Pulmonary Thromboembolic Disease: Challenging the Conventional Wisdoms and Algorithms, Dr. Marc V. Gosselin (3-7-24)
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We are so excited to welcome back to Noom Conference, Dr.
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Mark Goslin for a lectured entitled Pulmonary Thromboembolic
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Disease, challenging the Conventional Wisdoms and Algorithm.
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Dr. Goslin is the head
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of the cardiopulmonary imaging at Vision Radiology
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and previously he was a diagnostic radiology professor at
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OHSU and the Division Chief of Cardiothoracic Imaging.
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Dr. Goslin started his academic career at the University
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of Utah in 1997.
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At the end of this lecture, please join him in a q
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and a session where he will address questions you
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may have on today's topic.
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And please remember to use that q
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and a feature to submit your questions so we can get to
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as many as we can before our time is up.
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With that, we are ready to begin today's lecture. Dr.
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Goslin, please take it from here.
1:12
Hello everybody. Um, mark,
1:14
and this is gonna be a topic that I hope you enjoy.
1:19
I'm gonna talk a bit about, lemme see here we go
1:23
a bit about, uh, pulmonary emboli.
1:25
So it's gonna be a different approach though.
1:27
There's a lot of things that have been taught, uh,
1:30
through the conventional teaching
1:32
and curriculum that turns out when you kind
1:36
of dive a little deeper, it's only partially true
1:39
or is outright false.
1:41
So we're gonna go through some of this
1:43
and I'm gonna give you a different perspective on it.
1:45
All right, so we're gonna talk a bit about, uh,
1:48
the natural fate of what A DVT does in the legs,
1:51
how it's handled, what's the lungs role
1:54
with pulmonary emboli, with and without therapy.
1:58
And we'll look at a bit about the covid
2:01
and a RDS related emboli versus in situ thrombus.
2:04
I'm using Covid as an example,
2:06
but it applies to a RDS in Gen Diff pular damage.
2:10
And then we're gonna, I'm gonna hit pretty hard, the concept
2:14
of overdiagnosis and false positive exams.
2:18
And as always, I'll do it with some humility
2:22
because the book about
2:23
what we don't know in medicine is much bigger
2:26
than the book that we do know.
2:28
So with that, I'm also gonna share with you this,
2:33
I'm gonna show it to you at the end.
2:34
I love it. Education is the progression from a cocky
2:37
ignorance to a miserable uncertainty.
2:40
Let's see what we can do with you on this one.
2:44
Now, what are my qualifications?
2:45
Well, I'm a cardiopulmonary radiologist.
2:47
I'm not a hematologist. And in fact, um,
2:50
I don't enjoy looking at the coagulation cascade.
2:53
When I do, it's so complicated.
2:55
I tend to kind of retract into the fetal position.
2:58
But I am a curious physician, all right?
3:01
And things that we have seen in imaging, in radiology,
3:05
they don't quite match what the conventional teaching is.
3:09
I mean, that's the privilege about being a
3:12
radiologist, right?
3:13
You get to look inside people and you see things.
3:17
And then if you're observant
3:19
and you're kind of asking questions, you start to notice
3:21
that, gosh, I wasn't really taught this.
3:26
So let's start with an example.
3:28
This was back in my Utah days when
3:30
I was just getting started.
3:32
And one of my residents was 28 years old.
3:35
Um, she's a runner
3:37
and she developed acute onset shortness
3:39
of breath in tachycardia while she was on call.
3:42
Somewhere around like two in the morning, she had an O2 SAT
3:47
of 88%.
3:48
'cause she went to the ER but didn't have any chest pain.
3:51
Then they ordered a CT
3:53
and she had multiple sizable emboli with right heart strain.
3:57
Now, of course, she got up and read her own ct
4:00
'cause she was the radiologist on call.
4:02
They started an IV heparin
4:03
and her shortness of breath resolved within about an hour.
4:07
And her hypoxia was also resolved.
4:09
Heart rate came down
4:11
and she went back to the call room to finish a work
4:14
with an IV pole of heparin.
4:16
Yeah, they, they don't make residents like that anymore.
4:20
So why? Well, people ask me why did she develop that?
4:25
And I thought about it
4:26
and I said, well, I'm not supposed
4:27
to tell you this, but she was pregnant.
4:29
What do you think the response was
4:31
when people who said that?
4:33
Oh yeah, yeah, that makes sense. Now I lied.
4:38
Yeah, I lied, but she was on co oral contraceptive pills.
4:43
Now I lied again. The reason is, is
4:46
because if these had been present,
4:48
that would've been the reason given
4:50
for her developing emboli and were missing something.
4:54
So you gotta dive a little deeper.
4:55
So here are a couple of questions
4:57
that we'll come back to at the end.
5:00
Why did she develop large DVT and pulmonary emboli?
5:04
Why was she hypoxic?
5:08
Why did she improve so quickly in IV heparin?
5:11
All right, I'm gonna come back to those.
5:15
So a lot of what we've learned,
5:17
I call eminent based medicine.
5:20
And when you're in residency
5:21
or in medical school of that ator,
5:23
but residency, you, you've gotta learn so much
5:25
and use so much information you're supposed to get in.
5:28
So you tend to accept what's being taught
5:31
because you don't really have time to kind of think about it
5:34
and dive into it, right?
5:35
Your working memory gets overwhelmed quickly.
5:37
So you just kind of start memorizing.
5:40
And a lot of the stuff that I've found is, you know, a lot
5:44
of people say it and it's partially true
5:47
or you know, maybe it's not true at all.
5:49
Maybe it is true. But when you dive a little deeper,
5:53
you tend to find clinically more relevant information such
5:56
as the sign from Canada, you know, the bridge is out ahead.
6:02
And then you kind of stumble when you go
6:04
to review sites on things like this, which to me are, well,
6:09
I'm not even gonna say, alright, this is
6:11
for me medicine on pulmonary embolus symptoms
6:14
that should provoke a suspicion of pe.
6:17
Must include chest pain, chest ball, tenderness, back pain,
6:19
shoulder pain, upper abdominal pain, syncope, hemoptysis,
6:22
shortness of breath, painful respiration, onset of wheezing.
6:26
What, what? Where are you getting this?
6:28
Any new cardiac arrhythmia
6:29
or any other unexplained symptom referral to the thorax.
6:33
Boy was that helpful? That was so helpful.
6:37
So this brings up Simon,
6:40
a garfunkel's pope, still a man.
6:42
Here's what he wants to hear and disregards the wrist.
6:47
So let's start concept one. Why did we claw?
6:50
Let's think about it. We were all taught about AU triad.
6:54
And by the way, Kel actually didn't describe this,
6:56
it was someone else, but he got credit for it.
6:59
Um, it's a combin combination of endothelial injury, right?
7:04
Which is a little NIUs hypercoagulability
7:06
and abnormal blood flow, specifically slow flow or stasis.
7:10
How many of these do you need?
7:12
Well, actually you really sort of need all three.
7:15
I mean, we can sleep at night and not clot, right?
7:19
Uh, they did a study on dogs
7:20
where they tied off the femoral vein
7:22
and kept the leg still so nothing moves.
7:26
And they waited to see how long it would
7:27
take for a clot to form.
7:29
It actually took 12 hours. So you need all three.
7:34
And the reason that's important is
7:35
because when people say, oh, this patient's had a history
7:38
of DVT, you gotta ask, wait a minute, what, uh,
7:41
what was the circumstance?
7:43
And the response I get is, well, it doesn't matter.
7:47
And it's like, yeah, it does matter.
7:48
If they've had a femoral fracture, it's expected
7:51
because all three are in play.
7:54
But if they were driving a car
7:56
or they're pregnant, okay, wait a minute,
8:00
that's not all three.
8:01
So that tells us there's something else wrong here.
8:04
Probably some sort of thrombophilia
8:06
or hypercoagulable genetic state.
8:09
Okay? So you need at least two,
8:13
but most likely you need all three.
8:17
So if someone says they've had a DVT
8:19
and it was a femoral fracture,
8:20
there's no real increased risk for future events.
8:24
But if they got it from pregnancy
8:25
or say from driving a car,
8:28
yes they are increased for some reason.
8:30
There's something else going on underneath the surface.
8:34
Okay? So concept two, what is the function of the lung?
