Interactive Transcript
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Hello and welcome to Noon Conference,
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You can also sign up for a free trial of our premium membership to get access to
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hundreds of case-based micro-learning courses across all key radiology
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subspecialties. Today we are honored to welcome Dr.
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Mark Goslin for a lecture on obstructive pulmonary physiology from the imaging
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perspective, balloons, airway, inflammation, and dynamic collapse.
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Mark Goslin completed his medical school at McGill University Radiology
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residency at the University of Vermont and a cardiopulmonary imaging fellowship
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at Stanford University.
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He spent four years as faculty at University of Utah and 15 years as head of
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Cardiopulmonary Imaging at oh H S U. At the end of the lecture,
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please join Dr.
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Goslin in a q and a session where he will address questions you may have on
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today's topic.
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Please remember to use the q and a feature to submit your questions so we can
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get to as many before our time is up. With that,
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we're ready to begin today's lecture. Dr. Goslin, please take it from here.
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Hello everyone. Nice to be here with you.
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I'm gonna cover a topic here on basically obstructive
1:33
pulmonary physiology. Now,
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I did not use the word C O P D,
1:39
and I do that intentionally, and I'll explain why. So,
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lecture objectives.
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Today I'm gonna introduce the differential of C O
1:49
P D. Now, that term is used a lot. What are the things that actually give it?
1:55
Now I'm gonna look at imaging. I'm gonna look at the pathology literature.
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I'm gonna look at some of the clinical literature,
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and then we're gonna go over some clinical red flags.
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Now the reason I'm doing this is because this is a, it,
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the clinical is gonna be a lot of clinical in this talk,
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and there is gonna be a number of clues that a patient will present with that
2:14
can help us. And as always, um, in my lectures,
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I I believe firmly that we're all think alike. No one thinks very much.
2:23
So there's gonna be some different information here. So let's start off with,
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uh oh, this patient's chest radiograph, hyperinflated, cachexia,
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the clinical information. C O P D,
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what are you gonna say? What's your report impression?
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And I want you to think about that.
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How about this 1 31 year old with dyspnea,
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multiple C O P D admin admissions. These are the,
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these are the cts. What would you say?
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And I can tell you what the report said. And this is a really good radiologist,
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by the way, who read this, uh, findings consistent with C O P D.
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What does that mean? What do you do with that?
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What's gonna happen to this person? Okay,
3:18
I want you to think about that.
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So there's a lot of misconceptions about this, and you know,
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through the years I've heard many different things.
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I've read many different things.
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And it's not that it's completely false,
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but it's not likely true either. Um, you know, pulmonologist,
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hyperinflation alongs with smoking history means emphysema maybe,
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but not necessarily lungs that extend below the 10th rib are hyperinflate and
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represents C O P D. Pulmonologists and radiologists say this, no,
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that's false. That's false. Don't count ribs.
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Emphysema is not diagnosed with imaging. It is a PPF T diagnosis. Wow. Okay.
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That, that's false. That's false.
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So the greatest obstacle discovery is not ignorance people.
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It's this illusion of knowledge.
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We think we know this stuff and then we propagate it on.
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This is the other problem I find, is that when we fo for,
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uh, force this information in,
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then we tend to ignore other problems.
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And we may also be causing problems for the patient by saying some of these
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things. Let me illustrate. So, uh, during round one time,
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patient has emphysema. She was exposed to secondhand smoke.
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That was the response that I got from a pulmonologist. When I said, Hey,
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you know, this person's been admitted multiple times,
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I think they need, they have another diagnosis here.
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And you know, it, it, it was tough to get this information out.
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Uh, this one was interesting. Hyper infl,
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not not uncommon hyperinflated lungs consistent with
5:05
emphysema or C O P D, whatever you wish. You could say, either one,
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that was a radiology report and agreed by the physician.
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What happened to this patient? Well,
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she lost her insurance because she lied about smoking.
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She didn't actually, but she lost her insurance.
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So what we put in a report can have great implications for a
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patient downstream, uh,
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either how they're treated or insurance or you know,
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what goes in their medical record. So we want to be a little careful about that.
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And another quote that I really like,
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we can be absolutely certain only about things we do not understand.
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And that's true. So here we go. This is a patient,
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35 year old non-smoking persistent dyspnea,
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some wheezing two years ago.
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You can see there's a lot of similarity nodules here.
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The diagnosis that she received was poorly responsive asthma.
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And that's okay. I want you to think about that. Poorly responsive asthma. Well,
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I mean that's not asthma, right? Asthma response. So if it doesn't,
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it's gonna be something else. In this case,
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it was sarcoid and sarcoid can present with this wheezing and asthma
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like symptoms, but they don't respond to therapy. Why?
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Because the small granulomas are in the bronchials. They breathe out,
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it traps the air, breathe in, air comes in.
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All right?
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Now what happens when you say C O P D? See, on my reports,
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I never use that word. I never ever use it.
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Because what happens when you say it is that there's this algorithmic thought
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process that goes on. So it's C O P D. Well,
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that leads to the same treatments. It's a reflux, right?
6:57
And the disadvantages is that there are other obstructive pulmonary conditions
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that will be overlooked. All right?
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Those other conditions are different. Physiologically,
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they're different pathologically, they have different treatment options.
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And if the patient doesn't previously have a diagnosis of C O P D,
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they could lose their insurance. So if I could encourage you,
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just try to avoid the term C O P D,
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again, this machine has no brain. Once you say it,
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there's going to be inhalers, steroids, plus or minus antibiotics.
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That's what they'll get. So try not to use it.
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So this is me. This is mine. My call this normal. Um,
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very scientific here, right?
7:50
So this is inspiration and this is expiration.
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What do you see in expiration? Well,
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you see the lungs get more dense as they go back. That's the air coming out.
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There is going to be a higher density dependently.
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The airways are held open by the cartilage so the air can get out.
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All right? And it's a very sort of uniform appearance, not Apache,
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sort of mosaicism. It's very uniform. This is normal.
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Now,
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when you see that a patient has a diagnosis of C O P D from here on in,
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what are you gonna think about? Well, okay, you got emphysema,
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which really represent balloons.
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And I'll explain why you have chronic bronchitis. Hmm?
8:39
You have asthma. That's reversible, right?
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Poorly responsive asthma is not asthma.
8:46
Then you have tricky bronchial lac. That's a dynamic collapse.
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And then you have constricted bronchiolitis. Those are also balloons.
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And then I also throw in bronchiectasis because that gives constricted
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bronchiolitis. Now,
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how many of you have heard these terms constricted bronchitis or trache?
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Bronchia. How common are they?
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They're pretty common. How often are they taught?
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How often have you diagnosed it? All right.
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One of the hallmarks I've learned in medical school was the persistence or
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recurrence of symptoms should alert you to a diagnosis being missed.
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And that's where these two fall in trache, brumation, constricted bronchiolitis,
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they don't respond to the traditional therapy. These people keep coming back.
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So when I look at obstructive pulmonary diseases, I think about, well,
9:46
there's inflammatory conditions. Yep, bronchiectasis, asthma,
9:49
chronic bronchitis. And then there are balloons. Now these are space occupying.
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They're not dynamic, right? They just take up space.
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And that's emphysema and constricted bronchiolitis.
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And then there's the dynamic collapse. That's trache, bronchial lac.
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That's different. Now,
10:08
trache bronchial can be seen in the setting of emphysema and it can be seen in
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the setting without emphysema. It's kind of an independent thing.
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So let's go through this. You're sitting down,
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you're gonna read what are the radiographic? Now cki,
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what are the radiographic signs of hyperinflation? Well,
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I've highlighted the big one. The diaphragm becomes flat.
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That reflects increased trapped residual volume.
