocardial and segmental anatomy.
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So this is that c view, uh, kind of a match view
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that you might see in the invasive angiogram,
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but we're worried about a stenosis here.
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And before we go and look at whether we, uh,
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got an invasive angiogram and proved ourselves correct
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or not, uh, let's look at the myocardial function.
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So this is a short axis view
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of the left ventricle of this same patient.
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Uh, a couple of things to point out.
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Um, we are at the mid segment level
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because we see two papillary muscles.
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So if you're more at the basal,
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you won't see papillary muscles.
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And if it's a smaller further apical displacement,
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we won't see the papillary muscles
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and the the ventricle will be smaller.
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Uh, you're also noticing that there's probably some noise,
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uh, apparent to your eye in some phases.
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That's because we used, uh,
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radiation dose protection methods.
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'cause we don't need to have the entire
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scan be super high quality.
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We're really just getting this
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because of the retrospective gating.
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So, uh, the nice thing about the the scan is even though it
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has some noise, we can see all of the myocardial segments
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and at first glance you might
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say, Hey, everything's squeezing.
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This is a nice, um, contracting ventricle.
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Uh, unfortunately it's not.
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And a better way to look at that would be
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to cover up either the bottom or the top half of the heart
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or the from side to side.
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And then look and say, okay, I'm looking at the wall motion.
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And the wall motion, um, can be graded
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as normal Kinesis hypokinesis a kinesis
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or dyskinesis dyskinesis being,
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it's moving the opposite direction
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of the rest of the myocardium.
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So we don't have any kinesis on this slice.
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Uh, and by the way, it's a short axis slice.
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And let's go over some segmental anatomy.
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So, um, this is the anterior, the lateral, the inferior
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and the septal wall spells Alis a LIS.
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So, uh, we're gonna ignore the right ventricle for now.
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Um, and, uh, we're gonna also, I'm just point out
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that you do see a little coronary anatomy on this short axis
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slice at the mid ventricular level.
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That's the left anterior diss descending,
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which lives in the anterior interventricular groove.
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So there's your LAD. And when we look at the segmental
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anatomy, um, we are always gonna use those descriptors,
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so basal mid to apical as our level
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and then anterior lateral inferior septal
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as the segments we're describing.
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And then there's some things in between.
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So if I put my, uh, mouse cursor here, that's the, uh,
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anterolateral segment.
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This is the anter septal.
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Um, this is the infer septal, this is the inferolateral.
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So that, and then the true inferior wall,
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those things matter because they tend to match
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to coronary territories, especially if you know the anatomy.
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And what better to know the anatomy than a cardiac ct.
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So as we look at this, uh, this short axis slice,
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you can see that the anterior wall has normal kinesis.
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Every segment thickens by 50% and translates inward.
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Conversely, if you look at the inferior wall,
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and if it's not apparent, again,
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just cover up the bottom half of the heart
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and then cover up the top and compare.
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There is relative
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Hypokinesis of this inferior wall.
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So if you look here, it doesn't thicken quite by 50%
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and it certainly thickens less than the other segments.
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Uh, as you may know, the inferior wall is supplied
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by the right coronary artery in most patients,
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and certainly in this patient
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who we just saw has a dominant, a right coronary artery.
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It wrapped around the inferior AV groove
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and it then gave rise to posterior descending
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and posterior left ventricular arteries.
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This is the patient's anatomy, a dominant right coronary
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with multiple segments
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and giving rise to the PDA and the PLV.
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So posterior descending artery
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and posterior left ventricular branch.
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You can have left dominance
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where the circumflex stays in the AV groove
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and it supplies these vessels.
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You can have code dominance where one of,
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of each comes from, from both the right and the left.
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So it's really what supplies the inferior
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wall determines dominance.
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So again, we have a right coronary stenosis on a dominant
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right patient, and we have an inferior wall, uh,
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wall motion abnormality.
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By the way, this, uh, I would read this, uh, set of anatomy
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as a 47-year-old male
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with an acute subtotal right coronary artery occlusion.
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We know he is in the emergency department
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and he has inferior wall hypokinesis.
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So he's manifesting in the ventricle some signs of ischemia.
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And what I just showed you is vascular territories.
