Ventilation and Perfusion

I am a final year masters physio student - we have loads of self directed learning so it is great to be taught key aspects of physiology by someone experienced who makes it so easy to understand and clinically relevant. Thanks so much!

You, sir, deserve a medal!

you have made the lives of so many students easier. My patho group and I rely on your videos to teach us all of these concepts as we feel that we are not taught at all in our class! THANK YOU!!!

I appreciate the videos. They make these subjects in my pathophysiology course come alive and I understand the different systems much better with MedCram videos. Thanks so much to you and Dr. Sehult . The more ways I see something presented the more I understand the subject. I love the way you illustrate the subject and makes it interesting.

Thank you! I'm brand new to NP school and this gave me a much better understanding of ventilation and perfusion than I ever had in my undergraduate program.

Great video. I can relate this to what I learned the other day, that calcium channel blockers can prevent hypoxic vasoconstriction. I saw a significant decline in O2 sat after starting a nicardipine drip and PO2 dropped to 47. Sat and PO2 improved as we titrated the drip off.

Really appreciate the video--it's really well done and easy to follow and understand. Nursing student at Scottsdale Community College in Arizona. Thank you!

Outstanding, clear explanation. Thanks for making this available.

Thanks for this video, I am in a pathophysiology class at this time. I have an absolutely great instructor, so this will help me to understand this process before class.

Great great great instruction. so helpful. thank you so much. and you have such a charming voice too.

Brilliant ! just understood concept of the shunt !

Thanks! Very good explanation. I wish you would've included "physiologic dead space" in addition to shunts since they explain opposite effects of the V/Q spectrum.

Great video! thank you!

Great video..

Base of lung have more perfusion and ventilation then the apex of the lung
Perfusion in base is high - greater vascular pressure , more recruitment , distension, low resistant - great blood flow
Good. Ventilation- intrapleural pressure less negative , smaller transmural pressure gradiant
Smaller alveaoli more compliance
MORE Ventilation

you're a great professor. thanks!

I'm a bit confused about the three zones of the lung. Textbooks have led me to believe that both ventilation and perfusion are higher in the base of the lung rather than the apex. However, the gradient for perfusion at the base is steeper so the net affect is that V>Q at the apex, while V

Dear Andrew. Nice explanation. I have a question. It s about your explanation near end of discussion. you described that if 25% of lung is not ventilated, the blood that pass through it would have saturation of zero , because its not ventilated. But that part of the lung will be perfused by pulmonary arteries which will have a venous saturation of 70%. So how its Zero????

Thanks so much. I am at 42 and do not love read books. Yours videos are very helfull for remembering my loosing knowledge. Dear sir, can you discus more about pulmoner capacities e.g closing capasity and FRC and sepsis.

Your video is awesome. Thank you!

Very helpful video, thank you!

very helpful .thank you very much

A very “Goldilocks and the Three Bears” kinda story.

That was great, thank you!

Great!

Hi, great video! what app do you use to create videos like this one?

sorry that my qs was not clear sir,..i searched alot to find what is the physiologic explanation that why the heart beat return first not the lungs? to clarify it more in cpr you can find pulse but not necessary with breathing BUT in other way around it's impossible to find breathing withou a pulse... is spite of the cardiad and respiratory centre both them in the same place which is brain stem!!!! i hope that i made my inquiry clear sir :)>>> thatn you so much in advance

its great

wouldnt the O2 sats in the unventilated part of the lung be at about 75% since thats the venous saturation when it comes back to the heart? and the pO2 be also at what it usually is in the venous blood? i duno what that normaly is i guess at around 70% also

Thanx soo much sir..it's precious vedio...I hoppe you don't mind giving an explanation of in case of cpr it's possible that the heart work first and not the other way happened for the lung?

Although this seems correct in principal, the alveoli at the bottom of the lungs I understand to have better ventilation in a healthy lung because the alveoli are able to expand and fill with "fresh" air more efficiently because they are not already full. The alveoli at the top are already full of air so although they are larger and more open, ventilation is poor because the "balloon" is already full. So actual O2 exchange is poorer than one would expect.

Death space and shunting are extreme V/Q mismatch or pathological shunts?

AMAZING!!!

and would a peep help in such a scenario?
i would guess not because if the part of the lung that is inflammed and the alveoli of that part of the lung are filled with fluid, the peep wouldnt do anything , but in the other parts of the lungs it would inflate the alveoli leading to a narrowing of the vessels around and to diminished perfusion of the healthy lung areals, and therefor be counterproductive?

Would you be so kind to explain the Hypoxic vasoconstriction in a more easier way I don;t understand the connection to it with the 3 zones of the lung thanks

Is it really correct to assume that oxygen partial pressure in blood that perfuse unventilated alveoli is zero?

at 7:53, 2750ml what is 2750ml? vital capacity (IRV + TV+ ERV)?

How do we know that Oxygen under resting conditions is perfusion limited?

Why would zone 2 increase if we vasconstrict zone 3? If pulmonary arteries are perfusing these regions in a parallel arrangement, then shoudlnt the pressure remain the same on either side of the alveoli on zone 1 & 2?

excuse me, can you tell me the name of the program you are using to draw? and screen capture?

I have read in "berne & levy" physiology book that ventilation and perfusion is lowest in the apex...and is highest in the base... why is it different from your video? i'm quite confused.. pls help.. thanks..

I have a question here, why the perfusion in zone 2 increase during systole and decrease during diastole?

***** you said in a previous video that the pulmonary arterioles dont have smooth muscle cell ...was that wrong ? :O

Ventilation is highest at lung bases

zone 1 doesn't exist. it only happens during pathological conditions