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If you were to take the deepest breath,
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you possibly could and take a radiograph. The diaphragm will remain curved.
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When it is flat, that means there's increased trapped residual volume.
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Okay? From whatever cause it just says the lungs are hyperinflated.
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This is obstructive pulmonary physiology.
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Now the sternal diaphragmatic angle is a good way to look at that on the lateral
11:00
projection. Now you can also have increase with the retrosternal space. Sure,
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you can have increased AP diameter, but I don't want you to count ribs.
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Mine go down to T 12. I don't know, what does that tell you?
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It means I have big lungs. Petite people may have smaller lungs,
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but still be hyperinflated.
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You want to be looking at this a little bit more physiologic.
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So this is a normal lung. And you can see in the lateral projection, again,
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the lateral's really helpful here cuz it, it on the a p or pa,
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it takes a bit more hyperinflation to see that flattened appearance.
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So you wanna look at the sternum, diaphragm, sternum and diaphragm.
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It should be, you know, acute angles. As that starts to approach 90 degrees,
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that's an indication that the diaphragm is being compressed down.
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And there should be a nice gentle curve with a deeper posterior salus.
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This is the patient that I showed you before. Now look,
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this is about 90 degrees. The diaphragm is flat. So yes,
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this patient is hyperinflated. They do have obstructive pulmonary physiology.
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What is the cause?
12:13
Find out is there hyperinflation in this patient?
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They go down to the ninth posterior ribs,
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but the sternal diaphragm is about 90 degrees.
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There's a little bit more flattening. So yes,
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this patient does have some element of hyperinflation. All right?
12:29
Even though it doesn't go down to T 10, it doesn't matter.
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People are like snowflakes, right? So don't count ribs.
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Now that flattened diaphragm is an important feature physiologically,
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and I'll get into that later. Now,
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what does it look like on ct? Well or on radiograph? Emphysema,
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it is a vascular attenuation.
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As you destroy or hyperinflate alveoli,
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the vessels also get destroyed. So they tend to get matched.
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You destroy alveolis, you destroy the capillary.
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So you tend to have a VQ match still relative there.
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As you look at it, the vessels usually branch about, you know,
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25, 35 degrees. When you start to lose the vascular bed,
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that branch angle starts to increase, even approaching up to 90 degrees.
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Most of the emphysema tends to be in the upper LOEs, not, uh,
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alpha one antitrypsin and stuff are different.
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But most emphysema in the upper lobes,
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that is a space occupying balloon while will that to the h the hilum get
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depressed and immediately displaced.
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So they're pushed inferiorly immediately.
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And there is a crowding of those vessels in the lower lobes.
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The so-called hyper lucency in the upper lobes really is just the increased
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difference between all of the vascularity going in,
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the lower lobes crowded and the lack of vascularity and increased branch angles.
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You also want to check for pulmonary arteries. Are they getting large?
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Because in the later stages patients develop pulmonary hypertension,
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which is a whole new problem.
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So that's one of the complications to be looking for.
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And cachexia may be present. Why?
14:15
So this would be a person with hyperinflation.
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This is actually emphysema.
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I would actually call this most likely emphysema from the radiograph. Why?
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Well, man, the sternal, uh, diaphragmatic is greater than 90 degrees.
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It's completely flat. Increased AP or, uh, retrosternal space. Okay?
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All of that is hyperinflated. But look at the h,
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this little notch right here from the trunk of interior, the right upper lobe,
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pulmonary artery,
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and the right lower lobe and middle lobe sort of trunk right here.
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There's a little notch that really should be the halfway point as an estimate
14:52
rule of thumb of the right hemithorax. And in this case,
14:57
you can see that it is actually closer to the bottom than it is to the top.
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And you can see the hilum not only are down,
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but they're immediately placed with crowding of the vessels down here.
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This is pretty much going to be, you know,
15:12
hyperinflation statistically most likely emphysema
15:16
on a radiograph. This one's pretty straightforward.
15:19
You can see the large bullet, you can see the hilum pushed down immediately.
15:24
Displaced vascular crowding here in the lower lobes. Um,
15:28
this is a very advanced emphysema. Okay? All right,
15:35
so this patient, what do we think? Two patients, if you look at the notch,
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this one is a little bit pushed down, a little bit of increased vascular,
15:44
uh, branching here. This is emphysema, upper lobes. But this patient,
15:49
you can see it's actually a little bit closer to the upper lobes.
15:54
The hyperinflation, which you can see with the diaphragm here, a bit flat,
15:58
is actually going to be more in the lower lobes.
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Is this emphysema? I wouldn't know that from the radiograph.
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I would just say that there is hyperinflation in both lower lobes.
16:08
I'd actually be thinking this is more likely trache brumation. But, uh,
16:12
the CT showed that there was all emphysema down there and the patient did have
16:16
alpha one 90 tripps in deficiency. But you know,
16:19
there are other causes of emphysema besides that. All right,
16:25
on ct, what you're looking for is essentially the dot,
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a dot or a line cyst doesn't have anything in it.
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And usually you can see a wall,
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but with emphysema there will be some residual interstitial.
16:41
So there will be this hole with either a line or a dot. If you see it,
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just call it emphysema. You don't have to say emphysema is changes, just,
16:49
you know, there's emphysema. And if you want,
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if you wanna get really high tech and go, you know, is it pan lobular bolus,
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central lobular, you don't have to though. Okay, these are cs.
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Okay? You can see the wall. There's nothing in them.
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Emphysema has little lines,
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dots and things in 'em. So that tells you by definition,
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that's not gonna be cyst. And there doesn't tend to be any definable walls.
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Sometimes you may see a vessel around there, it can be confusing,
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but in most cases that this is what emphysema is gonna look like.
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Now, what, why, why does it occur? It is actually,
17:29
the theory is the loss of elastin. Good theory. Um,
17:34
and the bronchi close. The bronchials, sorry, close when they,
17:38
when you breathe out. So what happens is the air tends to get trapped. Well,
17:43
what happens as you accumulate more and more and more air in
17:49
this kind of partially destroyed and um, compromised,
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uh, AVEs, well,
17:56
it tends to come around and it's gonna shut down the bronchial cuz the
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pressure's so high. Okay, now the bronchial shut down,
18:06
take a breath in. Is that gonna open it?
18:08
Is that a higher pressure than the ovulus? No, it's not.
18:13
So it doesn't really have that so-called dynamic,
18:17
what people say,
18:19
it's actually just balloons and it's space occupying,
18:23
which increases the end tial residual void.
18:27
So people breathe up here, right?
18:31
Sometimes they use their shoulders. Oh, that just reflects,
18:34
the lungs are markedly hyperinflated. The diaphragm is flat.
18:38
So there's very little diaphragmatic excursion.
18:41
That's a space occupying process. When you look at pathology, look,
18:46
go to an autopsy and a patient with an emphysematous lung.
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When they take the lungs out of the body and put it on the table,
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the lung collapses, but not the emphysema. See,
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they still remain hyperinflated, they're locked. Nothing gets in,
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nothing gets out. When you see patients like this,
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oh, there's emphysema, there's your dots. And this is a ground-glass process.
19:10
Cellular N S I P. That's okay. Nothing gets in. It's, it's avoiding it,
19:15
it's going around it. This is a consolidated pneumonia. Is this cavitation?
19:20
No, these are areas of emphysema. The consolidation goes around it.
19:24
Nothing gets in. Nothing gets out.
19:28
So another patient with a consolidated pneumonia,
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that's why you got that sort of Swiss cheese appearance.
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It just doesn't tend to get in. So once it locks,
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it locks. What is the surgery for?
19:43
Advanced emphysema? What's it called? Right?
