Amazing video, was trying to understand this since the last hour and you explained it so well In 10 mins, really praying for the success of your Channel
great video! one tiny bit confusion: The degree of dampening of pulse is directly proportional to the compliance of the vessel. So according to this, shouldn't dampening effect be more in aorta/large arteries which are more compliant as compared to less compliant smaller arteries and capillaries?
I don't have the words to thank you... But any way massive respect 🫡 Also I've recommended this channel to my medical freinds Will remember you in prayers✨
This channel is really underrated.
Love what you said about the pressure curve😏
This is such an amazing video Literallt saved my life
Amazing video, was trying to understand this since the last hour and you explained it so well In 10 mins, really praying for the success of your Channel
I sat 2 hours staring these topics. Wish I had watched this video sooner ❤❤
Nicely explained!
Without even watching I could say it would be the best video ever on this topic ❤
Thank you
Superb and well explained 🎉❤
Thank you soooooooooooooooooooo much ❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤🎉🎉🎉
Best..... Superb
Perfect lectures for physio but still not uploaded all lectures of CVS and respiratory physiology kindly upload them soon sir
the comment about the PV graph made me laugh out loud
great video! one tiny bit confusion: The degree of dampening of pulse is directly proportional to the compliance of the vessel. So according to this, shouldn't dampening effect be more in aorta/large arteries which are more compliant as compared to less compliant smaller arteries and capillaries?
You're right, Damping effect in aorta is greater than in samller arteries
Where was this video earlier :DD
The final comment on the PV graph came out of nowhere ahahahah
Bro wish you said fuck everything 😊
I don't have the words to thank you... But any way massive respect 🫡
Also I've recommended this channel to my medical freinds
Will remember you in prayers✨
Thank you so much