8:39
This is a study in evolution
8:41
and it's really a remarkable, just a remarkable design.
8:45
So the lungs are essentially a filter, and that is
8:49
because they are one of two organs.
8:52
The liver's the other that are kept alive
8:55
by an arterial supply from the aorta, right?
8:58
The hepatic artery and the bronchial arteries.
9:01
The pulmonary artery you can obstruct, right?
9:04
And the lung doesn't die for the most part.
9:07
Sometimes you see small infarcts
9:09
and that's usually from the small little emboli out in the
9:12
periphery where the collateralization may not
9:14
be quite as robust.
9:16
But what you see here is
9:18
that things don't get past the lung.
9:21
So emboli, metastasis, you know,
9:24
bacteremia, this sort of thing.
9:26
It tends to stop it from going to the other side,
9:28
which is a good thing, right?
9:30
Because if it small clock goes to the brain
9:33
or goes to the finger or goes to, you know, the kidney, the
9:38
or the coronary arteries, right?
9:41
That's when you run into problems
9:42
because now you have obstructed and that induces an infarct.
9:47
And this also goes back
9:49
to medical school when you might have learned about the
9:51
difference between a red infarct and a white infarct.
9:54
And a red infarct is something like the lung or liver
9:57
or sometimes the intestines with its collateral
10:00
because there's persistent blood flow from another source.
10:03
But the white infarct are all the other organs
10:06
where there's just the one arterial supply, it's gone.
10:09
And you develop an infarct.
10:14
This man tried to commit suicide,
10:16
he injected mercury from a thermometer
10:19
into him, no symptoms.
10:23
He's wondering what the hell's going on.
10:24
Well, your lung's A filter, all right?
10:28
It doesn't get past the lung.
10:32
Concept three, and this is a big one, what happens
10:36
to A DVT in the leg?
10:38
How does it get reabsorbed or how does it get broken down?
10:42
Is it fibrotic enzymes? Well that turns out not so much.
10:46
The venous endothelium doesn't tend
10:48
to have a very large component,
10:50
nor does it appear to be
10:52
that important in the um, resolution.
10:56
And there's a study that I'm sure no one read,
10:58
and I've given you the reference
11:00
where they looked at electron microscopy
11:02
of the different stages of the DBT RELU resolution.
11:06
And what they found was it was like wound healing
11:08
as if you cut your skin.
11:10
There's neutrophils and monocytes
11:12
and histamine release and inflammation.
11:15
So that seems to be the major focus, which is why, you know,
11:20
thrombo phlebitis is always present with most DBTs.
11:24
It's just, it's a bell curve.
11:25
And some people have a more, you know,
11:28
aggressive thrombo phlebitis, but it's an inflammation.
11:32
And the pieces that then develop from the clot
11:36
that then go, where do they go?
11:38
Well, they go downstream. And what's waiting for them?
11:41
Well, the lungs, right? The lungs.
11:46
So the lung is a goalie.
11:48
That's essentially what it is for those hockey buffs.
11:50
It's a goalie, right? It stops it.
11:53
And what's in the pulmonary arterial endothelium
11:57
and capillary endothelium.
11:59
Lots and lots of fibrotic enzymes there.
12:01
There is a very large amount. That's what it's designed for.
12:06
It catches the clot and then breaks it down and recycles.
12:10
This seems to be the normal evolution of A DVT.
12:14
Now whether you treat or not, they're going to the lung
12:17
and the lung will stop it and chop it up and recycle it.
12:22
Okay? And that kind of brings me to another point.
12:28
In American medicine, one of the most common
12:31
algorithms I call as the diamond algorithm, an algorithm
12:34
that really results in no change in treatment.
12:39
Alright? So you've got a patient who's got a DVT,
12:43
there it is, it's above the knee, alright?
12:45
They're gonna get treated,
12:46
they're not having any clinical symptoms
12:49
or respiratory symptoms or tachycardia.
12:52
But why order a ct?
12:55
You know, there's some, there's some expected emboli.
12:58
No right? Heart strain doesn't change your management.
13:02
You're still gonna treat, okay? I love this sign.
13:05
How's your week going? It's bad. Have a drink. It's good.
13:08
Have a drink. It's not gonna change.
13:13
One patient I wanna alert you
13:15
to is the renal dialysis patient.
13:16
Now they tend to have thrombus
13:18
and emboli in their lungs relatively commonly.
13:22
Why? Well the origin is usually the fistula.
13:25
When I was a resident we used to
13:27
see these hemodialysis fistulas
13:29
and they would have clots, right?
13:31
Kind of waving in the breeze on the venous side.
13:34
And what the interventionalists would do is go in
13:37
and just kind of rotor ruter it and let it go.
13:40
Well, where'd it go? Well, it went to the lung.
13:43
If we had scanned this patient,
13:46
there would've been a pulmonary embolus.
13:49
This would've instituted some therapy that was not required.
13:53
Okay? So you want to be careful
13:55
with these renal dialysis patients
13:57
because what's the risk
13:58
of therapy versus the risk of withholding therapy?
14:01
To me, if you have something, if a thrombus
14:04
or an embolus in a renal dialysis patient
14:06
probably best just to look in the legs.
14:08
If, um, why? Well, is there anything coming down the road?
14:12
Nope. Don't treat it if they're not having any
14:15
tachycardia or right head strain.
14:17
Don't treat it. If you treat it,
14:19
you can run into some problems.
14:23
Okay? Nice quote here from Alwin Einstein.
14:25
I always thought he was a happy guy,
14:26
but it turns out, eh, those who joyfully march to music
14:31
and rank and file have already earned my contempt.
14:33
They have been given a large brain by mistake since
14:35
for them the spinal cord would suffice.
14:40
So let's move on to this right ventricular strain.
14:45
If you don't take away anything else, take away this.
14:48
When you look at A CTA, the first thing you wanna do,
14:52
look at the heart, what's the right ventricle doing?
14:55
When you have right ventricular strain
14:57
that usually indicates, okay,
14:59
this person's got some symptoms, they got some issues,
15:02
this embolus or this thrombus, whatever it is,
15:05
is not insignificant.
15:06
Even if there's only one segmental
15:09
and you get right heart strain, that means that there is,
15:12
it's causing something to cause the right heart to, to uh,
15:17
to have trouble pumping forward.
15:20
Now it is not related to CLO burden.
15:22
So when people say, oh, I'm worried about the big embolous,
15:26
no, I'm worried about the the CLO burden.
15:29
No, you know, it's not associated with that, okay? It's not.
15:35
Um, it is associated with tachycardia
15:37
unless the patient may be on beta blockers, right?
15:41
PFOS tend to pop open when they have it.
15:44
And the uh, morbidity
15:48
and mortality is more closely related to right heart strain
15:53
as well as pulmonary emboli
15:55
that are in the low bar arteries.
15:57
So the proximal low bar arteries,
15:59
that's another thing you want to take a look at.
16:02
For some reason, these people tend to have more problems
16:06
and tend to develop later in life.
16:08
Pulmonary hypertension, the saddle em bliss,
16:11
which everyone likes to focus on,
16:13
is not associated with right heart strain.
16:15
It is not associated with long-term problems. Okay?
16:19
You might have right heart strain with the saddle,
16:21
but I've seen just as many were you didn't.
16:26
So an example, restaging. Hepatoma, right?
16:30
No symptoms, no right. Heart strain looks good.
16:34
There's an infarct.
16:35
You can tell an infarct
16:36
because there's no air broncho grams a consolidation
16:40
without air broncho Grahams
16:42
does raise the suspicion of an infarct.
16:45
Okay? Consolidation
16:48
with air broncho Grahams is usually not an infarct.
16:55
This patient actually had an incidental sal embolus.
16:59
Again, these patients with widespread tumor
17:01
or metastases do tend to develop d VTS and pulmonary emboli.
17:07
Okay? About one out of 10
17:08
with metastases have incidental emboli.
17:13
So right ventricular strain, when you're looking at it,
17:15
you're looking at the RV ratio to the LV ratio.
17:18
It's usually conventional
17:20
to measure approximately one centimeter distal
17:24
to the tricuspid valve
17:26
and to the mitral valve at the widest segment,
17:30
it sometimes can be a little difficult
17:32
because the heart can kind of rotate.
