Lung Compliance - Surface Tension - Emphysema | Respiratory Physiology Series

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You seriously have a gift. Not only do you explain concepts in such an easy way to understand, but you are hilarious too! Reading my class physiology respiratory notes for hours does not compare to even 10 minutes of your pulmonary videos. You were totally born to do this. SO grateful I have access to your videos. I 1000% attribute my success on exams to your channel.

This sock method have turned that lesson into a legend😂🏆

A- emphysema
B-normal
C-amiodanon and bleomycin

No one teaches with this much humor😂. Everything from RLD, OLD to compliance was so perfectly explained. 👏👏

Oh my god! You blew my mind with this.....never in my life I understood lung compliance but after this video I surely can never forget it👏👏

A.emphysema(bcoz elastin is destroyed so there will be more compliance)
B.Normal
C.Amiodarone and bleomycin(bcoz it causes pulmonary fibrosis which increases elastic recoil)

Amazing! Loved your sock example and you're so easy to understand. Thank you. You deserve more subscribers and views.

Man, you explain waaaaaayyyy lot better than my prof. Thank you!!!

This is way better than those horrible lecture classes my prof took

You're an amazing teacher.. First 2 minutes of lecture was enough for me to get the concept. Thx a lot.

This is the first time for me to understand lung compliance .thanks a lot.egyption doctorجزاك الله خيرا

"And there is another organ that has compliance, but let's keep it clean" 😂😂😂 I died

You are a legend in physiology 👌l am very lucky for listening to your videos 💜my greetings from Egypt 💜 thank you doctor 👍

i didn't expect you will made it easy like that . Props to medicosis

Must watch video for every medicos......you are amazing ....love from india

Thanku Soo much my all journey medicine never had such beneficial learning

"If you don't like socks, then you can do from underwear like if you're into these things" omg I lost it haha :p

I am loving the examples! I wish my professors could teach like this!

dang this video legit provides the ultimate answer to my spirometry report. Thanks heaps!

Wow, thank you so much doc! You explained this so well & I really enjoyed the socks analogy & other humor lol.
I think the graph answers are: A) emphysema; B) normal; C) Rx treatment
Thank you so much again!

Can you explain why the compliance during expiration is higher than inspiration? Is it because of the surface tension and elastin?

A....emphysema
B- normal lung.
C- post chemo( bleomoycin) or amoidarone induced fibrotic lung

I must say you have such a good way of teaching very difficult topics really easily.THANKS for your exsistance

Man! Can you make your introductory video I really love the way you explain

I appreciate ur sense of humour too😛 along with your lectures👍

Your videos are so good that my professor redirected me here instead of doing the explanation himself 5/5

favorite medical channel yes

Amazing explanation man
Even my coaching classes were not able to explain like this.

Thanks from Egypt ❤ جزاك الله خيرا

You’re awesome, I wish you’d add the topics in the description box with the corresponding minutes to make it easier to look for specific topics

Fantastic video! Thank you

Excellent explanation ❤

Best ever explanation ❤

Good job you're make the easy way to understanding

U r really amazing
But in the pressure volume curves..the pressures are negative...there fore -2 is greater than -4(13:09)
And even in the previous example...hope u clear my doubt
Thank you

Your... Explanation and your teaching skill are awesome👍👏... Thank u sir

You insist on making me excited 🤩🤯
Thank you ❤️
شكرا 🥰

thank you for the lesson

Amazing video, probably the best

Brilliant, truly! Thank you!!!!!!!!

Who are u! I been cracking head about this for a very long time. Thank you so much. Sock rules!

In pulmonary fibrosis the lung compliance decreases
But elastic recoil doesn't increase
In fibrosis it is more of collagen fibres
Total no. Of elastic fibres are reduced by scar tissue(collagen)
Collagen fibres have high elastic modulus which means they are resistant to stress (stiff)
Due to that reason compliance is reduced in pulmonary fibrosis.

if I had to choose only one youtube channel which I could watch, id choose this one

A. Emphysema
B normal
C. Amiodarone/bleomycin..but I don’t know how these drugs decrease compliance

Awesome teaching!!!!

In pulmunary fibrosis, shouldn't both compliance and elasticity decrease?