19:48
Lung reduction surgery. See, it's in the name,
19:52
it's in the name.
19:53
You're removing this portion of all this emphysematous lung.
19:59
Now the diaphragm starts to come up,
20:02
the space occupying balloons are less.
20:05
And the patient goes from here
20:09
to a more normal breathing pattern because the end title residual volume has
20:14
been improved. So remember the surgical therapy, it's in the name.
20:20
Now why the cachexia with severely hyperinflated lungs?
20:23
This patient is cachectic. You can see there's hyperinflation.
20:26
Is this emphysema? You look here. Well, that looks about halfway. I don't know,
20:31
may I guess it could be. But this isn't clearly emphysema.
20:35
So you wanna be careful about that.
20:36
And you also wanna be careful about calling it C O P D. Could be something else,
20:40
right? Could be traum milia, which is a form of it,
20:44
but it's something else. Now, why do they get cachectic?
20:48
I want you to look at this diaphragm again. When we breathe,
20:52
the diaphragm goes down.
20:53
There's a huge amount of negative pressure in the intrathoracic cavity.
20:57
This accentuates the inflow from the superior venava and inferior venava.
21:01
And when the diaphragm is down like this, there's no diaphragm excursion.
21:05
The pressures are high within the lungs, okay?
21:10
They're high. Now remember, the venous inflow is a low,
21:15
low pressure state. It relies on the increase in negative,
21:19
negative intrathoracic pressures to sort of basically suck it right on into the
21:23
right atrium and then move it through. But in these patients,
21:30
yeah, venous return might be compromised. Hey, now of course,
21:34
one of the theories that was given, and it's not given as a theory,
21:37
it's told to you that it's known, is that, oh, they can't eat enough.
21:42
Okay? That's made up. That's made up stuff.
21:45
Let's go back to basic science.
21:47
Let's try to figure this out physiologically.
21:52
When you take a breath in, this is my liver, by the way. Um,
21:56
this is the inferior cava expiration. When you take a breath in,
22:00
that's what it does. And it does. So suddenly don't believe me.
22:04
Put an ultrasound on your liver, take a breath out and hold it.
22:08
Look at the I B C. Now take a breath in, watch what happens. Closes,
22:14
suck the, uh, venous flow right into the right atrium. Okay?
22:20
These patients have,
22:21
with their high intrathoracic pressures and high right atrial filling pressures.
22:26
Well, this isn't gonna happen very well. So the venous blood flow is reduced.
22:31
I mean, you can see some patients here, the cachectic patient, um,
22:35
the kidneys are enhancing, still a little bit arterial,
22:37
but they do have the venous in flow. The spleen is pacified,
22:41
but the superior cava still hasn't really opacified yet. Now,
22:46
CT is just an indirect way, but if and when I was a, uh, resident,
22:51
way back when we used to do mesenteric angiograms, the conventional,
22:56
and when they would inject these patients, you would see this, uh,
23:00
superior mesenteric flow moving like this. Very slow,
23:06
very slow
23:08
because it can't get in the intrathoracic cavity.
23:12
So a more likely explanation here for why patients with severely hyperinflated
23:16
lungs for whatever reason,
23:18
is that they get this chronic venous ischemia, mesenteric ischemia,
23:23
you can't eat very much because then you get pain. That's more likely, I think,
23:28
as a hypothesis for why patients get cachectic.
23:33
In hyperinflated states, this patient is cachectic,
23:36
lost 30 pounds over four days, diagnosed with C O P D. Um,
23:41
they put in, uh, a feeding tube,
23:44
fed her aggressively because she's malnourished. What happened? Well,
23:49
pneumatosis, small bowel infarct.
23:54
Why venous ischemia? Most likely they did do a vascular,
23:59
um, ultrasound. The arteries were normal, but they didn't look at the veins.
24:05
Okay, severe tricuspid regurgitation. Why is this patient cachectic? Again,
24:10
there are other reasons that can block and limit the filling of the right
24:15
atrium. So it's a hypothesis,
24:18
but it seems to make a lot more physiologic sense. Uh,
24:23
I quote this truth passes through three stages. People, first it is ridiculed.
24:27
Second, it is violently imposed. Third,
24:30
it is eventually accepted as being self-evident. All right,
24:35
let's move on. Arthritis, severe arthritis, rheumatoid arthritis.
24:40
The patient has had three C O P D admissions. Okay, what's, what's the key here?
24:45
The, when you were sitting down and reading these things, what did you notice?
24:49
Immediately, let, let me take you back.
24:52
The persistence or recurrence of symptoms often indicates that a diagnosis
24:57
is being missed. The key here is three C O P D admissions.
25:03
That kind of is a red flag that says, you know,
25:07
I think this patient has something else.
25:10
You can see the severe erosions of rheumatoid arthritis. Well,
25:13
what are chronic rheumatoid arthritis treated with often? Well,
25:17
she was treated with steroids for a l um, a long time.
25:21
What does steroids do? Well, you know, they do a lot of harm in many ways.
25:25
They can also be helpful, but they also, uh, have their, have their problems.
25:30
So she's got these areas of ground, glasss, nodularity,
25:34
little cysts. And I would've said, okay, that's probably follicular bronchitis.
25:38
I won't get into what, what that is, but it is associated rheumatoid arthritis.
25:43
The other thing that came up is that she breathes through per slips.
25:48
Now what does that mean when you hear someone breathe through per slips,
25:52
they're auto peeping. They're auto peeping.
25:57
That is classically associated with emphysema.
26:00
But we've just noted that emphysema is not a dynamic process.
26:04
It is just a space occupying.
26:07
So if they're breathing through per lips, what does that probably tell you?
26:12
You're gonna find on ct? Well,
26:15
you're gonna find trachea, bronchia,
26:19
and this is her in expiration. This is the tr the bronch eye,
26:23
and there is the bronch eye when she takes breath out. Notice as you go back,
26:28
it doesn't get more dense. It is global air trapping.
26:32
And when you have global air trapping, the obstruction is more central.
26:36
So you look very carefully at the airways,
26:41
okay? Mm-hmm. This is a so-called frown sign. I don't,
26:45
I don't use those signs. Um, I just look and I see, okay, that is trachea,
26:50
bronchia, moia, it's severe. There is global air trapping.
26:54
Now that latter part is important.
26:56
There are some people who have collapsible airways, trachea bronchi,
27:00
but they don't have any air trapping.
27:02
They don't have chronic alesis and they don't really have symptoms.
27:06
So you really wanna be looking closely when you see trache,
27:10
bronchia are there,
27:12
is there evidence of global air trapping and or chronic
27:17
asis? Because that's what you would expect when the airway collapses.
27:21
Now how well will the standard C O P D therapy work for this patient?
27:28
It won't. Okay.
27:32
Patients often state that too. Steroids don't seem to help at all.
27:36
I've had a number of patients who have gone to meet after seeing their scans and
27:40
they say the same thing.
27:41
There's this little FEV one portable device that blow into and
27:46
they use it like 30 to 50 times a day. Well, that's a form of auto peep,
27:51
right? That's a form of peep. Much like burst lip breathing,
27:56
right? So what is trache bronchia? Well,
27:59
the official DEF definition greater than 70% narrowing of the trachea and or
28:03
bronchi.
28:04
But the key here with global air trapping or chronic appearing aex,
28:10
this often can, can be from cartilage weakness.
28:13
You can have the so-called excessive dynamic trachea posterior wall collapse,
28:18
uh, two hallmarks clinically per lip breathing and vocal cord dysfunction.
28:24
So if you see C O P D and then over here you see vocal cord dysfunction, you go,
28:29
Hmm, because they use their vocal cords to auto peep.