17:34
But that's gives you, you know, a rule of thumb.
17:38
1.0 kind of suggests it.
17:41
But a better specificity is that like greater than 1.2 ratio
17:46
straightening of the intraventricular septum
17:48
is a very good sign.
17:49
But it does have intra observer variability.
17:52
You really kind of wanna look,
17:53
especially at any concavity, right?
17:58
Or with straightening, especially distally near the apex.
18:03
And I'll show you reflux
18:05
of hyperdense contrast can be helpful.
18:08
And I also use the intra atrial septum
18:11
because that will bow to the left atrium in the setting
18:15
of right heart strain.
18:17
And you can also look for any possible PFO.
18:22
So this would be an example.
18:23
These are low bar, that's already a problem, right?
18:25
Low bar pulmonary emboli.
18:29
You have right heart strain with straightening
18:31
of the intraventricular septum.
18:33
The RV ratio is 1.3.
18:35
You measure about a centimeter in front
18:37
of the tricuspid valve
18:38
and about a centimeter in front of the mitral valve
18:41
there is bowing of the intraatrial septum.
18:45
Okay? Now anything else with this person?
18:48
'cause they presented with chest pain.
18:50
Yeah, there's actually hypo enhancement
18:52
to the left ventricular myocardium.
18:55
So they are developing ischemia or infarction.
18:58
So they must, they have coronary artery disease,
19:01
they have right heart strain.
19:04
This causes the ischemia and infarct.
19:08
So yeah, I don't know.
19:10
Do you all look for areas of hypo enhancement on the CTAs?
19:15
Um, I found them very helpful.
19:18
A lot of times they're known,
19:19
but sometimes the ER doctors are unaware of it.
19:25
Okay, tachycardia, shortness of breath.
19:27
Why is this patient hypoxic?
19:29
Why do you get hypoxia with an embolus?
19:31
Because that's dead space.
19:33
In fact, pulmonary emboli is the poster child
19:36
physiologically for dead space, which tends not
19:39
to give you much for hypoxia.
19:41
It's the shunt that gives you hypoxia.
19:44
Things like ectasis
19:46
or consolidation where you perfuse on ventilated areas
19:50
and the blood returns unoxygenated with the persistent CO2.
19:55
So why with an embolus can you get hypoxia?
19:59
Well, the answer is right there
20:01
when you get right heart strain.
20:02
What is this? This is A PFO.
20:07
And the larger the PFO,
20:08
the more likely you will get hypoxia.
20:11
This is your shunt. The other thing the PFO offers is
20:15
that it bypasses the goalie,
20:18
the the safety function of the lung.
20:21
Remember these emboli want to go, you want them in the lung
20:24
where they can get recycled,
20:26
but now you have a potential bypass
20:28
and that can lead to problems.
20:30
See, when small emboli get going,
20:32
you can get this paradoxical embolus
20:34
and you can get infarcts in other parts of the body.
20:39
Case in point, multiple emboli. Yep. Okay.
20:44
Right. Heart strain. Yep. Intraventricular strain. Yep.
20:47
What's this? There's a PFO. But what's this?
20:53
This isn't, this is an embolus in transit
20:57
through the PFO on the way to the other side,
21:01
which is not where you want it to go.
21:03
Again, the lung is the safety goalie.
21:08
You bypass it, you start to get into problems.
21:12
All right, what are the signs and symptoms?
21:15
Well, if you look in the clinical literature,
21:16
they give you all sorts of things.
21:18
But when you really kind of dive in,
21:20
the most common is acute onset.
21:22
Shortness of breath. Now this is for symptomatic emli.
21:26
Please remember, most of these are asymptomatic.
21:31
Most are, that's the lungs gonna do its function.
21:34
But the ones who have problems,
21:36
maybe they got preexisting cardiopulmonary issues
21:39
or they're having an intense kind of reaction
21:42
and vasoconstriction and right heart strain.
21:45
This will be acute.
21:46
Shortness of breath is usually what they'll present with
21:50
tachycardia, which would often indicate what.
21:53
Right? Heart strain will off also be common, right?
21:57
Unless they're on beta blockers.
21:59
The chest radiograph, is it worth it? Sure. Is it normal?
22:03
Yeah. Shortness of breath. Tachycardia, no wheezing.
22:08
That's key. But you gotta worry about an embolus, then
22:12
that's actually a pretest probability
22:14
that's moderately high.
22:16
All right? And the differential is asthma.
22:20
Small airways disease.
22:21
And again, the wheezing should alert you
22:23
that this is an airway problem,
22:25
not a pulmonary artery problem, but you know, there you go.
22:30
So which radiograph would you pick? All of 'em.
22:33
Acute onset, shortness of breath, tachycardia.
22:39
Which one has an embolus? This?
22:42
No, because infarcts are not very common,
22:45
especially this large.
22:46
This one has air bronchos within it,
22:48
which tells us it's not an infarct.
22:51
That is a strep pneumonia.
22:53
This is a diffused ground glass characteristic
22:56
for non cardiogenic edema.
22:59
Okay, this one is normal.
23:03
And this one had multiple pulmonary emboli.
23:06
And this patient had a glioblastoma
23:09
and that's why they developed emboli.
23:14
All right, what about the mortality?
23:16
Everyone's worried about that. Oh, they could die from it.
23:18
Yeah, that that's true.
23:19
There are some people there do die from an embolus.
23:23
Yeah, but how, what's the actual incident?
23:27
So a lot of the work on teaching of the, you know,
23:30
the death rate and the mortality is based on
23:33
very early work.
23:34
When they looked at retrospectively on inpatients
23:37
and post-surgical patients
23:38
and patients with widespread cancer.
23:41
And the data was skewed.
23:42
And I still hear this quoted at 18 to 35% death rate.
23:47
I'm sorry, what? What are you talking about?
23:51
No, it's not that high.
23:53
Maybe in the ICU it might get up to 18 20%.
23:56
And these are very, very sick people.
23:59
But yeah, you're running the male pulmonary embolus.
24:02
It is not that high.
24:04
Alright, so a lot of this data came kind of skewed
24:08
to these patient populations.
24:11
Okay? Alright.
24:14
So if you look at the actual epidemiology data,
24:17
and this is from 2000, they looked at all pulmonary embol.
24:20
They looked at the pathology data, which found that
24:23
incidental emboli were present in like of,
24:26
of majority of patients.
24:28
They actually came to the conclusion
24:30
that this is the death rate.
24:32
You know, it's a lot lower than what you think.
24:36
And they did find that deaths do tend
24:37
to occur when people had comorbid factors, right?
24:41
Such as preexisting cardiopulmonary problems
24:44
or advanced cancer or the ICU setting.
24:46
So those would be more likely the ones that you might want
24:49
to be a little more careful with the emboli.
24:53
But for everyone else, no tachycardia, no shortness
24:57
of breath, no right heart strain, eh?
25:00
Probably gonna be okay. Okay. All right.
25:04
We're gonna shift gears a little bit.
25:06
It is the mark of an educated mind
25:08
to entertain a thought without having to accept it.
25:12
I'll leave it at that. I'll try to be transparent.
25:15
And I want to talk to you a little bit about this concept.
25:17
This is something that over my years
25:21
I got pretty worried about.
25:22
And I started seeing us do this a lot in radiology
25:26
and not just radiology, other specialties do it too,
25:29
but I ca call it the rolling ball theory.
25:32
And when we read an exam, we are standing up in a hill
25:36
with a ball in inertia.
25:37
Okay? It's, it's it, it's just standing there.
25:42
You call something, you've now pushed that ball in motion
25:46
and once the ball starts rolling,
25:48
it's very difficult to stop.
25:51
So if you think, you know, you wanna pause
25:53
before you push it
25:54
because once you push it, something may happen.
25:58
Now maybe it'll just be a false positive.
25:59
Maybe it, maybe it'll get figured out.
26:01
But I've seen a lot of problems that we initiate
26:07
by calling things and we don't even,
26:09
we're oftentimes may not be aware of it
26:11
because you know, the medical records
26:13
and the other clinicians get involved
26:15
downstream complications and decisions then start to occur.
26:19
So I'm gonna talk to you about the concept of over-diagnosis
26:23
and the false positive CTA.
26:25
So this was an article in 2011.
26:28
Excellent article by the way.
