Interactive Transcript
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Okay, I'd like to also dive in on invasive coronary
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angiography, um, and just show some views.
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We'll see a lot more during the cases.
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Um, but the invasive coronary angiogram is a Lumina Graham,
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and, uh, it involves selectively catheterizing
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and hand injecting coronary arteries.
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So you can see why you're gonna get better contrast
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opacification, and I'm just gonna show this view.
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This is the left coronary artery.
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Um, so the catheter is pointing left
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and you can see that the arteries opacify
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and this invasive angiogram was done carefully.
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So you can see the LED raping around the apex.
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This is the diagonal and then late opacification
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of the cardiac veins.
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So a nice angiogram here. Um, here's another view.
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So just like in musculoskeletal radiology,
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you really need two views and everything.
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And this kind of better reveals the tubular stenosis
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in this LAD.
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So that's the LED septal, perforators diagonals coming off.
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And then the, this angulation throws the
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circumflex outta the view.
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And again, the LED wraps around the apex like most LEDs do.
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So we have kind of a tubular stenosis here on a coronary ct.
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You see all of the arteries are pacified together
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and in invasive angiogram you'd have to selectively inject.
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And so here's a right coronary angiogram, that's
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that C view we talked about in the
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first bit of this lecture.
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And you can see here it's a right dominant patient.
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It gives rise to the PDA and the PLV
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and you can see that the sinus
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of El Salva has a little contrast
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refluxing, which you want to see.
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So you don't miss the fact that you're beyond a,
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an osteo stenosis.
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Here's a second view, a little harder
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to get in the right coronary artery,
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but now you can see the same C view is now turned on edge,
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uh, important to get those views.
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And you can see again that there's a, oh
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and also the tiny collaterals, which we,
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or tiny nodal arteries that are harder to see
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with a CT scan.
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So the resolution far superior, uh, with regard
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to spatial resolution.
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Now if you look at, um, invasive angiography,
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you're judging stenosis much in the same manner as a ct
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and it really becomes a judgment call.
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And the case I just showed you,
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how a tubular stenosis didn't look terribly bad.
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So how do we reconcile those intermediate
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stenosis in the cath lab?
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Well, a technology emerged a few years ago
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called fractional flow reserve.
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And in FFR guided practice
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and numerous studies has been shown
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to reduce MACE major adverse cardiovascular events.
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The reason being, if you treat clear stenosis,
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you pay a price for the early procedure,
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but you prevent late outcomes 'cause you're fixing ischemia.
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So the thought is you can discover stenosis,
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but if it's not significant, then you ignore,
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uh, and treat medically.
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So, uh, this is just one of many papers.
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This one then JAMA, showing how those patients
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with a FFR number below threshold, meaning it's positive
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for ischemia, um,
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those patients do better than their counterparts
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that weren't treated when the FFR was positive.
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And those patients with a high FFR meaning negative did
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worse if you treated them
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because they are going to have more adverse events due
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to the procedure or due to unnecessary, uh, treatment
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and all the heavy hitting, um,
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blood thinners that come along
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With the stent procedure.
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Now, FFR is invasive fractional flow reserve,
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meaning you put a wire down the coronary,
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you give intra coronary adenosine,
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so you're stress testing that vessel.
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There are other methods now that don't involve adenosine.
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They're called DFR, which is, uh,
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diastolic hyperemic free ratio.
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And it's basically just looking at parts
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of the cardiac cycle and pressures.
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And then IFR is instantaneous free wave ratio.
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The the point isn't to learn all these acronyms
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but to know they exist and know they
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may done be done in your case.
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And to know that that's a more objective measure
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of potential significance, maybe imperfect,
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but more objective.
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And there's different thresholds
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for each than just the gestalt eyeball judgment
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of an invasive angiography.
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There are quantitative coronary, uh, angiography methods.
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You just basically drawing ROIs and diameters,
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but it's not as accurate
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as the physiologic assessment you can get with these.
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So, um, all of them though are more objective
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than just gestalt.
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So, um, we can do the same thing
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or some of the same things in ct.
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And so there's some role now for C-T-F-F-R,
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it's in some guidelines and here's some of the rules
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of the game as I see it.
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Um, there's a, a technology, uh, of C-T-F-F-R,
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which is computational fluid dynamics based.
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Um, and they use a central core lab
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that's got FDA approval in the us.
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Now there's a machine learning based tool,
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which is also FDA approved.
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That one requires an onsite
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technologist to segment the case.
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The other one is a central core lab,
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and then there's some, uh,
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non FDA approved tools which have
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been demonstrated in research.
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But all of them aim to infer
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and duplicate that invasive angiogram by some method.
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Uh, and it's some method that you can't do
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with your own eyeball and gestalt.
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You have to use their, uh, underlying technology
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to give it a predicted FFR value.
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And there's thresholds, same as any other technology,
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and you treat the ones
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that have a low fr they're usually designed
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to match the invasive FFR.
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So here is an example of a case.
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So this is a, an early case that I, I had read
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and we see here there's an intermediate grade stenosis
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kind of that tubular nailing.
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In fact, this is the exact case I
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showed you the angiogram of.
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And so it started actually with a CT
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before that invasive angiogram.
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I had read it as CAD RADS three,
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meaning it's about 50% moderate LAD stenosis.
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It's the only vessel. So that was my final impression.
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Now how we handled at our site is we make a second report if
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the C-T-F-F-R is successful and here is that image
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and you can see there's a very clear
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trans lesional gradient.
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So a very clear step down in the predicted FFR value
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and it's far below the threshold.
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The threshold is 0.7 to 0.8 is the intermediate gray zone.
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This is below that meaning very abnormal.
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Now you'll see a gradual decline as the vessel gets.
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The, the gradual stuff we don't worry about,
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it's the trans lesional focal gradients.
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This is clearly positive.
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So we reported as such F FFR CT impression, the lesion
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of concern in the PLAD at the origin
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of the first diagonal artery.
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So I'm giving the interventionalist a very clear position
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where I'm saying this is clearly significant.
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So it's very instructive to the anatomy.
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And then this patient went on to an invasive angiogram,
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successfully stented, and got better.