28:33
Classically, they have a chronic cough. They'll even say this,
28:37
they have difficulty clearing secretions. Why?
28:40
Every time they cough the airway collapses.
28:44
Can't get the secretions out. They get exercise intolerance.
28:47
They may have some wheezing. Uh, dyspnea though is the big one.
28:51
And chronic cough. Patient has a diagnosis of C O P D 30 pack,
28:56
year of smoking, yes. Yep. Emphysema. And there's your, uh, resolving pneumonia.
29:01
Again, not getting in the emphysema. Nothing gets in, nothing gets out.
29:06
But look what happens here. The trachea and the,
29:09
or the bronchi collapse and there's global air trapping.
29:14
She has developed trachea bronchia in addition.
29:19
So you can have trache bronchia without emphysema or with em. It,
29:23
it's its own entity.
29:27
So some of the call marks,
29:28
poorly responsive asthma or recurrent C U P D exacerbations.
29:32
These are your clues, right? Those are your red flags associations. Oh,
29:37
look at, there it is. Chronic steroids. That's it. Chronic steroids.
29:42
So that's why these patients with autoimmune diseases, if you look carefully,
29:46
you'll probably see this. Now of course to diagnose trium, malacia and ct,
29:51
you really have to have some expiratory scans.
29:54
You won't see it on the inspiratory, you see it on the expiratory.
29:58
If the patients are breathing, then you'll see it. If they're not,
30:02
then you really won't be able to make that diagnosis unless you get expiration
30:07
scans. The other causes, uh, patients have constricted bronchiolitis.
30:13
Okay? Get chronic steroids. They develop trache, brumation next. All right?
30:18
And then the third one, sleep apnea. Now sleep apnea is tracheal lac,
30:23
but it's more in the hypopharynx, right? But when you get into the chest,
30:28
it goes the opposite. So it's actually those two are related.
30:31
So sleep apnea patients also tend to have trache, bronchial ceia.
30:36
Now what about steroids?
30:37
Now this was a study and it's done just with inhaled steroids.
30:40
But the same thing can be seen with the systemic steroids.
30:44
The steroids wreck the cartilage. They inhibit chondrocyte formations.
30:48
So formation of more,
30:50
they cause vascular congestion and then they cause the smooth muscle atrophy
30:55
and thinning of the bronch eye. What happens next? Oh boy. Yeah.
31:00
Trache, bronchia. So a lot of these patients with C O P D, oh,
31:05
they're not responding. What do we do? Well, let's give more steroids. Time out,
31:10
time out, slow down. Um,
31:12
because you actually end up making it worse.
31:17
And that's kind of what tends to happen. Now this is a patient,
31:21
and I'm gonna bring this to the real life. Now,
31:23
how many CTAs do you read for pulmonary embolus? Hmm. Way too many probably.
31:28
So when you have a patient with a CTA for pulmonary embolus because
31:34
of C O P D, shortness of breath dyspnea,
31:39
you know, um, this sort of thing,
31:42
you have to look at the trachea and the bronchi. I look there first.
31:47
I hardly, I look at the pulmonaries last, uh,
31:49
because this is oftentimes where you'll see it.
31:54
They may not be able to hold their breath.
31:56
So this patient had per lip breathing rule out pulmonary embolus. Well,
32:01
the trachea is completely collapsed and on the expiration,
32:05
you see there's no increasing area of density that it's all globally air
32:09
trapped. Couple of areas here, got some air out, this is their problem.
32:15
What would you recommend to this person? A trial, A BiPAP, right?
32:19
What's BiPAP? Right?
32:22
It's another way to auto or a way to peep and it holds the airway open longer
32:27
so that they can get some more air out. Maybe secretions, BiPAP.
32:32
And one of the hallmarks is, is that when you see people like that and you know,
32:36
I call the ER and tell 'em this is what the God give a trial,
32:38
a BiPAP within about 15 minutes,
32:41
the patients often are like feeling much better. That's a pretty good sign.
32:46
You have a dynamic collapse. What is the incidence? Well,
32:51
of all CTAs, this is from uh, 2003. So, uh,
32:56
one out of 10 had trache bronchia, all pulmonary CTAs, one outta 10.
33:02
I actually think it's a little higher,
33:03
but maybe that's just the patient population. I'm reading red flags,
33:07
shortness of breath. C T A for shortness of breath.
33:10
Gotta look at the trac in the bronch eye chest pain.
33:14
And you gotta look at the heart pericardium aorta. Yes,
33:18
but with shortness of breath you have to look at the trachea.
33:23
Okay? Or when they have C O P D as listed,
33:27
you gotta have expiration.
33:29
When they have a C O P D diagnosis for their ct pulmonary angio two outta 10 had
33:34
tracheal bone lac. When they had severe asthma,
33:37
seven out of 10 had trache brumation the cause.
33:42
So is this common? Yes it is.
33:46
It will not take you long till you see this. I'm,
33:51
I promise you. Okay,
33:54
so this patient shortness of breath rule pe known pe,
33:58
severe trachea lac, global air trapping, uh,
34:02
the patient and I called the ER and told him and I go, yeah,
34:06
that person probably can't cough up their secretions, right?
34:08
Cuz they have these secretions here. And he goes, yeah, yeah,
34:11
that patient said that. Yeah. Yep. Um,
34:15
did improve quickly on BiPAP. Actually the,
34:19
this patient particularly was discharged. He was about to get admitted.
34:24
All right, this patient who severe tracheal lac,
34:29
they are intubated, they are unable to extubate. There is global air trapping.
34:34
Why can't they extubate at this point? Well,
34:37
it's because they need that peep to hold their airways open.
34:42
This was, you know, interesting too because in in rounds it was, you know,
34:46
this patient had been in chronic steroids for C O P D.
34:50
This probably made the trachea bronchial malacia much worse at this
34:55
point, they cannot extubate. Now what will happen?
35:00
Chronic steroids, they're chronically ext, uh, they,
35:03
they're intubated for multiple days. Yeah, they develop a,
35:07
a pneumonia, well we gotta get them off the steroids.
35:11
So you start to taper the steroids,
35:13
but the adrenals don't work and they're in crisis because of the pneumonia.
35:16
What happens? Well, their blood pressure drops,
35:18
they become unstable and then you put 'em back in the steroids and things
35:21
stabilize. The conclusion was, oh,
35:25
well that's why steroids are good for C O P D. Right? Circular reasoning.
35:29
Gotta be careful about this, right? So the more you start to understand,
35:34
the more you say, you know, this stuff is hard, it is confusing.
35:39
It's not that simple. Uh oh,
35:42
mark Twain education is a progression from a cocky ignorance to a miserable
35:46
uncertainty. Yeah. Amen. All right,
35:51
well let's shift gears. 58 year old LDS woman. Uh, and you,
35:55
I would, I worked at the University of Utah, so I saw a lot of L d s patients.
36:00
Uh, persistent dyspnea started eight years ago. All right, stop.
36:06
What's the thing here that says, whoa, okay, that was helpful.
36:11
There's a huge clinical clue here. In fact,
36:14
I don't even need really to image this patient.
36:16
You already sort of know what the diagnosis is. It started eight years ago.
36:22
She has hyperinflated lungs. You can see that sternal diaphragms 90 degrees,
36:26
not much here, uh, for curvature.
36:29
But I don't see that sort of emphysema kind of look the vessel attenuation that
36:34
these are branching.
36:35
Normally she has something else that's causing this obstructive pulmonary
36:39
physiology. What had happened now with this patient too,
36:44
is that she lost her health insurance for lying about smoking.
36:48
Now at the University of Utah,
36:49
there was a clinic every Thursday afternoon run by the pulmonary department that
36:54
took in patients who had lost their insurance to uh,
36:58
something pulmonary based and the vast majority of them.