26:29
And there was a paper back in 2008 which said, Hey, let's do
26:33
CTAs on all of these inpatients as they come in.
26:37
And what did they find?
26:38
They found that they've, there was,
26:40
they discovered a lot more emboli.
26:42
And so then they instituted therapy
26:45
and then they looked at the results
26:46
and they said, Hey, the case per fatality
26:49
decreased in these people.
26:51
We need to do more aggressive CTA
26:54
to catch these emboli earlier and give effective treatment.
26:58
Okay, slow down.
27:01
Are there any other conclusions that you could make?
27:04
None were offered in that paper,
27:05
which then instituted this one to come out.
27:08
This is by epidemiologists
27:10
and what they found was mortality really didn't change,
27:14
but the statistics did.
27:16
And they were treating PA most likely patients with emboli
27:20
that were just incidental with the lung doing its job.
27:24
And this was the graft, which I thought was really helpful
27:27
when you institute a screening procedure
27:31
or a treatment procedure or something
27:33
and the apparent incidence increases,
27:36
but you also find the mortality increased.
27:39
That's an indication that there was a true increase in the,
27:43
uh, incidents of this particular disease process.
27:46
You know, brain cancer might be a good one.
27:48
'cause you know, we are seeing it more often.
27:52
This one, you institute a screening or some sort of therapy
27:56
and there's an an apparent increase,
27:59
but the mortality did decrease.
28:00
Now is it cost effective? That's a whole nother thing.
28:03
Well, I won't go into, but that says that, yeah,
28:06
you are catching some things that would result in longer,
28:10
uh, lifespans.
28:13
Now this is over diagnosis.
28:16
You institute this, you get a huge increase in incidents,
28:19
but the mortality state exactly the same.
28:22
But how do you report it?
28:24
Statistics is like a woman's bikini
28:26
or a men's th it's interesting
28:27
what it shows crucial what it hides.
28:32
Fatal PEs per case decreased.
28:38
That's an intellectual way to lie and mislead.
28:41
The mortality did not change.
28:43
You were finding emboli that didn't matter
28:47
and they didn't require treatment.
28:50
That is the example of pulmonary emboli.
28:52
That's also a perfect example of thyroid cancer, by the way,
28:55
if anyone's interested in diving in that topic.
28:58
So ab pelvic ct, this was missed.
29:01
Patient has renal failure and is on dialysis.
29:03
What'd I tell you about dialysis, right?
29:05
They have little emboli. So there's a small embolus here.
29:09
No expansion, right? No, right heart strain.
29:12
So it was missed. So probably good.
29:16
The ball was left in place a couple weeks later they
29:20
developed pulmonary edema.
29:21
This was a CTA, but they had pulmonary edema.
29:26
And this was the dictation. Notice the terminology too.
29:29
Hydrostatic edema, incidental resolving thrombus.
29:32
Don't even say embolous thrombus.
29:33
Columbus symptoms resolved with treatment.
29:36
They did an ultrasound of the lower extremities.
29:38
There was nothing there. They started on me
29:40
anticoagulation anyway.
29:41
And he developed a massive GI bleed.
29:44
You wanna be careful with this because the ball was pushed
29:48
and once it is, that can be a problem.
29:51
Okay? False positive ct.
29:55
How common are they? Pretty common.
29:58
Um, this paper came out in 2015
30:01
and what they found was 26 a quarter of the patients
30:04
that diagnosed with em BLI were found
30:07
to be actually negative based on the three, uh,
30:11
thoracic radiologist evaluation.
30:14
Now that number looks a little high, uh, I have to admit,
30:17
but I find about one out of 10.
30:21
And mostly what I see is that
30:25
it's gonna be smaller emboli.
30:28
And it's usually due to motion artifact or an inci.
30:30
You thrombus or beam hardening artifact,
30:33
sometimes sharp algorithm.
30:35
And what happens is, is that once you call it positive,
30:39
you now push that ball down the hill.
30:42
So let's go over a few, just, just a few of the common ones.
30:46
So in their paper, they found
30:48
that beam hardening artifact was misinterpreted as emboli.
30:52
Now this should never have been called an embolous.
30:55
And if you're not sure, don't, don't call it just,
30:59
it's okay to say determinant or work up some other way.
31:02
But don't, I mean this one is not an embolus.
31:08
How about this? This is called a pulmonary embolus.
31:12
No hedging, just pulmonary emli. Well that's mucus plugging.
31:17
It's mucus plugging the, the artery's right there.
31:20
Mucus plugging. How about this?
31:25
A lot of exams, if you at your institution
31:28
or your practice are doing CTAs with a sharp algorithm,
31:32
you gotta stop it, right?
31:33
You can do it for the lung windows,
31:34
but they need to be a soft algorithm when you are looking at
31:37
the vessels because these artifacts can
31:39
get artificially created.
31:41
Okay? These are not emboli, it's kind
31:44
of was like this laminar flow sharp algorithm artifact.
31:49
This is what can happen. These can be called emboli.
31:52
Now I have seen 'em called emboli.
31:54
Now you go to same patient. This is a soft algorithm.
31:58
It disappears, okay, disappears. Now what about this?
32:04
This one looks a little different. Go to the soft.
32:07
That stayed, that's an embol.
32:10
So you'll see the emli in the soft algorithm,
32:13
but you will avoid this kind of trap
32:16
of the sharp algorithm induced artifacts.
32:18
So soft algorithms for your vascular imaging,
32:21
motion artifact is one of the most common, uh,
32:25
this is called an embolus.
32:26
It's, you can't call an em, don't call it an embolus.
32:30
You know, you if you're not sure you're not sure,
32:33
but don't roll that ball for these.
32:37
What happens to these patients?
32:39
You've read it, you called an embol,
32:41
you went home, did a good job.
32:46
Well now what if it wasn't real?
32:49
Well, this is what you, what happens to these patients?
32:52
Obviously they got a bleeding risk,
32:54
which is estimated about a 7% annual risk if more than three
32:58
months of treatment, which is standard treatment.
33:00
This one big one, medical chart, downstream effects.
33:03
They come into the ER with chest pain.
33:04
They got a history of pe.
33:06
Yeah, you know, they're getting scanned.
33:08
They're getting scanned.
33:09
They're gonna go maybe get workups for thrombophilia,
33:13
they gotta have physician office visits.
33:16
Complications of the wallet are always to be taken
33:19
'cause they can have a great effect on families and people.
33:23
Medical insurance changes,
33:24
potential interactions with other drugs.
33:27
You know, all of these different things can occur
33:29
that we are not aware of.
33:32
So this one was called an embolus. It's motion artifact.
33:36
It's one image called an embolus.
33:39
What happened to this patient?
33:41
Well, they got multiple CTAs, all negative
33:44
and the history given by the er,
33:46
they have a history of pulmonary embolus.
33:49
That's all you need. That's it.
33:51
That downstream complications are now occurring.
33:55
This one, this is an important artifact.
33:58
I can't stress this one enough. I see it all the time.
34:03
It, I don't, I see it called emboli all the time too.
34:06
And it's really distressing.
34:08
Um, this patient comes in, they have covid
34:10
and they did this scan and they have chest pain
34:14
and it was called multiple left lower or low pulmonary emli.
34:19
Look, they're all at the same level. There's no expansion.
34:23
They have a poor cardiac function. How do you know?
34:25
Well, there's no contrast in the left ventricle.
34:28
In fact, there's no contrast in the pulmonary veins.
34:32
So they have a reduced cardiac output
34:35
and reduced forward flow physiologically,
34:38
but they have asymmetry in the flow in the arteries.
34:41
There's a, there's slightly
34:43
faster flow in the right lower lobe pulmonary arteries,
34:46
but you can see how they're enhancing
34:48
and then they gradually just disappear.
34:51
This is non enhancement. Non enhancement, okay?
34:55
Non enhancement. Alright?
34:58
Now what I mean by this is that
35:01
because this was called left lower,
35:03
left mli, what was the history again?
35:05
Chest pain. What about this pericardium?
35:08
It's thickened, it's got indistinct. This in irregularity.
35:11
This patient has pericarditis,
35:13
this patient has a pericarditis.
35:16
Okay? So what happened one week later
35:21
after getting started in anticoagulation?
35:22
They come in with the same symptoms the doc orders the CTA.