Medicine makes perfect sense once you know what the hell you’re talking about, 👌
Thank you Dr. for this exceptionally well explained video. You should be giving classes in Harvard or Yale - you really understand medicine and have a gift for explaining it to others. I will always picture the sock 🧦 example ….
Also your Sympathetic and Parasympathetic videos are beautifully easy to understand
God Bless and thanks again

Perfect,thank you doctor ♥️

Thanks a lot!! U make the concept so easy to understand 👍

Sir u r really really just AMAZING........ thanks a lot dear sir🙏🙏

Great explanation as always !! very fun to learn from you

How did inspiration need greater pressure when the pressures are in negative and inspiration one has lesser number?

thanx man u give the best mneumonics for this theme )))

A emphysema
C amiodranone which cause pulmonary fibrosis decreasing compliance

Question
A ephesyma
B normal
c alverdorne ....

You are a funny guy.😂

please please make lectures about cardiology
thank you very much

amazing!! thanks

God bless you.

medicosis why does the expiration have a higher compliance while it works to get the air out? so we need elasticity for expiration to happen no?

"And. You. Arr. Increasing your compliance, baby". Lol that got me.

A.emphysema
B.normal
C.fibrosis

A-emphesema, B-normal, C-fibrosis

Thank you 🙏

In addition to the opposing forces,lymphatic drainage of the pleural space also contributes to the negative intrapleural pressure.
Awesome video as usual 👍

GREAT!!🙌

Please kindly explain to me why lung compliance is more at base and low at apex?

At 8:45 you say the saline filled lung has less recoil tendency hence less negative intrapleural pressure, doesn't that mean less air gets in the lung. But then down the page you say a patient with alpha-1 antitrypsin deficiency leads to decreased lung recoil which increases lung compliance and so more air gets in
So I'm confused, how can less recoil cause more air to get in the lungs in one scenario and less air to get in the lungs when both are as a result of less recoil

Sir you are just awesome 👍

Really a very gud video
Do the gud wrk forevr

Loved your analogies and the synonymous table. Great job man! Better than anyone else who tried to explain it

-2 is greater than -6,so how u can say that it's smaller

In calculating DELTA V/DELTA P, does we consider negative sign or just magnitude???

It's the `baby ' for me 😅😅😅🤦🏿‍♂️

Concerning the curves, won't the negative value of the pressure affect the ΔV/ΔP value hence making inspiration have a higher compliance because of their negative values?

YOU'RE TOO OP MAN, thats just awesome man

Is Asthma a COPD disease?
I thought that
- Asthma
- Cystic fibrosis
- Bronchiectasis and
- COPD (Emphysema and C. bronchitis) are together called Obstructive lung disease and COPD diseases include only Emphysema and Chronic bronchitis

Thank you!!!!!!!!!!

This is bomb! Subscribed!

Genius.....

I have a question, so how does this compliance relate to administering continous positive pressure to a obstructive versus restrictive pathology?

It's just amazing

Amazing ✌

You're best😍

A- Emphysema (larger angle, more volume, increased compliance)
B-normal
C-Amidarone and Bleomycin ( Induced Fibrosis, decreased compliance)

If compliance increases then elasticity decreases or increases? & Also resistance increases or decreases? Plz help me with this one brother. Thnx in advance

a medicine god!

Amazing!

sir this is one hilarious lec which is actually good

Great video! Thank you!
Just One question ! Doesnt the expiration reflect recoil? Can we talk about a compliance in expiration ?

Thank u 🙇

I have a question here
Does fibrosis increase elasticity or decrease it ?

Amazing! i interested the way you teach and by providing so many examples and good approaches in order for me to understand it well. coz for me this topic was kinda lil bit difficult to understand but u're making it in fun and easier approach.

One point i couldn't get why expiration has more compliance where as lungs recoil at that moment?

thank youuuuuuu

So helpful ⭐

A-Emphsema
B-Normal
C-amiodion and bleomycin

man I love you thank you

Hey @Medicosis Perfectionalis I was wondering why volume increases with pressure in the lungs when talking about compliance, but according to Boyle's law pressure and volume are inversely proportional?