37:02
And it was like a six week waiting list. That, that,
37:05
so it's common because we would say as radiologists all findings consistently
37:09
with C O P D and
37:14
no insurance. So they come to the University of Utah,
37:17
we image 'em and then you see this is the patient. Is this emphysema? No,
37:21
this is mosaic. This is a mosaic lung attenuation.
37:24
The vessels are really shrunk here. There is actually going to be air trapping.
37:29
And this is the inspiration and expiration. It's not trachea.
37:33
Bronchial moia in this one. And remember trache,
37:36
bronchial moia tends to cause global air trapping cause the obstruction is
37:39
central. This is more peripheral.
37:42
And so you get these areas of mosaicism and that's the air trapping
37:46
scene.
37:47
Cons consistently with constricted bronchiolitis used to be called
37:52
bronchiolitis o litter,
37:54
but it got changed to constricted bronchiolitis because there was some confusion
37:58
between bronchitis o litter and bronchitis O litter with organizing pneumonia
38:02
now called cop. Okay?
38:05
So the key here was she knew when this started.
38:11
If you ask a patient with emphysema, when did your breathing problem start?
38:14
I go, I dunno, trigger bronch. Maybe, uh, you know,
38:19
a few months ago with constricted bronchiolitis,
38:22
there is an insult to the airways and it's usually a specific event.
38:27
Oftentimes it's a respiratory viral infection like influenza or mycoplasma or
38:32
something. And it causes the bronch osa to uccr and then heal with a scar.
38:38
And then the hyperinflation distally occurs through the collateral aird drift of
38:43
the pores of con and canals of lamber until it gets so hyperinflated.
38:48
It also manifests as balloons or space occupying. It's not dynamic,
38:53
it's not gonna be like the purse lip breathing thing.
38:56
She did regain her insurance by the way.
39:00
Now bo I just do this cuz it's funny. Um,
39:04
it's common but it's not commonly diagnosed. And this one's more subtle,
39:08
especially on inspiration.
39:10
So the pathology is the permanent scar and that's the key.
39:14
The terminal bronchials, whenever there's an injury, wound necrosis,
39:17
this can occur. The most common is airway infections,
39:21
but smoke or chemical inhalation to autoimmune diseases,
39:25
drug toxicity and a big one is bronchiectasis cuz bronchiectasis destroys
39:30
the bigger airways. But this inflammatory process is,
39:34
is hitting the small airways too.
39:37
And this is a nice sort of sequence of what happens. This is normal.
39:42
You can see the lv i, it gets markedly inflamed. Let's just say it's influenza.
39:48
And then what happens is it tends then to Neros
39:54
scar starts to form. Whoops,
39:56
scar starts to form and then it plugs up and that's it.
40:01
It's done.
40:01
Now notice the alveoli here compared to here they are hyperinflated.
40:07
This is permanent, okay? It's done. You,
40:11
it's done.
40:14
So usually what they'll be diagnosed with is poorly responsive asthma or
40:19
non episodic asthma. Uh, recurrent C O P D.
40:24
They have a persistent dyspnea. It doesn't respond to steroids.
40:27
Usually there may be a transient response, but it'll be back.
40:31
The major clue is the patient can usually tell you when the difficulty began.
40:35
That's the clay. Now look at the infections.
40:38
R S V infections in pediatric patients, right? Less than two really severe.
40:43
They get the hyperinflation, they get the inflammation,
40:45
they go into their tents. Um,
40:47
and then what does the physician say appropriately? Hey,
40:50
there's gonna be some asthma risk of increased risk of asthma.
40:54
Well the increased risk of asthma really is only about six weeks.
40:59
But the persistence tells us that it's constricted bronchiolitis.
41:03
But they also say that they tend to outgrow it.
41:06
That is true because in these younger kids, two-year-olds,
41:10
these areas of constricted bronchiolitis, they don't grow.
41:14
So the rest of the lung grows and then compensates for it.
41:18
Now what if this was an older person, say a 15 year old?
41:22
Well now they can't outgrow it, right?
41:24
They are stuck with this constricted bronchiolitis.
41:29
This patient nine 2017. Okay?
41:33
She's now comes in here from 2019, she's had weight loss,
41:37
difficulty exercising. Okay? She was caught in a house fire.
41:43
What happened? Look at, look at the difference.
41:47
Why is she becoming cachectic? Well we talked about that
41:52
she was caught in an house. Fire.
41:53
Fire and the smoke is had high heat caused
41:58
this generalized broncho mucosa necrosis.
42:01
And then over the ensuing six weeks,
42:04
this plug all these plugs form and now she's hyperinflated.
42:07
So she's C O P D, uh,
42:10
because she's got a 14 pack year of smoking history. No,
42:13
she knows it started at the time of this house fire.
42:18
Now the imaging is patchy areas of air trapping. Now that's the key.
42:21
The mosaicism, it tends to be patchy tra your bronchial milias more global.
42:26
Now here's the confounding variable. You might see both there.
42:30
You might see some bronco malacia in the smaller airways,
42:34
but you'll see areas of, um, air trapping, um,
42:38
that's more patchy.
42:40
So constricted bronchiolitis and broncho lac, especially the bronchials.
42:44
Smaller segmental bronchials can coexist,
42:48
especially if they've been on more of chronic steroids.
42:52
All right, this is what it looks like.
42:54
Now it's tough on inspiration but the vessels tend to be larger in the
42:59
areas of the parent ground glass.
43:02
And they are vaso constricted in the areas of constricted bronchiolitis.
43:09
And these are balloons, okay? These are balloons.
43:13
They also tend to have a little less hypoxia in the emphysema. But that's,
43:17
there's a lot of overlap there. Now this person's a little different.
43:21
This person's had a cough and dyspnea for five weeks and you see all these
43:25
terminal bronchial nodules, terminal bronchial nodules.
43:29
This is the active form of bronchiolitis obliterating.
43:34
So remember that sequence of histology I showed you,
43:37
they're sort of still in the middle there and you are starting to see some
43:42
areas of air trapping or mosaicism that's beginning to form.
43:47
Now this person,
43:49
if you hit them hard with steroids for about a week to two weeks, okay?
43:54
Not, not not chronic, just hit it hard.
43:57
You can actually stop that sequence
44:02
in most cases and they won't be left with that debilitating sort of constricted
44:07
bronchiolitis. Cuz once you see that mosaicism, it's,
44:11
it's permanent, okay? In fact,
44:16
what's the most common um,
44:18
way to D treat severe tra constricted bronchiolitis while you give 'em a lung
44:22
transplant. What's the most common chronic complication of lung transplant?
44:27
Constricted bronchiolitis, right?
44:30
So this is a patient with asthma cuz this, there's a lot of misinformation here.
44:35
So in asthma they can get the hyperinflation. This patient had it,
44:39
it's got a little bit of airway thickening.
44:41
They got the treatments that felt better within a couple hours,
44:45
but they still did a C T A. And even though it's like, look,
44:49
the diaphragm is back now you see it's a transient, it's reversible.
44:54
The diaphragm's back, it's normal, but they still did the C T A.
44:59
Where's the mosaicism? Here? This is at, this is the, this patient.
45:05
Well there isn't any a little bit of con ground glass consolidated,
45:08
but there's no mosaicism.
45:10
This is constricted bronchiolitis in a patient who's diagnosed with poorly
45:14
responsive asthma,
45:18
you don't see this mosaicism or this vascular attenuation in
45:23
the acute setting. So you really don't see it with asthma.
45:28
When you see mosaic lung attenuation,
45:30
that indicates a chronic airway obstruction. If it's patchy,
45:35
it's probably constricted bronchiolitis.