35:26
Well I know. So you can see,
35:28
well he had a left lower lobe enhanced this time.
35:30
There was nothing there in the first place, but we knew that
35:32
because it didn't enhance.
35:34
But now they have a hemo pericardium
35:35
from the anticoagulation.
35:37
You shouldn't treat people with pericarditis.
35:39
With anticoagulation. Now this becomes more of an emergency
35:43
downstream complications.
35:47
What about the false negatives?
35:49
Okay, this is, this is a problem
35:51
because basically what we've got here is the
35:56
perception of us missing an embolus.
36:00
We, we get nervous, right?
36:02
Because the opinions are so strong.
36:05
And by the way, these opinions are all cross-referenced.
36:08
There's not really a lot of data,
36:10
it's just cross-referencing that small emboli.
36:14
You know, really honestly, if there's no right heart strain,
36:17
they have a great outcome whether you treat or not.
36:20
And the risks of treatment versus no treatment
36:22
are not considered.
36:24
So once you say you think that's an embolus,
36:27
they're getting treated, the ball is in motion.
36:30
Okay? But we have this perception
36:33
that you do not want to miss them.
36:38
Now I'm gonna tell you, I know this is wordy,
36:42
but it was so well written.
36:44
Uh, it was so well written and you, you can go through it,
36:48
but do you know where all of this came from?
36:50
Anticoagulation gold, you know, standard of care.
36:55
It came from a publication from
36:56
1961 from Barrett and Jordan.
36:59
And that was 19 patients compared to 19 patients.
37:03
All in patients post-surgery, cancer patients.
37:06
There is no real randomization.
37:08
Cochrane library has refuted this being a very good
37:11
paper yet.
37:12
That was it. That was it. And it happened overnight.
37:18
Now this was a time when VQ scans couldn't see small.
37:23
So now we're left with these CT scans
37:27
that unlike the vq, which has more of a probability,
37:29
CT tends to be a more black
37:31
and white even though it's,
37:33
there's a number of indeterminate.
37:35
And this then confined these small emboli
37:39
that were almost certainly present on every
37:41
patient, uh, in this study.
37:43
But you didn't know about it.
37:45
And they said, yeah, it seems remarkable that this one paper
37:51
just one dictated the entire treatment and dogma
37:56
and that new studies were required.
37:58
But who's gonna get it through IRB?
38:00
Because now it's considered standard of care.
38:04
There are studies out there that do support the fact
38:07
of not treating these things.
38:09
And this one in particular was a pretty good one.
38:12
They found that, um, 71 out of 93 was subsegmental.
38:16
So these are small em bli, right?
38:19
Uh, they were treated with anticoagulation or IVC filters.
38:21
IV filters are not a good idea by the way.
38:24
Um, and a quarter of 'em were not treated at all. Okay?
38:29
A quarter were not treated at all.
38:30
They had a similar outcome. Nobody died of an embolus.
38:34
But there were eight hemorrhages that included in that 90,
38:38
uh, 90, 71 patients, okay?
38:41
So there was complications from it.
38:45
Nobody died from the hemorrhage,
38:46
but there were complications.
38:49
So patients diagnosed with isolated subs, segmental mli,
38:52
they have a pretty good favorable outcome.
38:54
Again, if there's no right heart strain
38:58
and the short term prognosis
39:00
and long term actually looks like the risks
39:02
of treatment may be higher than the risks of not treating.
39:07
Again, this is what the literature suggests,
39:10
but that's not the perception that's taught.
39:16
So I wanna take you through this one.
39:17
This one's very problematic
39:19
and you all will be faced with this.
39:22
This is in CTA.
39:23
It's a very nice quality and there is something here.
39:28
One thing not enhancing, okay? What do you do with that?
39:33
Whatcha gonna do?
39:37
It's a young patient, some shortness of breath.
39:40
Call it an artifact. Call it an Inc. Situ thrombus.
39:43
What's the risk if you call that?
39:48
I mean, let's look at it.
39:50
There is no expansion of the vessel.
39:53
No expansion of the vessel. It's single, it's subsegmental.
39:57
There is some mild motion artifact in that area.
40:01
There is no branching to it.
40:04
Still could be a thrombus or an embolus,
40:06
but probably might be best
40:10
for this patient not to call it.
40:13
If you want, you can say,
40:14
why don't you do some lower extremity ultrasounds?
40:16
They'll be negative. Uh,
40:18
this one was called an isolated Subsegmental Emli.
40:22
No, that's it. It's subsegmental. Emli. I'm so sorry.
40:26
There's actually sun here in Portland, Oregon. Um, sorry.
40:33
And uh, let's see if I can I, APO, oh, there we go.
40:36
Okay, now you can see.
40:39
So this was the same patient.
40:43
They got scanned again, same symptoms, some shortness
40:45
of breath and that same subtle little defect is
40:48
there and unchanged.
40:50
So what do you do with this? Do you call it an ems again,
40:53
call it a thrombus.
40:54
What do you think the VQ result would be in this?
40:56
Yeah, it's gonna be negative, right?
40:59
Do you suggest ultrasound?
41:01
Well, based on the literature, it would've been better not
41:03
to call this at all and
41:06
or just recommend some lower
41:07
extremity ultrasound or something.
41:09
Or at least give a differential. So what are the risks?
41:13
What happened to this particular patient?
41:16
She had a full hematology hypercoagulable workup,
41:20
negative money, four more cts the next year,
41:23
two lower extremity ultrasounds.
41:25
I mean this is common. The ball got in motion.
41:31
So another patient,
41:33
this preliminary one was called negative.
41:35
It is some poor enhancement.
41:37
No central emboli, no right heart strain.
41:39
Nothing here to be really concerned about.
41:41
This is clearly an artifact.
41:43
The next day the faculty read it
41:45
as positive for pulmonary embolus.
41:48
Okay? All
41:50
right, you rolled the ball.
41:54
We'll see what happens. We can be absolutely certain only
41:58
about things we do not understand.
42:00
So now I'm gonna take you into another realm.
42:03
I'm betting you didn't learn about this. When is an embolus?
42:07
Not really an embolus, okay, the concept of incite.
42:11
You thrombus these thrombi form within the vessel.
42:16
They didn't come downstream. How often does that happen?
42:20
Hmm, yeah. Relatively commonly. What are they called?
42:25
On every single CT and embolus.
42:29
Okay, here's the problem.
42:32
Patients with A RDS pneumonias can do it too.
42:36
Um, other sort of things can do it,
42:38
but the big one is diffuse ular damage A RDS
42:42
and part of A RDS is
42:44
to develop in situ thrombus within the arterials and venues.
42:47
That's pathologists will tell
42:49
you this, this is not a secret.
42:51
And there was a study here with covid pulmonary pathology
42:55
and they looked at 68 autopsies of these patients
42:57
with diffuse ular damage and 84% of them had microthrombi.
43:01
Yeah, of course, but that's part of the whole thing.
43:04
But they found that about half of them extended
43:08
into larger vessels where we could see them on the CT scan.
43:13
And guess what they're called? They were called emboli.
43:15
The other thing they've noticed, and of course is
43:18
that there is no association of anticoagulation
43:21
or no anticoagulation with the development
43:23
of these in situ thrombus.
43:25
Again, diffuse ular damage is like wound healing.
43:28
You cut the skin, a clot tends to form. Okay?
43:33
This was a paper in 2021
43:35
where they looked at electron microscopy
43:37
and they found that these covid patients,
43:38
but the same with A RDS had widespread in situ you thrombi
43:42
in the veins and arterials, okay?
43:45
This was part of the pathology, it's part
43:48
of the inflammation and wound healing.
43:52
This is a paper back in 1986.
43:55
This is how long we've known this.
43:57
I mean, we've known it before.
43:58
And if you look up any pathology site,
44:00
look at the histology of RES.
44:02
There will be that you will have well-documented fibrin
44:06
thrombosis within the arterials and venues.
44:09
And it doesn't matter the etiology.
44:11
Diffuse ular damage is a, is an injury to the lung
44:15
that results in injury to the alveoli.
44:17
To the interstitial with white,
44:19
with associated in situ thrombus.
44:22
Now what happens if the thrombus
44:23
extends back and you can see it?
44:25
What's it called? It's called an embolus. Why?
44:27
Because we're not teaching this. We're not teaching that.
