Love the video. I found your EKG video and shared it because it was very helpful. It turned out that Mala knew you personally. Thank you so much for taking time to make this video for us! The "curve to the left" and "curve to the right" portion was exactly what I needed! Thank you so much! (Just a heads up, you wrote it down opposite of what you said. ;) LoL)
I think it is wrong (6:00). Please answer this question. I think all textbooks show it wrong. SV increases as EDV increases and they all shorten to the same ES point on the ESPVR curve. Why should it shorten to the same end systolic pressure or point? If you increase SL (as in higher EDV) you should get more force (Force-length relationship) and more force means higher pressure. If they all shortened to the same ESP when you increase EDV, how would they even get the ESPVR curve?
Excellent video. But please try to correct what is written in blue and green on right side of the main graph. I.e " C curve to the LEFT. P curve to the RIGHT ". Thanks for the effort made to make this video.
very simple and useful but there is a mistake .. you said in contractility there is shift to left but you wrote it shift to right & the opposite for the preload
Amazing how you included explanation, mnemonics and self assessment in a single comprehensive video !
Amazing, I'm in anesthesia school and this is as simple as explaining this concept can get! Good job!
best explained video lecture ever seen. plz upload more lecture.
OMG!!! It is so simple when you explain it like this. Two teachers and non on them made sense. You did it in 6 mins! lol THANK YOU
You just saved my medical school career! Thank you!!!!
Yasss lets kick ass!! :D
Thank you so much for this. You are a life saver. Please keeping medical videos like this
curve to right and left was very helpful.... thanks
Can't express how grateful I am. But thank you 🙏
best explanation I've seen thus far. Thank you.
Thank you so much, in 6 mins crisp n to the point❤.
Wow just wow! Awesome explanation!
It is a very useful vedio and thank you very much♥🎀♥
Superb 🎉
excellent job, dr. sadiqui!!! very understandable
Thank you for this lovely video
Love the video. I found your EKG video and shared it because it was very helpful. It turned out that Mala knew you personally. Thank you so much for taking time to make this video for us!
The "curve to the left" and "curve to the right" portion was exactly what I needed! Thank you so much! (Just a heads up, you wrote it down opposite of what you said. ;) LoL)
Great quick and easy! Just doublecheck ur left n right curves in the graph; you say left but write right n vice versus ;)
I know :( I must have been too tired and mixed them up. I had made annotations to correct it but for some odd reason they disappeared
This video was helpful!!! Thank you so much omg
this is so helpful thank you!
This is the best! Very helpful..thanks
Excellent
Beauty with brain..love u..made it much simpler
Jazakallah khair ☺️
Fantastic!! Helpful for my studies!
Thanks mam....clearly explained
Thanks! just needed this little extra explanation for this concept to come together for me
This is tooooo awesome!! OMG thank u sooo much! btw may I know what apps are you using? cos it looks so easy to write with..hehe
Very nice presentation and good examples
I finally got it! Thank you!
Thank you !! 😊😊😊 that was really good explanation
Thanks for the great video. One issue: at 5:03 you mistakenly wrote "P curves to the LEFT" while you said ". . . RIGHT."
I know :( I must have been too tired and mixed them up. I had made annotations to correct it but for some odd reason they disappeared
@@ArzooSadiqi Thank you for clearing this up!
Merci Arezou jan. That was great!
I think it is wrong (6:00). Please answer this question. I think all textbooks show it wrong. SV increases as EDV increases and they all shorten to the same ES point on the ESPVR curve. Why should it shorten to the same end systolic pressure or point? If you increase SL (as in higher EDV) you should get more force (Force-length relationship) and more force means higher pressure. If they all shortened to the same ESP when you increase EDV, how would they even get the ESPVR curve?
Excellent video. But please try to correct what is written in blue and green on right side of the main graph.
I.e " C curve to the LEFT. P curve to the RIGHT ".
Thanks for the effort made to make this video.
great explanation
perfect>> thank you so much
very helpful ...thank you
thanks the best one ever
thank u arezoo jan! it was very helpful
great video, very clear explanation
wow awesome video for PV loop , thank you
I like the simplicity of this video. Like sometimes were in a crunch and just need the facts lol
Thank you Dr, appreciate it 👌
that was great thank you.
Thank you doctor
You are amazing
Amazing,thank u very much
you are genius
thanks
Thank you! That was super simple :D
Thanks ❤️❤️
Thank you very much for this video, it was great!
thank you made it simple..
Hey thank you so much. Can you do a video on heart murmurs please. This was excellent!!
Can't thank u enough 😊
Hi excellent explanation luv it can you tell me that is the name of that app you are using please. Thank you
what about decreased preload afterload etc?
Very helpful . Thank u
This is amazing, bless you
excellent,
love u
Amazing
THANK YOU!!!!!
AMAZING!!!
Thanx doc
thank you!
amaziiinggg
i LOVE IU!!!
Thank you too much
Short n simple
thank you so muchhhh
awesome
But mam you can also include valvular lesions .. to this lecture ..it will be more helpful
Maybe you could have highlighted the bit at the far end in a different colour. I kept thinking it is part of the normal and it kept getting confusing.
very simple and useful but there is a mistake .. you said in contractility there is shift to left but you wrote it shift to right & the opposite for the preload
I know :( I must have been too tired and mixed them up. I had made annotations to correct it but for some odd reason they disappeared
thank you
Please rectify the right / left curves !
Sorry but why u write in the first the c in the right then u said is in the left I didn't understand
Thank you but I didn’t understand a thing