45:37
Does the patient know when their breathing problems start? Yeah,
45:40
I was burning leaves outside and then got sick and didn't feel well and I've
45:45
been having trouble breathing since that's constricted.
45:48
Bronchiolitis asthma does not give you
45:52
mosaic lung attenuation. We'll finish with bronchiectasis. Uh,
45:57
very severe uh, cystic fibrosis here. Airway destruction.
46:01
But what are you also noticing? Look at the lungs. Look at the diaphragm.
46:06
Right? Severely hyperinflated. Why
46:11
bronchiectasis induces hyperinflation through constricted bronchiolitis.
46:17
You can see the mosaicism here, the vascular attenuation.
46:22
This area is a little bit better little ground glass,
46:25
but this is all constricted bronchiolitis at this point and
46:30
this when a bronchiectasis gets real severe,
46:33
it can actually collapse eventually another patient with cystic
46:38
fibrosis hyperinflated lungs. Why constricted bronchiolitis.
46:42
What's your differential? Constricted bronchitis.
46:46
It is because that the airway infection is recurrent and it
46:51
keeps hammering the smaller bronch osa eventually inducing the necrosis,
46:56
the scar and the hyperinflation which becomes permanent.
47:01
So cystic fibrosis or patients with bronchiectasis, I don't know,
47:06
put it on your macro or something. Uh, look for constricted bronchiolitis,
47:11
it's going to be there.
47:12
In fact it's evolving as a more common cause of morbidity and mortality for
47:16
these patients cuz they're living longer.
47:19
You always try to mention the degree and extent of constricted bronchiolitis
47:24
in any patient with bronchiectasis, but especially cystic fibrosis.
47:28
These three patients with cystic fibrosis, why do you see the mosaicism?
47:33
What does that tell you? This one's a bit more mild.
47:36
This one's a bit more moderate to severe. This is quite severe,
47:41
okay? These are common.
47:44
They're just not commonly diagnosed and constricted. Bronchiolitis.
47:47
You really would like to have expiration scans again, but you know we do.
47:52
You do what you can. So now let's go back to that first one.
47:57
After this,
47:59
what are you gonna say on your report of this patient?
48:05
Okay, well I'm looking here at the notch. Looks about halfway.
48:10
I don't see any deviation. There's definitely hyperinflation.
48:14
This patient has obstructive pulmonary physiology.
48:17
What if you say this patient has C O P D? What are you telling people?
48:21
What if you say, you know, this patient has emphysema?
48:23
What are you telling people? Why is this patient cachectic?
48:29
See, this patient has obstructive pulmonary physiology. Uh,
48:34
it is not clearly emphysema consideration for trick your bronchia or constricted
48:38
bronchiolitis CT scan with expiration may be helpful.
48:43
Okay, what about this patient? 31 year old dyspnea.
48:50
What are you gonna say?
48:53
A report findings consistent with C O P D. No, don't,
48:57
don't say C O P D. This is a mosaicism.
49:01
It's mosaic vascular attenuation. You get,
49:04
there's even a little bit of bronchiectasis here. You get expiration.
49:08
It's all air trapping.
49:09
This is constricted bronchiolitis differential constricted bronchiolitis.
49:13
This patient was also in a house fire.
49:20
How about this one? My DI patient got diagnosed with um,
49:25
C O P D.
49:26
She developed her breathing problems after she was cleaning her bathroom with a
49:29
heavy chemical solvent. Got sick then got a bit more disnic. What is that?
49:34
I don't even need to look. That's constricted Bronchiolitis.
49:38
Then the pulmonologist put her on steroids, wasn't responding,
49:43
kept the steroids going.
49:45
After a few years she noticed that her dyspnea was getting worse and that she
49:50
could no longer walk two miles.
49:51
She could only walk a mile and she was starting to breathe through her slips.
49:55
Why? What does she have? Well,
49:59
she's got the patchy areas of constricted bronchiolitis and she's now also
50:03
developed trache bronchia most likely because of the steroids.
50:09
Every one of these, the shoes image multiple times three pulmonologists,
50:13
like five radiologists. Everyone missed it.
50:18
This is something you can have an impact from your first day of working.
50:25
Watch out for these red flags.
50:28
Recurrence of symptoms or persistent multiple C O P D exacerbations.
50:34
The patient can identify the time period when breathing uhs constricted
50:37
bronchitis.
50:39
Breathing through purse lips or vocal cord dysfunction indicates a dynamic
50:43
collapse in auto peeping. That's bronchial lac.
50:48
They may have emphysema, they may not, but that's a separate thing.
50:52
Suggest a trial, a BiPAP.
50:55
I also have to suggest in my reports and to thing that trache bronchial
51:00
LAC is most likely the etiology pulmonary consultation
51:05
for workup of trachea bronchia is recommended.
51:09
Pulmonary consultation for workup of constricted bronchiolitis is recommended.
51:14
I specifically say this because in the clinical realm
51:18
that these diagnosis of trache bronchia constricted bronchiolitis are also not
51:23
considered by many pulmonologists.
51:26
The pediatric pulmonologists are much more aware of this,
51:29
but not as much in the adult. It just didn't make its way into the curriculum.
51:35
So, you know, we diagnose what we know. Take home points,
51:40
they're common. You will see this and you can have an impact.
51:45
All right, try to avoid the term C O P D.
51:48
It can lead to inappropriate therapy and if the patient doesn't
51:53
previously have that diagnosis, they can lose their insurance.
51:57
Consider something like there's obstructive pulmonary physiology. You know,
52:00
I don't, not sure the underlying etiology considered Turkey bronchia or,
52:04
you know, something pulmonary consultation for further workup of this. Okay,
52:10
with that, this is, uh, my dog Willow,
52:12
who I don't know if you heard barking or trying to get in here. Um,
52:17
and I will stop at that point when radiologist take ACI selfie.
52:22
Now, these are my email.
52:24
Please feel free to email me if you have any questions or something comes up
52:28
later. Um,
52:31
I can take a look at some of these questions and see if I can help you out here.
52:36
Um, when did the surgery for advanced emphysema become an option for treatment
52:40
patients? Oh, that's been a while actually. Um, geez,
52:45
I remember that back when I was a resident and that was,
52:49
that was the early nineties that they started to do that.
52:53
And we would do cts looking at the degree of emphysema.
52:57
Is it uniform then? They didn't do the surgery,
53:01
but if a lot of it was upper lobe,
53:03
then they would resect the upper lobe and then you would see the diver come back
53:07
and the patients felt so much better. Okay,
53:12
when do you consider expiration? I love expiration scans. I mean,
53:16
I love them, I just do 'em. And,
53:20
but when you really want to do it is this recurrence of C O P
53:25
D admissions per, you know, poorly responsive asthma or asthma,
53:30
C O P D, um, persistent shortness of breath, chronic cough,
53:35
um, and you should also be doing it for the ILDs. Okay.
53:40
All right. Do we have expirations? No. See do we,
53:45
do we have to take expiration scans and all pa Well,
53:51
yeah, do it. Do it. Just do it. Um,
53:56
but I will tell you in real life,
53:58
in real life at night when I'm reading most of those CT pulmonary
54:03
angiograms, these patients are breathing. Um, so I see it,
54:08
but yes, I be,
54:11
be liberal with getting expiration scans on anyone with
54:15
persistent pulmonary problems. Um,
54:19
is there a rule about vascular size that they are small? Hmm,
54:24
they will be smaller than the bronchi for sure.
54:27
What you'll also see is not just the size,
54:31
but you'll look out in the parenchyma and you won't see those little branching
54:36
vessels. So when you look in the area of the apparent ground glass,
54:39
the vessel size is bigger.
