Interactive Transcript
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And what I really just showed you was something we
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call the ischemic cascade.
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And this was a chapter that I wrote when I was a fellow,
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but the figures adapted from, um, publication, uh, by Dr.
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Nesto ET all back in the 1970s, I believe.
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And they actually figured this out by
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tying off dog coronary arteries in, in a lab.
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And they were able to discern that there's a,
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a stepwise process that can be recursive.
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It goes from earlier to later
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findings when you have ischemia.
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So one of the earlier findings you might see in the setting
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of ischemia is a profusion defect,
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which CT is usually a secondary analysis.
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Um, you can see metabolic disorders.
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That's not something imagers look at.
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Diastolic dysfunction,
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maybe an echocardiographer can see it,
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but things quickly progress towards systolic dysfunction if
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there's interruption of the coronary blood flow.
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And that's what I showed you in this case,
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you had hypokinesis of the inferior wall.
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Uh, if it persists, you can have ECG abnormalities.
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If you could have a transmural infarct,
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you'll have a ST elevation
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and you can even have a in myocardial infarction.
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So now here's an example of a transmural
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infarction on an MRI.
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So as you can see, I've talked about all the ventricular
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and the myocardial manifestations of, of coronary, uh,
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disease, and a lot of those can be looked at with a CT scan.
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So, um, I'm gonna show some
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of our allied fields in cardiac imaging like
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echocardiography, MRI, specked and even PET scanning.
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Um, but if we looked at it,
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we looked at the tissue characterization, so the thickness
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of the wall, we looked at the perfusion
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or we, we will, in future cases, we looked at wall motion.
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We can look at wall motion. I haven't shown you that.
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And you can sum those up and make a diagnosis of viability,
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which is a topic we'll get into further.
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But echocardiography can see the, the wall motion
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or the thickness of the wall.
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Same thing with MRI.
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MRI's, great for looking at profusion defects, SPECT
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and PET are nuclear tests,
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which are only gonna look at profusion.
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And if you're lucky, wall motion, all
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of them can look at all those findings together
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and make an assessment of whether there's an ischemic injury
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and whether there's viability.
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I still haven't talked about coronary arteries though,
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and that's kind of the basis of ct.
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And so if you look at it, the ischemic cascade starts,
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remember where they tied off the dog, LED
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or we had plaque occluding in the right coronary artery.
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So plaque rupture, uh, which leads to obstruction
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or gradual narrowing of the coronary arteries is what we're,
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um, gonna focus on.
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And so when you put all this together, the,
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the look at the myocardium
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and the coronary anatomy, that's kind of the sweet spot
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for CT and how we can make really, uh, interesting
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and comprehensive diagnoses
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and plan therapies in a setting
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of ischemic coronary disease.