Interactive Transcript
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So we've good image quality, good protocol.
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Uh, let's get to the task
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of evaluating the coronary arteries.
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I like to start with the right coronary
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artery, just my search pattern.
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I kind of go left to right on the image.
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I also, um, know, uh, as you heard in the lecture,
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that the right coronary arteries, the most likely one
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to have a motion artifact.
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Um, so as I come down here, you see, you know,
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I'm gonna change my fa
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or there goes that sharpened up nicely.
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Um, and another way
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to evaluate the RCA than just axials would be
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to look on a long axis.
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And if I just find the mid ventricle, you know, kind
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of near the acute margin, the rv, I'm gonna center on that.
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Each, uh, pack system in each reconstruction workstation
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works differently, but they all have a common system
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of making an NPR.
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And this is kind of basics.
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There's even free tools you could download if your trainees
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don't wanna practice at home.
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But, uh, the idea would be take your axial image,
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work from there, and then, uh,
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I'm gonna twist this sagittal image here.
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Now it's para sagittal.
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And then I'm also, and try to connect the dots.
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So if you, if you look at here, there's the proximal,
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the distal rca, no RCAs are tortuous
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and they're especially in and outta plane in systole.
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I'm just gonna sharpen this up with a mip,
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maybe add some width to it.
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So things coming, uh, through plane. Uh, now work out.
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So here's the C view like you might see on if
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this patient gets an angiogram.
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So I can look at the long axis. Look for stenosis.
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I'm not seeing anything, but I know
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that a MIP could mask a stenosis.
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So probably think this is, um, on the order of mild,
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maybe moderate and distal RCA.
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Okay, so I've cleared that or at least made a note
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that I, there's some disease.
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So we're at least at above cad, red zero now,
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and the worst stenosis is probably in the distal.
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I think that's probably mild. Now let's go to the left main.
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Left mains are humbling. Left mains are hard.
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If you have only one job, it's to clear the left main
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'cause all the prognostic factors come from there.
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So, um, let's take a look at this left main
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and you can see it's coming through the axial plane.
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Um, and we don't get really one long axis image.
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If you do only one extra view on any case,
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you can read most cases a normal case,
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axials probably gonna do you pretty well.
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Take one look at a long axis view
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because if you have plaque as is in this case
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where it's kind of on the inferior wall of the vessel,
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but not pinching it side to sides,
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you can totally overlook a stenosis.
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And that would be bad
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because people are counting on you
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to be very sensitive and less specific.
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Um, so as your reader, you wanna know that's the,
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the prejudice of the lens
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through which your interpretation will be is
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that CT has a high negative predictive value.
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So if negative, no further workup needed.
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So you don't wanna miss things. Um, you want
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to err on the side of a slight, um, bit of sensitivity.
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So, uh, in looking at this case,
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it doesn't really look terribly narrowed on the left main,
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and that's really the distal left main.
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Um, so I see it now in two views.
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I can angle this to kind
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of bring this into a long axis in my top window.
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I'm gonna change phases just to sharpen things up.
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Just a couple of milliseconds different
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and it's a much better scan.
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We reconstruct a little stack and that's what I've loaded.
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But, uh, especially if you have older technology,
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you may want to just, uh, really wall up the patient
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with beta blocker as if they need it
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and just slow the heart rate down.
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This patient had a slow heart rate so you can then try
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to pick out one phase,
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but for, for us it seems to be, uh, not worth the time
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because we're gonna get a great scan here.
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So we have a fair amount of plaque.
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There's your left main
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and uh, you can look at it in short axis,
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but you don't want to call stenosis, uh,
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grading off a short axis.
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So, uh, I think that's probably mild.
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I don't think we're even approaching 50% here.
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There's your bifurcation. Alright, so I'm gonna follow this.
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So plenty of disease. There may be a trifurcation here,
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there's a tiny ramus.
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Yeah, I'd call that a trifurcation.
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Uh, just probably mild LED remember,
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LED starts at the osteum at the bifurcation
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or trifurcation of the left main.
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And then it's technically the proximal segment
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until the first large septal perforate or a diagonal.
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In this case it's a diagonal right here.
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Um, so this segment here, I'll just put a caliper on it.
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That's your proximal LED.
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And then beyond that, that's your mid LED.
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The definition of a mid LED is till
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that midway down the ventricle.
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So somewhere around here. So I could, uh,
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give you that in long axis.
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And I, I will just for illustrative purposes
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today on this case.
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But, uh, when I, uh, lay out my LAD,
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so again, we know that the proximal stops here
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and now it's the mid, so right about here
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and then about halfway down the ventricle.
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So I'd probably put it about there.
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That's the, the definition of mid to distal.
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So sometimes it's a little ambiguous.
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I often just say mid to distal.
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Important thing is you're guiding the interventional.
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So say I saw a stenosis that I was worried about
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and I thought it might go to the cath lab,
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I should be very clear about
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what I'm talking about and where.