54:41
It'll probably be the same size or bigger than the bronchus,
54:44
but you will see lots of little dots and branching structures of the small
54:48
vessels in the areas of hypo, of,
54:52
of hypo attenuation. The vessels, you'll see almost none,
54:58
none of those small vessels that tells you they're all just sort of vaso
55:02
constricted and out. Okay?
55:05
Her lip breathing is primarily an inspiration ex, uh,
55:08
her lip breathing is expiration. It's all expiration
55:13
and you can feel it if you do it yourself.
55:16
You can feel how it keeps the tries to keep the airway open.
55:21
All right. Uh, dynamic airway collapse. Uh,
55:26
people like to separate them. I don't, but strictly speaking,
55:31
the cartilage is destroyed. The whole trachea bronchi go.
55:36
But in dynamic, excessive dynamic collapse, it's the posterior wall.
55:41
Remember the trachea, the cartilage is a horseshoe,
55:44
but the posterior wall has no cartilage. So when they breathe out,
55:49
it just kind of occludes that lumen. I think they're both kind of the same.
55:54
So I don't split,
55:56
but some the purest like to separate those two out.
56:00
Okay? Um,
56:03
you can differentiate constricted bronchitis from inflammatory bronchiolitis.
56:07
They really are interchangeable in, well, no, they're not inflammatory.
56:12
Bronchitis is more the active phase. So it was that one I showed you with.
56:17
You can see the little terminal bronchial nodularity and branching in a patient
56:22
with six weeks of symptoms. That's an active inflammatory bronchitis.
56:28
If it persists,
56:29
that inflammatory bronchitis will eventually become constricted.
56:34
Bronchiolitis constricted bronchitis is permanent.
56:38
It does not reverse. It does not respond to steroids.
56:42
Does not respond to antibiotics, right?
56:46
And a lot of these people will be mislabeled because again,
56:50
I'm not blaming anyone.
56:52
We just don't teach this in the curriculum and we diagnose what we know.
56:57
And especially with C O P D people just, you know, oh,
57:02
it's another C O P D and just give them this rather than just, okay,
57:06
wait a minute, time out. This patient's come in multiple times for this.
57:10
We should probably slow down. Um,
57:15
peep, peep pressures, uh, vocal cord.
57:17
You can constrict your vocal cords when you breathe out,
57:20
and that's how come you get vocal cord dysfunction with some of these patients
57:24
per lip breathing.
57:27
If you have these patients blow up balloons, you know, that can help.
57:31
They did a study in Australia if you're interested, uh,
57:33
where they had patients play the doddery tube, remember that tube?
57:38
And they played it for about, I think it was like, you know, uh, a couple hours,
57:43
three or four times a week.
57:45
And what they found at the end of six weeks is these patients with the sleep
57:49
apnea, trache, bronchial LAC kind of combo,
57:51
they actually did better than the patients who didn't
57:56
do that. So all of this peeping is what's needed.
58:01
And that tells you there's a dynamic collapse. It does not reflect emphysema.
58:07
It does not reflect emphysema. It reflects trache bronchia.
58:12
Um, can excessive airway be limited to central bronchi with air trapping,
58:17
but the trachea is relatively unaffected or normal? Yes.
58:22
Yes, it can. Yeah. Usually it'll be the whole thing, but the,
58:26
it can just be the bronch eye. It could be the segmental bronch eye,
58:30
and that's when it gets really tough. Like, Hmm, is this constricted bronchitis?
58:35
Or, you know, segmental broncho lac, I don't know. Same Both.
58:41
Same both pulmonary consultation for workup of constricted bronchitis and
58:45
broncho LAC trial of BiPAP. All right.
58:50
What is your opinion on using the parenchymal analysis software
58:55
available workstations? Uh, I'm an old fart, so,
59:00
um, go for it. Um, if you think it helps,
59:05
uh, I tend to see it and I don't know,
59:10
I think it's just because I looked at so many, I just, it just pops out to me.
59:14
But I understand it's hard. Uh, give it a try.
59:17
If you think the software can identify the mosaicism in the parenchyma,
59:22
then it's useful. But after
59:27
I just looked at so many that y you know, when I, the exam pops up, it just,
59:33
I just see it. Okay, but expiration,
59:37
just get expiration when you're not sure. Uh,
59:40
is imaging in the prone position useful? I'm not a big prone position fan. Um,
59:48
you can do it.
59:49
I would just rather have supine inspiration expiration and I think you can
59:54
diagnose most things.
59:56
I think you can tell the difference between alesis and fibrosis personally. Um,
60:00
irregular visceral pleura is not ASISs that's gonna be myelofibrosis.
60:04
If the asis looks like it's going up laterally, that's not ays. But you know,
60:09
either way in bronchitis is steroid used at some point
60:15
as it is a cause of factor. Yes,
60:17
steroids in the short term can be helpful,
60:22
but it's when you start, cuz the body heals, right? We insult the body,
60:27
but if you give it a chance, it'll heal.
60:30
When you keep that insult in injury going, that's when you run into problems.
60:35
If you were to drink a lot of alcohol tonight, have fun,
60:39
your liver's gonna take a hit, but it's gonna recover.
60:43
But you drink a lot of alcohol every single day,
60:45
your liver can't repair and then things start to spiral out.
60:51
Okay, so steroids short term. Yeah, go for it.
60:56
Just don't keep in mind. All right.
61:01
What is the treatment, uh, for tracheal,
61:04
bronchial lac constricted bronchitis? Not much.
61:10
Um, if it's very severe for constricted bronchitis, you get a lung transplant,
61:16
uh, tracheal, bronchial malacia, you could try some different airway, uh,
61:20
peeping, uh, processes,
61:22
like what I just said with the f even one or ballooning balloons or trumpet,
61:26
you can try that C P A P, um, you can try that.
61:30
The key here is you don't want them going on chronic steroids,
61:34
which often happens. That's the key. The other thing is,
61:38
there are some places that if it's excessive airway collapse,
61:42
you can do a Cy Lastin, uh,
61:45
implant as an outpatient and you're fine.
61:50
Some people have tried stents that could work.
61:53
But if the broncho LAC gets out too far,
61:56
then the stents won't work because you're still collapsing out here.
61:59
Still air trapping, even though centrally it's open. Um, uh,
62:04
you know,
62:04
there are some institutions that are recognizing this more and thoracic surgeons
62:09
are starting a tracheal,
62:10
bronchial malacia clinic where they do all this workup and then treatment
62:13
options. Um, if you don't have that at your own institution, you know,
62:17
you can always look at it, look at starting it on its own. Okay.
62:23
Um, is there a way to differentiate infectious bronchitis from inflammatory
62:27
radiologically as the former is treated with antibiotics later are treated with
62:31
steroids? No, uh, not usually,
62:33
but the time will tell in infection usually will run its course
62:38
within usually a week to two, um, antibiotics,
62:43
you know, a week to two usually is it, if it's still there.
62:48
Okay, the, the infection's gone. That's,
62:51
that's an inflammatory bronchiolitis and that needs to get hit with steroids.
62:56
So the time will tell, believe me,
63:00
most of the of those terminal bronchial things that you saw, that'll be gone,
63:05
that'll be gone in a, you know, after antibiotics.
63:09
It's those that are persistent. That's when you go, okay, stop the antibiotics.
63:13
This is a steroid hit. Let's see. About preventing a future complication,
63:18
which is much worse of constricted bronchiolitis. Okay.
63:22
And then hopefully that answered the question. Uh,
63:26
treatment of constricted bronchitis.
63:28
Don't give them on chronic steroids if it gets severe enough. Lung transplant,
63:32
that's pretty much what we got. Try to prevent it from happening.