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So we already know by that example
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that the right coronary artery supplies the inferior wall
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and the left anterior descending wait
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for it supplies the anterior septal.
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So the interseptal walls by the LAD
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and the left circumflex is, uh, in the left AV groove
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and that supplies the lateral wall.
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Now sometimes patients
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with a dominant left artery would also have, instead of RCA,
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be a left circumflex territory
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that extends all the way to the inferior wall.
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The RCA often supplies the, uh, infra septal wall as well.
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So it's pretty simple. Now this is, again,
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a mid ventricular slice,
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but it holds truth throughout the ventricle.
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Obviously. Um, restrictions apply.
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So if you have an anomalous coronary artery,
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then you have to think through that anatomy.
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So it might be that a vessel heading left supplies right.
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If you have strange situations like anomalies, um,
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or if you have lots of collaterals
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and as the complex disease manifests, you can use this basis
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to then sort out what the anatomy might be.
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The uh, other thing about this figure
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that's important is it's not unintentional
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that we've drawn the inner layer to be white here.
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So I'm drawing the vessel territory
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and I'm starting from inner to outer,
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and that's a concept called the ischemic wavefront.
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So when you have the coronary arteries,
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which again live in the epicardial fat,
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the the distal segments are furthest, uh,
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from the supplying artery at the sub endocardial level.
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So an ischemic injury tends to manifest from inward
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to outward, and that's called the ischemic wavefront.
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But the terms you wanna know are sub endocardial,
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meaning it touches just the inner layer,
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mid myocardial or transmural.
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So the degree of transmural extends with the worsening
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of the ischemic injury.
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Um, so what we have here basically is the inferior wall not,
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uh, contracting well because it's starved of blood supply.
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Here's that patient's calf matched their ct.
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Another teaching point to point out is
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that the spatial resolution of a coronary CT is not nearly
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as good as the spatial resolution
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of an invasive coronary angiogram.
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However, the contrast resolution of the CT is far superior.
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So the Lumina Graham can only see a couple of densities.
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It doesn't see what's causing the stenosis,
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but it has a very good look at this hairline lumen.
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So this is a cataracts four, a severe stenosis, uh,
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almost a subtotal occlusion, whereas the ct, uh,
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of the coronary artery shows you the plaque.
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There may be some thrombus in this.
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There's calcified plaque and there's noncalcified plaque.
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So I put a few more arrows just to depict that the,
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the CT is showing you more detail about the cause
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of the obstruction, whereas the obstruction
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only looks significant
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where it's narrowed on the invasive angiogram.
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Uh, and so just to kind of refresh some topics or,
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or cover how you might read this,
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what would be the Cadrad S classification?
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Well, this is a severe stenosis, so this is cadrad four,
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it's four A because it's only one vessel.
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I didn't show you the other as much,
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but they're not obstructive.
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And the other thing to remember is
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that there's different management recommendations.
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This is a patient who we didn't know before.
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The CT has coronary disease,
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but now in an emergent setting gets different, uh,
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follow up recommendations.
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It means admission and it means invasive
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angiography that I just showed you.
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Whereas if you're in the outpatient setting, um,
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it would be elective angiogram.
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You might benefit from looking at a perfusion test
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different than the ct.
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Uh, and so just to close the case out, here's a, uh,
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47-year-old male.
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He's got an acute subtotal right coronary artery occlusion.
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Shortly after the CT discovered this, we sent 'em
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to the cath lab where an invasive cardiologist was able
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to cross this with a wire, deploy a stent and restore flow.
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So we've interrupted the process.
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Another way to just summarize all the way we just looked at
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the anatomy here is that we looked at noncalcified plaque,
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uh, calcified plaque.
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The calcified plaque is depicted
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by the calcium scoring element of the ct,
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but that's kind of limited.
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Um, we've looked at the, uh, anatomic stenosis,
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we've looked at the sequelae if we have it,
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of the myocardial hypoperfusion and thus hypokinesis.
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And then we looked at the, uh,
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verification via an invasive angiogram.
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So CT can see calcified plaque, noncalcified, plaque
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stenosis or lack thereof,
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and wall motion abnormality if present.
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We can also look at profusion
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and we'll, we'll get into that in some, uh, later anecdotes.