44:30
This is part of the injury process.
44:33
And then anticoagulation doesn't really have an effect.
44:37
You're just giving them the risks
44:39
and these people are at great risk.
44:43
This is what histology looks like. Okay?
44:46
Widespread thrombus, doesn't matter the cause.
44:49
So this is a patient with coronavirus acute lung injury,
44:52
diffuse ular damage.
44:54
There are some thrombus.
44:56
Is that an embolus or is that thrombus in situ thrombus?
45:00
How can you tell? Well, uh, let's quote the studies.
45:05
There isn't any why we don't know about this.
45:09
We, the pathologists know this,
45:12
but we in the clinical world, we're not aware of it.
45:15
Now as radiologists, we should be aware of it.
45:18
Again, it's our privilege to look
45:20
inside these people and ask questions.
45:23
Yeah, it's, it's relatively common. So this is purely mine.
45:27
Goss is whatever it's worth what it's worth.
45:33
Here are some things that when I look at the pathology data
45:36
and the literature in their description, I try
45:38
to extrapolate, go back
45:40
and see if you have a linear thrombus,
45:44
especially in an area of acute lung injury
45:48
that doesn't branch and doesn't expand,
45:50
that's most likely gonna be an in situ thrombus.
45:53
But recommend bilateral lower extremity ultrasounds anyway
45:56
because if there's nothing there, then
45:59
what are you giving the anticoagulation for?
46:01
Because it's certainly not gonna help that.
46:03
The lung will take care of it as it heals.
46:06
You're just trying to prevent the next one, right?
46:09
How about this? That's clearly an embolus.
46:12
I'll go with that boo.
46:13
This one is not, I think this is an insight to thrombus.
46:17
There's no expansion. It's linear. There's no branching.
46:21
But this one, this one's small. There's a little branching.
46:24
I'm not sure here. I'm not sure. You know, gotta be humble.
46:28
No, there's no real data for this.
46:31
This one has expansion of the vessel.
46:33
That one makes me more nervous.
46:35
I would actually call that an embolus
46:37
because the thrombus shouldn't expand it.
46:40
It's part of the wound healing.
46:41
And their description is it tends to not expand.
46:44
And if anything might constrict when you see expansion
46:48
that suggests it came downstream.
46:50
If you see branching, that suggests it came downstream.
46:54
This one, I called this one
46:56
and I said, look, this is overwhelmingly likely
46:59
in situ you thrombus.
47:00
It's the only one there. It's right in the area.
47:02
It's linear. There's no expansion.
47:04
Do the bilateral lower extremities. They're negative.
47:07
What did they do? They treat 'em anyway.
47:10
They treat 'em with anticoagulation anyway.
47:13
Well, you know, you shouldn't be doing this.
47:16
So casually, what is the rate of complications saying covid?
47:21
Well, the venous thrombosis rate was 4.8%.
47:25
But that was over called
47:26
because a number of these insights you thro
47:28
by were called emboli.
47:30
But that was part of the wound healing.
47:32
Diffuse ular damage histology, normal
47:35
bleeding complications were almost 5%.
47:37
They were the same. 4.8.
47:40
You, you see these
47:41
and they don't, you're not gonna benefit these people
47:44
with insight two thrombus.
47:45
The problem is, is that how do you tell the difference?
47:49
And it can be difficult 'cause there's no real data.
47:52
If you're interested in the topic,
47:53
we published a paper a JR 2023, um, references there.
47:58
We kind of dive into it a bit.
48:01
The greatest optical discovery is not ignorance,
48:04
it's the illusion of knowledge.
48:07
So I'm gonna finish off with a couple of things here.
48:09
Anticoagulation. Oh, anticoagulation.
48:13
People are like snowflakes people, all right?
48:15
Not all thrombi emboli
48:17
or cardiopulmonary status are the same.
48:19
Yet we treat with an algorithmic approach.
48:22
Once you say an embolus, they get the three months.
48:25
And if it was, if it's a recurrence
48:27
or you know, it was non provoked, then might go on for life,
48:32
which may not be a bad idea actually.
48:35
I'm not saying that's a bad thing,
48:37
but, uh, the most important is that,
48:39
is it idiopathic or is it provoked?
48:41
If it's provoked, you know, um, you probably just, you know,
48:45
you do a short term and there's no real
48:47
increased risk later.
48:49
But these are the ones you worry a little bit more about.
48:53
All right. This study, I don't know
48:54
how they got it through IRB.
48:56
This is one of the very, very few studies out there.
48:59
And again, 87 ambulatory, not, you know,
49:01
they're the healthy people, the numbers are eh, uh,
49:04
but this was interesting.
49:06
This was one of the only ones where
49:09
no treatment was started.
49:11
Most of the papers that you'll find treatment
49:14
with anticoagulation was initiated at first
49:16
and then retracted after a short period of time.
49:19
You can't do that. You can't do that
49:22
because once you anticoagulate,
49:24
the body's hemostasis is going
49:26
to activate the coagulation system to maintain balance.
49:29
Now you suddenly take it away and you've got a thrombus.
49:32
Sitis, yeah, it's gonna propagate.
49:35
Yeah, it's gonna propagate.
49:37
But if you don't treat it at
49:38
all, this is what they found.
49:43
There was no difference in clot progression in the DVT.
49:46
There was no difference in DVT regression.
49:49
There was no difference in silent emboli.
49:52
And there was one person who died
49:54
and that was the anticoagulation group.
49:57
Okay? This must be what you know,
50:02
is that, is that correct?
50:04
Well, you know, some people will benefit from
50:06
anticoagulation, but a number of people may not, may not.
50:10
Okay. 30 5-year-old patient jumped off a bridge,
50:14
broke T seven fracture.
50:16
Burst fracture, lots of hematoma. What else is there?
50:18
Well, there's multiple pulmonary bolli with expansion.
50:21
Bilateral, no right heart strain, no symptoms, no hypoxia.
50:26
Do you treat this patient well,
50:29
trauma folks said no.
50:32
How did she do? She did fine. She did fine.
50:35
I don't know why they scanned her 30 days later.
50:37
It made no sense, but they were all gone.
50:42
This is on the number needed to treat website.
50:44
Very interesting website run by kind
50:45
of epidemiologically trained physicians
50:48
and on there anticoagulation for acute venous embolism,
50:51
PE and summary.
50:53
Those who got anticoagulation,
50:54
a hundred percent found no benefit.
50:56
Okay? Is a hundred percent no. In medicine there is no 0%.
51:00
There is no a hundred percent.
51:02
But have you ever even heard anyone say that?
51:06
Have you ever even heard someone mention it?
51:10
It's not a hundred percent
51:11
because there are so few studies out there,
51:15
but the studies that they did find really didn't seem
51:18
anticoagulation, didn't seem to affect them.
51:20
Now I'm sure there are patients, especially some
51:23
of those ICU patients
51:24
who would benefit from anticoagulation.
51:26
I don't know who they would be,
51:28
but I do know that we aggressively treat.
51:31
Now what if the patient has a left ventricular mural
51:34
thrombus or atrial fibrillation clot?
51:37
Those people I would definitely treat with anticoagulation
51:39
because the lung is not be able to protect them.
51:41
It's on the other side, right? It's on the other side.
51:47
Last concept, IV heparin.
51:51
A lot of patients who get IV heparin, they tend
51:54
to improve quickly.
51:56
Not all of them. These are symptomatic pulmonary emboli,
51:59
but they tend to improve quickly.
52:02
Why? Well,
52:04
right heart strain is not related to clock burden.
52:08
So there's gotta be another mechanism at play.
52:11
One that's not taught. And this particular paper was
52:16
extremely interesting.
52:17
They actually did say, you know what embol I do,
52:20
they induce a cascade of pulmonary vasal constriction
52:25
through the vascular bed in a number of patients.
52:28
So the pulmonary vascular resistance is now high.
52:31
The right heart will strain
52:35
and these are the people who have the symptoms.
52:38
You give IV heparin and it turns out IV heparin
52:41
and IV lovenox are pulmonary vasodilators,
52:44
pulmonary artery vasodilators.
52:46
So now they've released the cascade.
52:49
The right heart strain decreases.
52:53
This is fascinating.
52:55
And in the paper they say we've known this
52:57
for about 60 years, but nobody has studied it much.