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So if I wanna describe this in my report,
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I would say there's a proximal lesion.
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It's definitely partially calcified.
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There's some, uh, calcified plaque,
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some noncalcified plaque.
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Uh, I think this is just a mild stenosis.
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Uh, if I wanted to call the more here, uh,
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which I'm starting to think this is a little bit
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of a small vessel, then I, uh,
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might say there's a moderate stenosis in
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the, uh, mid segment.
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If I wanna describe something more distally,
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then I'm gonna try to sus that out
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and just be very clear about
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what diagonal branch that I see.
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So here's a diagonal branch.
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So, uh, another good way to look at the vessels
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and assess for tortuosity.
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One of the first statements in my reports
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is are the vessels tortuous?
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We know there are certain diseases that, uh, are associated
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with coronary tortuosity, chronic hypertension,
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arteriopathy like FM fibromuscular dysplasia, FMD or,
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and that can cause spontaneous dissection.
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So just things that are in the back of my mind,
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but a blanket statement about the quality of the image
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as well as, uh, the tortuosity
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of the vessels if present something reasonable to make.
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So here's that large first dag, it's branching.
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Um, and so if I'm trying to sort out a lesion,
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I might use this to say, oh, there's another dag.
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So maybe it's beyond the second
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or third diagonal back to our review here.
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So as we come down the coronaries,
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and we also, um, know in cadre's, uh, guidelines kind
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of specify this, we're not gonna hold ourselves to too high
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of a standard in these smaller vessels.
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So this is 2.5 millimeters that's within real, the realm
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of a coronary ct, but much smaller than that.
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We're not gonna be so accurate.
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There's only a couple pixels, um,
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that would comprise a stenosis.
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So you, you do, um, want high quality images
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and you want to think about giving nitroglycerin
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unless there's a contraindication
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because that makes these small vessels a little bigger.
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About 17% dilatation in the studies we've done,
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we might get another pixel or so,
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but when you're working at the limits, you don't want to,
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uh, overstress it.
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So that was our LADI think.
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I still think this is mild, um, meaning it's not quite 50%,
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but let's just take a look in another long axis view here.
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Uh, we know that calcium blooms, um,
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especially on older CT scanners,
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and this is a fairly modern one,
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but the blooming we get from, uh, the calcium might
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actually accentuate it's caliber fourfold.
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So, uh, if we cut this person open
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and did a pathology specimen, studies have shown
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that the calcium, um,
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about four times thicker on the CT image
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than it is in real life.
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And when you're working in a small vessel, that matters.
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So I, I think I'm gonna err on the side of mild here,
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but I'm a little concerned.
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Um, and then I'm gonna just move over to the circumflex.
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So here's my circumflex coming down,
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and it's a non-dominant circumflex.
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You can see here it's left the AV groove.
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What am I talking about there?
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Well, when I look at a cir, um,
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it's only a circumflex proper when it's
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between the atrium and the ventricle.
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But as soon as it curves away from the AV groove,
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that's the terminal branch.
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And that's the obtuse marginal, its, it was dominant.
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It would continue in the AV groove all the way down
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to the, uh, inferior wall.
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But as units can see in this case the right coronary artery
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supplies, the PDA, which we have there,
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I'm gonna scroll back up, I'm nipping here
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and the PLV comes further over and,
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and, uh, I'll trace that out for a second.
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So the R-C-A-P-D-A, I can't remember we talked about that,
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but losing the vessel here for a moment,
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but I'm just gonna change phases.
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You can see it's, it's all fine.
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It's just that that's an area prone
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to motion, prone to noise.
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'cause you have the diaphragm and the same Z axis level.
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So it's a little disease,
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but um, I don't think that's real significant stenosis.
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So from mild RCA, the circumflex is non-dominant.
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I didn't see much that was very impressive.
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Uh, there is some disease in the diagonals
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and um, there is a little bit of a mild versus moderate
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mid LAD stenosis.
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This person's gonna surgery.
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We want negative predictive value.
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I have a couple of open questions here.
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Um, and then another thing that might be worth, uh,
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a mention is if, if we look at the calcium score,
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uh, which is never enough,
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but uh, we always grab one if we can.
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Um, the calcium score here was
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2,172, so it's pretty high.
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So our pretest risk
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of coronary otosclerosis can be determined
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by clinical factors.
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But once you have a calcium score,
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in fact I'll just show you the
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Calcium image, ton of calcium.
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So, uh, when, when you look at this, you know
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that our accuracy may be, and,
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and we also, another prognostic thing you can get off
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of calcium scores if there's a
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fatty metaplasia in the liver.
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So this is borderline steatosis.
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If, if I do enough calipers, I think so this is somebody,
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yeah, there's a mean less than 35.
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So there's at least regional, uh, hepatic steatosis,
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which in some papers shows it's the same
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as a coronary risk factor.
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And you can see the calcium, you know,
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there's atherosclerosis.
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Um, so with some open questions around the LAD,
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I think this one, um, oughta go for an additional test.