63:38
Uh, should we give constricted bronchiolitis differential of all cases with yes,
63:42
shortness of breath, mosaic lung attenuation,
63:44
constricted bronchitis needs to be there might be pulmonary hypertension,
63:48
but it'll probably be constricted bronchiolitis. Absolutely. Absolutely.
63:55
Um, please elaborate on Hyler position and x-ray with emphysema.
63:59
Yeah, remember that little line I drew?
64:03
Remember that line I drew with a pulmonary artery up?
64:05
Pulmonary artery down right side, that's should be normal.
64:11
Patients who have conventional emphysema most in the upper lobe,
64:15
those are balloons in space occupying the hilum will go down.
64:20
Okay? You'll have increased distance to the apex. Decrease to the diaphragm,
64:25
all right?
64:26
Then it will go medial and you will see the,
64:31
the vessels that look like this, they will be like this and curved.
64:38
Okay? So they go down, they go medial
64:43
vascularture gets crowded together and curved.
64:48
If you don't see that, it still could be emphysema,
64:51
but you don't want to say that.
64:53
You just say it's obstructive pulmonary physiology or something of that sort.
64:59
And you know, further workup for this if, if you think it's worthwhile,
65:03
especially if you see that they keep coming back,
65:05
then absolutely further workup. Okay.
65:08
Differential for patchy mosaic. Um, mosaic attenuation,
65:13
small airway trapping, pulmonary hypertension, that's your two.
65:19
Okay. Pulmonary hypertension be from chronic thromboembolic disease,
65:23
primary pulmonary hypertension. Um,
65:25
there will be no air trapping seen with the pulmonary hypertension.
65:28
Both will increase in density with air trapping. When you do expiration,
65:33
the wider areas will get wider. The dark areas stay the same.
65:37
The accentuates the difference. Okay.
65:40
Small airways disease is bronchiolitis, constricted bronchiolitis,
65:45
asthma, sometimes, you know, these are what we term small airways disease.
65:51
Um,
65:51
and how do you differentiate pulmonary hypertension in a scenario of emphysema
65:55
and vessel size? Um hmm. Pulmonary hypertension,
65:59
emphysema often coexist,
66:01
especially with advanced emphysema because of the loss of vascular bed,
66:05
usually maybe some chronic hypoxia. Um, differentiating it well,
66:10
uh, what you're gonna do is measure the main pulmonary artery.
66:13
Look at the ASIN aorta, look at the main pulmonary artery.
66:16
Is the main pulmonary artery much bigger? If it's much bigger,
66:19
there's pulmonary hypertension. Okay, you can say three centimeters,
66:24
but I've seen a lot of people with three centimeters and it's normal cuz the
66:27
aorta is three centimeters, they've just got bigger vessels.
66:30
People are like snowflakes. So I usually go that route. Look centrally.
66:35
Is the pulmonary artery much bigger than the aorta at the same level? Yeah,
66:40
probably pulmonary hypertension in the setting of emphysema. Okay.
66:45
Is chronic bronchitis or radiologic? Not really. It,
66:48
it can be if you see a lot of airway thickening in mucus plugging,
66:52
that one to me is a bit more clinical and it's probably not as common as what we
66:56
suggest, but, uh,
66:59
all you'll really see is a lot of airway thickening and maybe some mucus
67:02
plugging. Um, that's pretty much it. And look for pulmonary hypertension,
67:07
for sure.
67:08
In chronic bronchitis that tends to develop earlier than emphysema because these
67:12
patients tend to be chronically hypoxic because of the VQ mismatch.
67:19
Um, asthma, small airway or large airway disease? Both.
67:22
I actually consider it more both, but it's more of a small airway.
67:25
It gives the main problems, but those receptors are, you know,
67:30
they're, they're seen throughout the trachea, brum, mucosa,
67:34
but the real problems clinically, it's from the small airways.
67:39
Okay. Uh, when do you ask for a cta, a mosaic lung attenuation?
67:44
Oh, um hmm. I don't usually ask for CTAs. Uh,
67:49
I guess the only time I would is if you think there's pulmonary hypertension,
67:52
which again, you can see on a, on a, on a CT scan without contrast. You know,
67:57
there's your aorta, there's your pulmonary artery. Same size. Yeah.
68:00
Don't go to a c t a get an expiration scan. Um,
68:05
if you see there's no air trapping, you can go to it,
68:07
but there'll be our trapping.
68:09
If that pulmonary artery is much bigger in diameter,
68:12
then you're in the pulmonary hypertension.
68:16
Now you order the c T A for workup of pulmonary hypertension,
68:20
which it is a pretty good mo uh, test for that.
68:23
So you've now shifted because you've seen something that requires a separate
68:29
evaluation. All right.
68:32
Most of the AE patients ae, Hmm.
68:36
What's ae, I dunno, with the request for C T A,
68:40
have breathing difficulties and lungs invariably show abnormal density.
68:43
Do you suggest additional lung specific high re No, no. Don't do high res, uh,
68:48
CTAs for pulmonary embolus or what have you. Um,
68:53
the sections are thin enough, you'll be able to see something. Um,
68:57
most of the time the, it's an acute problem.
69:00
It's when you start to notice that they like God,
69:04
this is their third CT pulmonary angiogram in, in one year.
69:08
That's when you want to say, Hmm,
69:10
I wonder if they should probably get a separate workup from a pulmonologist or
69:14
something. A lot along those lines. And that also says,
69:18
look very carefully at the trachea.
69:19
And the bronchi look very carefully for mosaic lung attenuation.
69:23
Even if it's just inspiration,
69:25
you can suggest an expiration scan and stuff like that.
69:28
If you see the pulmonary arteries big, then work up a pulmonary hypertension,
69:33
which you're already doing a really good test for. All right.
69:37
How do you differentiate artifact from pathology? Ground glass. Oh,
69:41
that's a good one.
69:42
That gets hard when the patient is halfway breathing out.
69:47
Now, if they're half expiration, you're gonna see a higher density,
69:52
slightly higher density. Okay. Now when you breathe out,
69:57
it should get more dense as you go posterior. Remember that picture of my ct,
70:02
it, the, that ground glass or higher density,
70:05
not as high anteriorly as you went back,
70:07
it got progressively and uniformly more dense.
70:11
If you have a partial expiration ct,
70:14
which is pretty common and you notice that it's subtly ground glass,
70:18
but it's got that increasing density,
70:21
that is overwhelmingly likely going to be normal.
70:25
But if you see a subtle ground glass and you don't see that
70:29
increasing density,
70:32
but it looks like it's either patchy or more uniform,
70:37
you wanna suggest a diffuse lung disease.
70:41
Or if it's patchy, a small airways disease like constricted bronchiolitis,
70:46
you can suggest A D L C O,
70:48
which is really helpful because if it's normal, blow it off.
70:54
If it's abnormal, you made a great catch of a diffuse lung disease.
70:59
So it has everything to do with seeing that normal increasing density.
71:05
Okay. It's tough by the way. Sometimes you just can't tell,
71:09
and that's okay. Sometimes I can't tell either. Okay.
71:15
Um, okay. I guess that's it for the questions. Uh, geez,
71:20
I hope you enjoyed it. Please feel free to email me if you have any questions.
71:26
Um, it, you know, um, I'll do the best I can to answer it. Okay.
71:31
Thank you Dr.
71:32
Dr. Goslin.
71:33
Thank you so much for that amazing lecture and answering all those questions.
71:37
Thank you to everybody for all those really fantastic questions.
71:41
Really appreciate you being here.
71:43
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71:46
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71:49
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71:54
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71:55
Deborah Baumgarten for a lecture on urothelial cancer and beyond CT urography
72:00
interpretation, including pitfalls.
72:02
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72:09
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