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Critical Cardiac Case 1

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Hello everybody. Thank you for joining me and

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I will.

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Go and share my screen so we can all.

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We can all look at the same thing here.

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right

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There you go. So

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what we're trying to do today is we're

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going to look at a few interesting cases that I would

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call. You should not miss. Those are

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the not to be missed cases and

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these are obviously not exhaustive, but

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those were a few that I accumulated and I

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thought were worthwhile sharing, please please

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feel free to

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Use the chat function because they're if there's

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questions arising I'd be

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happy to discuss them on the Fly which brings

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us into the very first case and this

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is a 45 year

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old gentleman who presented to an outside emergency

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room with acute onset of shortness of

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breath.

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And they obtained a pulmonary CTP.

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So CT for pulmonary

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embolism exclusion, and I'm

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going to share this PE study with you.

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so it's running a little slow, but I think

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that it just gives you time to assess the

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images and I just want you to look at the images

1:31

really get an idea of what's going on mind you

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this is a PE study that

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we obtained or sorry the outside institutional

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obtained.

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and

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I just want you to look at everything formulate your

1:49

opinion.

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And I'm going to run it a couple times.

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I'm going to go back up just to give you a second time to

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look at it.

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again, 45 year old gentleman presenting with

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an acute onset of shortness of breath

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I'm gonna speed it up a little bit so that you that we

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don't waste too much time.

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This is a PE study.

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And there's no other known.

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diseases or pre-existing conditions that this gentleman

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has

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so and with that I would like to get the

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first polling.

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What is your most likely diagnosis here and I

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have this I have these four.

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possibilities and I would like to

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invite you to vote.

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And the reason why I would like you to vote is because I would like to discuss what

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we're seeing here, and I would like to get an

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idea. So if you were to cast your vote, please

3:10

Okay, so this is wonderful.

3:13

So we have three participants who actually

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we have four participants who think

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that this is some form of vasculitis.

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We have two participants who think this is a type A

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dissection and fortunately we have nobody who thinks that's normal,

3:28

which is a good thing because obviously it's not normal and

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so I would

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like to submit to you that we need

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to look at so the important thing with this one I

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think are two things a the

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history. So the history here in this case is really

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critical. And remember I said, this is a

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45 year old gentleman who presented with sudden onset

3:53

of shortness of breath and that's

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really important. I know that as a radiologist we

3:59

often are not given information.

4:02

But in this case, we were actually given information that it was

4:05

sudden onset of shortness of breath. What are we seeing?

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We're seeing opacific of the pulmonary arteries

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because this was a PE study. And for once it's a very very good

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piece study because it only opacifies the

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right heart structures and the pulmonary arteries. But what else do

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we see?

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We see thickening of the

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pulmonary arterial wall

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As documented here and here and

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here, but if you look closely.

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The problem with that thickening is that it almost has a

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waste it has a waste and it's

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undulating. It's not circumferential and smooth. It's

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not the same thickness all over the

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place.

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And if you continue further that thickening extends

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into the periphery of the pulmonary arterial

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branches in the long parenchyma.

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So the thickening extends far out far out into

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this. That's one thing that we need to

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recognize.

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and then so two of our participants thought that

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this was a type A dissection and I salute them for thinking that

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Because what else are we seeing here? Well, we're seeing

5:16

that there is a little bit of pericardial fluid but

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then look at the ascending order always pay

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attention to the ascending era when you have a patient come

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in with acute onset of shortness of breath.

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Because this is a very indistinct aorta

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look at the fat here anterior to

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the interventricular group. Look at the fat here

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adjacent to the aorta.

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Look at the fat.

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Adjacent to this pulmonary arterial Branch because you

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know, some people would say, well it's a vasculitis but

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look at the fat here look at the fat here,

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but the fat planes adjacent to the pulmonary

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to the ascending era are really really gone. There's

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some soft tissue attenuation in

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the fat plane between the pulmonary artery and the ascending order.

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And then last but not least look at

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the size of the ascending order.

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Look at the size and just get a Gestalt of

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how big it is. And if you don't have a measurement, that's fine.

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But you can Gestalt the

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difference between the pulmonary artery and the ascending order.

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And remember those should be approximately the

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same size because what goes out has to

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come in and vice versa and so they should match to

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some degree and also you can compare the ascending ERA

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with the descending order

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and they should match also to some degree. So even

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without any measurements we can see that the ascending

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order is significantly larger than the descending order

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and it is significantly larger than the pulmonary

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artery the main pulmonary artery at that level. So putting all

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of this together.

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this patient actually had

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A type aortic dissection so I applaud those

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two people who were given that as an

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answer and this is the same patient

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on the same day. Just a few hours later.

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And you can see that he has this dissection membrane

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in his ascending era.

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The dissection membrane extends all the

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way to the order guards. There's the tear.

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And more importantly it's extending

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to the right coronary artery ostium.