53:00
There were a few studies on dogs using, um, sildenafil
53:04
and nitrous oxide and stuff, and they had the same results.
53:09
Symptoms improved within about an hour or two.
53:12
Now you might have been told we have
53:14
to bridge Coumadin with heparin.
53:17
Well, why? Oh,
53:18
because Coumadin induces a transient hypercoagulation.
53:22
Okay, wait a minute. I I'm, I'm sorry, you what?
53:26
What paper were you quoting? What's the biochemistry?
53:29
Where's the study on this
53:31
and how does that make things worse?
53:34
You see, Coumadin doesn't dilate the pulmonary arteries.
53:37
And how do you die in embolus is right heart
53:39
strain in arrhythmias.
53:41
And it seems that the most common cause is
53:44
pulmonary vasal constriction.
53:45
So you give IV heparin
53:47
and bridge, you've addressed the reason they die
53:49
and then they go to Coumadin.
53:52
But instead what we'll do is we'll make up a reason.
53:55
We'll just make up a reason.
53:58
So let's go back to our example. The talk is done.
54:02
28-year-old female, my resident.
54:06
All of this information now that we're done,
54:11
let's see how well this stuck.
54:13
Why did she develop large DVT and embolus?
54:17
She was sitting down reading, is that sufficient?
54:21
Cause no, you need all three.
54:23
Turns out she's a marathon trainer,
54:25
was up in the up up in the Wasatch range in um, Utah fell,
54:30
got a big bruise and muscle strain.
54:34
She was sitting and it turned out
54:39
later because she wasn't pregnant
54:40
and all these things that would've
54:42
explained it and not had anyone.
54:43
Look, she is, has a protein C deficiency
54:46
and she has a family history of it.
54:47
So she had all three. If she was
54:50
pregnant, would anyone have looked?
54:52
Probably not. Why did she develop hypoxia?
54:56
Because the emboli blocked it. No, that's dead space.
55:00
She was had right heart strain.
55:01
And on her CT she had a PFO, she had shunt.
55:06
Why did she improve so quickly
55:07
with ivy heparin and then go back to work?
55:10
Because IV heparin, pulmonary artery vasal dilates
55:14
reduces the right heart strain, closes the PFO.
55:21
This is it. It's functional lung, it's a filter.
55:25
It takes care of the emboli.
55:26
Sometimes the emboli can cause adverse effects,
55:30
but for the most part that's what it's style.
55:32
What its job is, watch out for false positives.
55:36
Be careful and just pause before you roll the ball.
55:39
You don't know what the downstream
55:40
complications are for the patient.
55:43
Right? Heart strain and pulmonary artery and lower arteries.
55:46
These are the two factors
55:48
that will increase someone's morbidity and mortality.
55:52
Acute lung injury of any cause will have in situ thrombus.
55:57
These people can also have pulmonary emboli.
55:59
How do you distinguish it too?
56:02
I'm not sure, but at least if you're aware of the concept
56:05
of in situ thrombus
56:06
and it's relatively common,
56:09
maybe at least you can bring it up and pose that question.
56:14
And pulmonary vasoconstriction cascade tends
56:17
to be the reason many people have right heart strain.
56:21
Now, if you gave IV heparin to someone
56:22
with multiple lobar emboli and they didn't improve
56:25
after a few hours, okay, stop.
56:29
That's the patient where the conventional teaching
56:32
of it's a mechanical blockage
56:34
and you should think about going to do thrombolysis.
56:37
That's that patient you gave the IV heparin,
56:40
you've addressed, you've uh,
56:42
addressed the most common cause, pulmonary vasoconstriction.
56:45
It didn't improve it. Now you assume it's a
56:48
mechanical obstruction.
56:51
And as promised,
56:54
education is the progression from a cocky ignorance
56:57
to a miserable uncertainty.
57:00
Thank you so much for listening and I am gonna stay around
57:03
and I'll try to answer some of these questions.
57:06
If you need to go, you can go,
57:09
but I'll see about some of these questions. Um,
57:12
Yeah, thanks so much for your lecture
57:13
and if you do have questions, go ahead and put 'em in that q
57:15
and A feature
57:17
and if you could open Okay, you found him.
57:20
Okay, I'll, I gotta through this first one,
57:23
is there any specific cutoff value
57:24
of D dimer which correlates with the probability of PE
57:28
new I call the D dimer.
57:30
Satan's uh, yeah, I am gonna say it. Satan's a*****e.
57:34
It's a terrible exam because it's way too sensitive.
57:37
It's way too sensitive and there's really no level
57:40
and I don't find it that helpful.
57:43
Um, I mean if it's negative that can be helpful,
57:46
but it's, there are studies
57:48
that have actually said we should increase it.
57:50
So on the ROC curve it's more useful
57:53
and there's both radiology
57:55
and clinical papers that have suggested it yet.
57:58
We still haven't done it.
58:00
Um, if the CTEP is negative
58:04
and there's still a high suspicion of pe, is VQ indicated?
58:06
No, because the VQ scan is more, uh, sensitive,
58:10
but it's not as specific.
58:11
You don't want to be going from the CTE to the vq.
58:15
But if you run into say like the patient who I think
58:19
that's just an artifact
58:21
or an in situ thrombus, if you were to do a VQ scan
58:25
and it was normal, then the OPED study would say,
58:28
this person's fine, but I would've said
58:32
they were fine from the ct.
58:33
But maybe people don't have quite that confidence
58:36
or such, then that could be a potential,
58:39
that could be a potential use.
58:42
Uh, the motion artifact seems
58:44
to produce a Lenin form artifact.
58:47
Hmm. I hadn't noticed that.
58:51
That's a good observation of I will look
58:55
over the next year or so.
58:59
Hmm, I hadn't noticed that. Um, let's see.
59:04
Please review normal appearance
59:06
of int ventricular septum versus
59:07
appearance of right heart strain.
59:09
Okay. Yeah. Intraventricular septum really should be curved
59:12
at gentle curvature to the right ventricle.
59:15
One of the things that happens is first the posterior
59:19
aspect here, lemme get that.
59:20
The posterior aspect of the septum straightens,
59:23
there's still a little curve anteriorly
59:25
and then it'll start to get concave
59:29
and the anterior portion will start
59:32
to flatten when the whole thing is flattened.
59:34
That's usually pretty severe, right?
59:36
Heart strain, some, uh, moderate.
59:39
I found that you still have a little bit
59:41
of curvature anteriorly,
59:43
but there might be straightening or concavity.
59:45
But the first part will be the, the base
59:47
or the posterior aspect of the intraventricular septum.
59:51
Okay. But look at the intraatrial septum too.
59:53
So, you know, if you see the intraatrial septum convex
59:58
into left atrium, that's a pretty good sign
60:00
that there's some heart strain present
60:02
and that's much more, uh, compliant.
60:05
Okay. After pe how often do you see pneumatic seals?
60:11
Never, uh, I do see them with infections,
60:16
but I do not see pneumatic seals with pulmonary bolli
60:21
and even infarcts, infarcts simply melt.
60:26
So when people say infarcts cavitate, no
60:30
infected infarcts cavitate, but not infarcts.
60:35
Okay. How
60:36
to differentiate acute right heart from thrombus, from chronic.
60:39
Oh, good one. Um, that can be tricky.
60:42
I use the right ventricular anterior
60:45
or free wall four millimeters or greater.
60:48
And I tend to say this is more of poor pulmon alley
60:52
or chronic heart strain.
60:55
Okay. Um, if it's really thin, I favor acute,
60:59
but if the pulmonary artery's really large,
61:02
how sure can you be, uh, I favor
61:07
it's probably preexisting.
61:09
It's kind of tough to tell, but that's a great question.
61:12
But if the right ventricular free wall is greater than four
61:15
millimeters and the pulmonary artery is big,
61:18
it's probably preexisting.
61:21
Okay. How can we overcome the flow artifact?
61:25
Oh, um, understand its presence. It's so common.
61:29
It is so common. If you need to repeat, repeat, uh,
61:33
with a longer delay, uh, check the legs
61:37
with doppler ultrasound.
61:38
If you don't wanna scan them again,
61:40
but it, they're all at the same level
61:43
and you will see the gradual opacification
61:47
mixing heterogeneous in, uh, contrast
61:51
and then there's no enhancement
61:54
and the pulmonary veins will probably not enhance either.
