Interactive Transcript
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Okay, so let's take a look at the first case.
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First start off with just a touch of history.
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This is a patient referred for a
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possible aortic valve replacement,
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and as is a great indication for a coronary ct,
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this is preoperative, uh, evaluation
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of the coronary arteries.
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This is very possible that we spare this patient an invasive
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angiogram, um, as easier for other, uh, heart surgery.
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But of course, you wanna do one sternotomy.
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So if there was any coronary disease, you'd like to know
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that ahead of time to plan out, uh,
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whether you'd wanna revascularize
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or have any need for a cardiac cath.
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So the surgeons, uh, saw the patient
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and ask for a coronary ct.
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Uh, couple things I look at.
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When I look at a coronary ct, the first thing I do is say,
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is there good coverage of the heart?
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So, um, axial images are a kind of a key part of the review,
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uh, but it could also, um, be easily seen on a sal.
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So this is just the, the cone down coronary series.
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As you know, we like to use a smaller field of view
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because we're maximizing spatial resolution.
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So this is an image that's 512 by 512 pixels.
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So with a field of view that's 20 something odd.
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It's a a little better spatial resolution than if we used a
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full field of view, or we would throw away a lot
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of our resolution on the peripheral structures.
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There's a finite limit.
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You can't keep conning down until you, uh,
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you can, but you won't.
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Additionally, uh, add resolution.
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There's an intrinsic line pair resolution of the CT scanner.
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So we like around, you know, between 1525, uh, somewhere in
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that range, uh, field of view that includes the heart in the
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x and y axis and the Z axis.
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Of course, you want to cover the entire heart.
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You really just need from the, uh, the proximal coronaries
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to the distal, but you wanna have a little wiggle room
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because the heart can move
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during the different phases of the cardiac cycle.
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Okay, so we've ascertained that we like the image quality.
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Uh, the next thing I look at is, uh,
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look for slab artifacts.
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Depending on the type of ECG gating, um,
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you might have prospective triggering.
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So it's a step and shoot mode.
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This one was done in a retrospective gated mode.
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So retrospective is gating
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and prospective is ECG triggering, strictly speaking.
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But the step and shoot mode would be, uh, axial, sequential,
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so every other heartbeat.
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Whereas this, uh, acquisition is done in a helical mode,
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so continuous acquisition, um,
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and then retrospectively bend out into different phases.
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So whatever phase we ask for here, um, the important thing
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to look for is there's not motion, um, in the heart.
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And the most important thing is to look
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for motion in the sternum.
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The reason being, if it's a breathing artifact,
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there's no amount of reconstruction
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or fancy tricks you can do to salvage the exam.
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This would just be a, a non invaluable exam.
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In fact, at our service, we check every exam on the table.
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We're running scans a hundred mile radius all the way up
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into other states actually.
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So when a patient's on the coronary CT table, um,
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tech runs our protocol, uh, calls us for an image check,
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and we just quickly verify exactly what I just talked about.
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So, enhancement coverage,
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and are there any irreconcilable artifacts?
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Um, and if not, then we say clear to go.
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Um, the other thing that, uh, we kind of look at last, uh,
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when we're doing our image check is
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check that atrial appendage.
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So you can see here, uh,
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this is a normally enhancing little oddly shaped atrial
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appendage, got kind of an angulation,
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which has turned out to be protective.
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Um, there's a, a middle cardiac vein, uh,
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as it turns the border and becomes the,
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the great cardiac vein here.
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Don't confuse that venous structure
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with the atrial appendage,
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but the important thing being,
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if there's any doubt at all, you can sort it out later.
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Sometimes pericardial fluid, like this case right here, um,
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is insinuating around the appendage.
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Just get the delay. You can
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sort it out in the reading room later.
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You only have about a minute or two.
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Um, some scanners actually reconstruct so slowly
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that you don't know whether you need the delay.
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So if it's really older technology, you may even,
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in some cases, apriori specify
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to get a delay just to roll out thrombus.
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As you know, there's mixing artifact,
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and that can be hard to differentiate from thrombus,
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especially in people with atrial fibrillation.
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This, this, uh, patient has a larger atrial size,
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so they may have some AFib,
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but early, uh, ification
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that has mixing artifact is impossible to distinguish.
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So, uh, one situation we do that in, even
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with fast scanners, uh, AFib, pre-op, uh,
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atrial fibrillation, uh, isolation patients.
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So anyone, you know, pre PVI mapping automatic delay,
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the risk is just so high,
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and the, the annoyance of having
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to bring a patient back over just some artifact is, uh,
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important to get around.
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So we've got a great scan, no artifacts.
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Talk for a moment about gating here.
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So this is a systolic image. How do I know that?
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Well, you can see the, the, uh, aortic valve is open.
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Um, and so you can see the, uh, the leaflets,
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the mitral valve is closed.
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And what we do in, in most of our cases these days, uh,
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these are all, the case I'll show you,
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I think are gonna be almost a hundred percent dual source
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of some make and model.
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Uh, but, uh, that means there's high temporal resolution.
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So we image everyone in iso volumetric relaxation.
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Sometimes we add the entire cardiac cycle,
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like in this case, but just wanted to show you,
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we have tightly spaced, uh,
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reconstructions every couple of milliseconds.
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I think it's every 20 milliseconds, uh, from late systole to
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early diastole.
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So somewhere in that range,
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there's always a motion free image at every coronary artery.
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Uh, if you remember when we looked at that ECG tracing,
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that was the, uh, second, uh, best quiescent period
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during the cardiac cycle.
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Why don't we always image in diastole? Well, it varies.
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I'll give you our complete cardiac cycle here.
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Um, and you can see that, uh, yes,
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the images are relatively motion free, intentionally noisy
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because we're using radiation dose protection.
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But the proper diastolic phase varies
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widely based on heart rate.
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Um, this patient had a heart rate of 55, so any
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selection during the cardiac cycle, uh,
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will potentially be good, provided you freeze the motion.
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But, um, no need to, you know, adjust this protocol, uh,
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if the patient had a higher heart rate.
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Um, so this is a nice luxury that we have a patient
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That's, uh, uh, already got a slow heart rate.
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Doesn't always happen in, in real practice.
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And so no adjustments needed. Sly works for everybody. Okay?
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Um, sly works, but you need a little bit of a range
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because it's not, uh, there's no one perfect phase
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and even the different, um, coronaries.
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So as I page through here, I'm looking, all right,
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this is a good phase.
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I might look at for the right coronary artery maybe,
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but here, um, but the left,
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it might be a slightly more preferable phase,
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just a few milliseconds away.
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So with a little bit of temporal span,
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we can solve any issue
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and keep the doctors out of the reading room.
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The doctors aren't giving medicines.
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The nurses are, and, uh,
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the techs are using a standardized protocol, um,
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helps you scale another scan every 20 minutes.
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You don't have to make a big production out of each one.
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Um, also I'm paid to interpret.
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I'm not paid to do nursing work.
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Nurses are pretty good at that.