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Now those of you who said vasculitis

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I would submit to you. One of the most

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important things again is the history vasculitis does

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not tend to present with a sudden

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onset for shortness of breath or

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chest pain for that matter.

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Patients with vascularities usually come and

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they have these prodromy of malaise of

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not feeling well, some of them lose weight. They're just

8:03

chronically ill. They don't

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have a sudden event that they

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can describe patients with aortic dissection

8:12

or intramural hematomas speaking with acute aortic

8:15

syndrome. They can tell you the second of the

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hour when it happened they can tell you exactly what

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they were doing when this happened because

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it's such an inciting event. It's a sudden

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event and that's that's one thing that is important and

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and lastly

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Um, why does it look so funny on the pulmonary artery

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image? And this is from a publication

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that that I did with a few of

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my colleagues a couple years back.

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When we did a video on rethinking mural

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thickening and this is exactly what we're seeing here. So

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number one, we have a significantly enlarged ascending

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era. It measures 55 millimeter at the

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time and we have this undulating mural thickening

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of the pulmonary artery, which is

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never smooth. It is never smooth. It is

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Lumpy bumpy and extends along the pulmonary arterial tree.

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Why is it that way because once we

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have the dissection and the disruption of

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the Integrity of the aortic wall, what

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will happen is that the bleed will

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invariably extend into the area of the lowest pressure

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which in this case is actually the sheath

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of the pulmonary artery because the aorta and

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the pulmonary artery at their Inception share a

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common sheath, which is just depicted here.

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So if that tears,

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The sheath is common. It bleeds into the in into

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the at the surrounding saw into

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the surrounding sheath, but rather than extending solely

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within the aorta it extends into

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the pulmonary arterial sheath because of the pressure differential.

9:56

How do you differentiate vascularities from?

10:02

type aortic dissections well again Clinic clinical presentation

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Vasculinity is also are extremely rare to

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happen only in the pulmonary arterial trees. You can

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have vascularities of both the

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aorta and the pulmonary artery, but it is extremely rare.

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And then last but not least.

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The extension of the mural thickening and

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the nodularity or let's say the undulate undulating

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nature. They're off going into the Peri

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and extending all the way along the pulmonary arterio

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branches whenever you see this you should at

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least question with it. There is an dissection or

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not. And if you're not sure.

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then do what I did just get a gated

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CTA chest if you can and proof

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that it's not a dissection because

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the point is also if you miss a

10:56

dice if you miss a vasculitis, the

10:59

patient is not going to instantly die. If you

11:02

miss a type A dissection that could

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be a very critical Miss and the patient

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could actually really have a very dire outcome in

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that case. So I would submit to you if you're

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not sure and if the clinical history is

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Really saying that there was a sudden event and you have

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such a beautiful study like we did here with little

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to no opacification of the aorta.

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Get a dedicated aortic study.

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To rule out a type A dissection because if

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the clinical presentation actually speaks about

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the sudden and acute onset, you really

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don't want to miss this.

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and

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there is

11:46

a chat box

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that you're welcome to use. So I

11:52

guess there's a Q&A chat box. You can type questions into this

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and I'd be happy to answer those questions on the

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fly if I can or we can do this at the very end of the lecture. Just

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wanted to bring that up again. So, please feel

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free to use that good excellent.

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So then I guess we will proceed to the next case.

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Um, I just put that in there I had this on one of my prior

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elections. I just like this because it's a

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mnemonic for how you

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should remember the dissection. So

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and what you should report dissect them on

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it. So you want to report the duration the

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location the size the segmental extent

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the potential complications and

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ultimately from us, but you really

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want to know how the patient presented

12:42

so again clinical information is critical to

12:45

differentiate what happened to the patient after the

12:48

second CT. How was he treated? Was there anything

12:51

to be done about the narrowing? That's a very good question. Thank you

12:54

for their question. The patient actually was taken emergently to

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the or to undergo valve sparing

13:00

ascending aortic replacement for his type Ada section.

13:03

And the narrowing or

13:06

the bleed within the pulmonary arteries, there's not

13:09

much you can do about that. It will

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be resorbed and quite frankly.

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This is one of the reasons why patients die from

13:19

acute type A dissections because if

13:22

the bleed into the pulmonary arterial sheath is

13:25

to extensive it can lead to occlusions

13:28

of the pulmonary arterial tree and

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the patient can can die on the spot.

13:35

So in this case, we're fortunate

13:38

enough that the bleeding had stopped at the

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time, but the date patient underwent urgent

13:45

emergent. I mean instantaneous replacement of

13:49

his ascending ERA with a valsparing graft into

13:52

position. Thank you for the question.

Report

Faculty

Cristina Fuss, MD

Associate Professor & Section Chief Cardiothoracic Imaging

Oregon Health & Science University

Tags

Vascular Imaging

Vascular

Trauma

Mediastinum

Coronary arteries

Chest CT

Chest

Cardiac

CTA

CT PE

Acquired/Developmental