61:57
Okay. No expansion all at the same level.
62:01
Um, usually in the setting of, uh, some sort
62:04
of cardiomyopathy or reduced cardiac output.
62:08
It is so common. Please don't call those emboli.
62:12
'cause that, that to me has been one of the most common,
62:14
even more than motion artifact, uh, reasons
62:17
for false positives.
62:20
Okay. Uh, what do we do with subsegmental emboli?
62:25
Do we call them knowing the patient? Yeah.
62:27
Um, welcome to my world.
62:31
Uh, I usually say, uh,
62:36
subsegmental emboli without,
62:38
or subsegmental embolus without right heart strain.
62:43
If treatment is considered, evaluate lower extremity al
62:47
with ultrasound in, um, or these are often incidental
62:52
and in the literature have not been shown to be a problem.
62:55
However, evaluation with lower extremity ultrasound, I'm,
62:58
I'm a big fan of that because if there's something A DVT
63:02
above the knee, I still wouldn't take
63:04
anticoagulation myself.
63:05
But, you know, at least there's a reason, some reason
63:09
to give anticoagulation.
63:11
But if there's nothing in the legs,
63:13
I have no idea what you're treating.
63:15
'cause the emboli will be chopped up
63:17
and recycled in the lung,
63:18
especially without right heart strain.
63:21
The truth is though, when you say it,
63:25
even if you say all those things,
63:26
which I do, they still get treated.
63:30
Um, you just do what you can do.
63:34
Uh, what's the value of detection and reporting?
63:36
Small PE in instigating a workup that
63:41
detects underlying cardio?
63:43
Oh, coagulopathies like factor V and lupus. Um, yeah.
63:47
Uh, I
63:52
don't that to me, I would like
63:57
to know there's a reason for those small mli.
64:00
Um, they've had some recent trauma is a big one.
64:04
Like they're, they're coming off an ankle injury.
64:06
That's the ones I see most often in the younger patients.
64:09
'cause that's who you'd consider this with, right?
64:11
Not so much the older patients.
64:12
You think more cancer for them,
64:14
but younger patients is when you think of these genetic and,
64:17
and autoimmune things.
64:18
And I'd like to have a reason.
64:21
And so if, if there's no, you know, reason
64:24
or provoke, uh, cause then consideration for, you know,
64:29
hematology workup is suggested and they probably will be.
64:33
'cause most young people, once you call
64:34
it, and there's no reason.
64:36
They'll go to hematology and have it worked up.
64:40
Um, that's kind of where I go.
64:41
Just make sure that they are actually emboli
64:44
and if you're not sure, you're not sure.
64:46
Um, let's just kind of make sure they have it. Okay.
64:50
How to differentiate ineffective post MBI area.
64:56
Oh, I don't quite understand that. Abscess. Oh, infective.
65:01
Uh, post mla, uh, cavitation is usually a,
65:05
uh, cavitation.
65:07
Infarcts do not cavitate infarcts do
65:09
not have air broncho grams.
65:10
Infarcts do not cavitate if the cavitate, you consider
65:15
a superimposed infection until proven otherwise.
65:21
That's the word I put until proven otherwise. Okay.
65:26
Oh, thank you. Okay. With a patient with submassive pe
65:29
echo demonstrating right heart strain.
65:31
I don't care what the echo says, I, I don't listen
65:33
to the echo and raised tropen trope
65:36
and borderline hypotension.
65:37
Okay. These, these are sick patients.
65:39
Do you proceed to thrombolysis?
65:41
No, no, that's, no, you don't. Just bear with me.
65:46
You can call 'em, tell 'em, you know,
65:49
maybe come in if they're really
65:51
that borderline, maybe you inject it.
65:53
But I would give a trial of IV heparin or IV lovenox first.
65:58
Okay. Because most of the time they will improve,
66:02
but you'll know within an hour.
66:05
Okay. You'll know within an hour.
66:06
And if they're not improving, absolutely thrombolysis.
66:11
What I find is, uh, the reason I get nervous, I mean
66:16
that patient's really sick.
66:17
So if he did thrombolysis, he did it, it's fine.
66:19
But I, I find it worrisome that there are patients
66:21
who are much more stable with right heart strain,
66:24
where people jump into thrombolysis immediately
66:26
and then they develop these complications
66:28
that are quite severe when you trial of IV heparin.
66:32
If they're stable enough, just give it an hour or two.
66:35
If they don't improve, most will improve.
66:37
But if they don't, those are the patients that would go, uh,
66:41
respond well to thrombolysis.
66:44
Um, boy, that actually sounds pretty unstable.
66:47
So, uh, when is it a role for vq, uh, young patients
66:53
is in order of vq first, if no contradiction better
66:57
to avoid over to Yes.
66:59
On both. Um, yes.
67:02
Useful to repeat in three months.
67:07
I don't know if it's useful. Um, I symptoms persisting.
67:12
Um, maybe, but I like it. Young people go with vq.
67:17
I love it because those tiny subsegmental Yeah,
67:20
you don't have to worry about 'em.
67:21
It's negative. Which it probably will be. That's awesome.
67:25
OpID says they have a great prognosis.
67:27
You avoid the CT artifact dilemma. That is kind of common.
67:32
So your EQ is underutilized in younger patients
67:35
or patients who are older but have normal lungs.
67:39
So Absolutely.
67:41
Is doing peripheral runoff, the lower extremity venography.
67:44
Ooh, no, I, it's been studied.
67:47
I like it, but it's just, that's a lot of radiation.
67:50
That's a lot of imaging. That's a big price.
67:53
Um, and you'd have to do it on everyone.
67:56
'cause you'd have to sort of know right from the start.
67:58
Like I think that's an artifact we should, oh no,
68:00
the patient's already back in the, back in their bed.
68:04
Um, I, I would just probably go with ultrasound.
68:08
Um, but we did it for a while,
68:10
but, woo, that was a lot of imaging too.
68:13
It'll, it'll wear you down with decision making fatigue too.
68:18
Alright. When you measure RV
68:20
and LV to calculate the RVN ratio,
68:22
do you measure your inner wall to the inner wall?
68:25
Yes. Inner wall to inner wall.
68:27
One centimeter from the valve. Both sides. Okay.
68:30
It's just a rule of thumb. Right.
68:32
And it's just kind of giving you an idea, uh,
68:36
PE workup in pregnancy.
68:37
Yeah. I got a whole talk on the myths of, uh,
68:40
pregnancy is a hypercoagulable state.
68:43
I totally don't believe that the,
68:45
the papers are based on surrogate endpoints
68:48
and the coagulation cascade.
68:50
But when you look at the THROMBOELASTOGRAPHY analyzer,
68:53
pregnant and non-pregnant patients are pretty much the same.
68:56
Confidence intervals are basically overlapped.
69:00
Um, I personally think that if you develop a DVT
69:03
or a PE in pregnancy, you probably have
69:07
a preexisting thrombophilia.
69:09
There's a patient, uh, there's a paper by Cunningham
69:12
and all 2010 I think, where they found that two thirds
69:16
of patients who were pregnant in postpartum
69:17
who developed DVT had a known thrombophilia
69:21
and they actually theorized that.
69:23
The other third probably did too.
69:25
It was just a number of things in the coagulation cascade
69:28
that we don't know yet.
69:31
So I do think that that actually is.
69:37
Okay.
69:39
I think you got 'em all. Alright.
69:41
Yeah, if anyone has any questions, this is my email.
69:44
Feel free. Don't mistake my enthusiasm for intimidation.
69:47
Okay.
69:49
Well, thank you so much for sharing your lecture today
69:51
and answering all those questions.
69:52
We love having you on the new conference stage
69:55
and appreciate all that you've done.
69:58
My pleasure. Have a great day everyone.
70:01
Thank you so much. And for everyone else, thank you
70:03
so much for participating in today's new conference
70:04
and all those awesome questions.
70:06
You can access the recording of today's conference
70:09
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70:10
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70:13
We'll also send you the replay
70:15
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70:19
Be sure to join us next week on Thursday,
70:21
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70:24
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70:27
A Beginner's Guide to CT
70:29
for Coronary Artery Anomalies in the pediatric population.
70:32
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70:35
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