i spent an entire hour repeating my lecturer's podcast and re-reading my notes trying to understand the PAH thingy still didn't understand , but i found your video and daym i was saved , thank you sm!
This is genius! The explanation becomes so apparent by 1. the way you clearly explain each of the parameters involved with visualisation and 2. the derivation of where the big picture concepts like Arterial = Venous + Urinary & the appearance of substance-devoid volume (which was always there!) when you account for concentration. Hats off to you for showing beauty with your explanation.
I love how you approach teaching. It makes so much sense. I've spent hours trying to understand this concept and here's your 10 min video, so perfectly presented. Thank you so very much for sharing your knowledge with us!
Thank you so much for this video, many of the other videos on TH-cam don't explain how the clearance rate equation is derived. After listening to your short 10 min explanation I can finally understand without having to simply memorize.
Thank you. I really appreciate this comment because this is how I approach teaching physiology in the classroom: emphasizing understanding physiological processes with minimal memorization.
@@PeteMeighan This also makes me wonder whether the majority of medical professionals just learn via rote memorization, or via actually understanding the underlying physical processes.
Can u explain, Some drugs are inhibiting the tubular secretion. At that time what happen to the GFR value [ normal or reduced ]? & baterial growth occur after collecting urine specimen. How to affect the urine creatinineconcentration?
Sure! When plasma is filtered into the renal tubules, the concentration of X in the filtrate equals the concentration of X in the plasma (assuming X is freely filtered). During renal processing, most of the water of that filtrate is reabsorbed (moves back to the plasma), leaving X behind in the renal tubules. This enrichment of X in the renal tubules results in a higher urinary concentration of X.
It's my first time to understand what renal clearance means after 5 years pharmacy school, thanks alot
What is renal clearance???
Then you shouldn't choose pharmacy
this is absolutely golden. Insane how a youtube video can beat all professors at medical school.
i spent an entire hour repeating my lecturer's podcast and re-reading my notes trying to understand the PAH thingy still didn't understand , but i found your video and daym i was saved , thank you sm!
This is genius! The explanation becomes so apparent by 1. the way you clearly explain each of the parameters involved with visualisation and 2. the derivation of where the big picture concepts like Arterial = Venous + Urinary & the appearance of substance-devoid volume (which was always there!) when you account for concentration. Hats off to you for showing beauty with your explanation.
Your explanation was really good but this is genuinely such a horrendously difficult topic to get my head around.
wow ... great explanation ... cant thank you enough ... saved me hours of studying this concept to understand it in a short 10 minute video ...
I love how you approach teaching. It makes so much sense. I've spent hours trying to understand this concept and here's your 10 min video, so perfectly presented. Thank you so very much for sharing your knowledge with us!
OMGGGG!!!!! This is the best explaination about Renal Clearance so far in YOU-TUBE!!! Thank you so much and god bless you :) !!!
What an amazing video! Please continue making these valuable resources for students!! 🥺🙏🏻
Thank you soo much!
Finally understood the difference between the clearance rate of inulin and PAH
AMAZING! Such a great explanation, thank you!
The way you simplify complex things is mega cool
all that about the 'missing volume' makes so much sense thank you
It's such an abstract concept. Glad this was able to help!
thanks sir it means alot to me. it helps me to visualize what actually it looks like and to understand GFR and RPF in much better way
Thank you so much for this video!
Best resource for this topic on the whole planet!
You're a hero!!!
Wow wow wow. Absolutely amazing explanation,👏🏻
Thank you for giving a well detailed explanation ❤
great simplification man!
Thank you so much!! 💓
Great great great video! Thank you so much
Thank you for the kind words! You're very welcome!
Thank you so much for this video, many of the other videos on TH-cam don't explain how the clearance rate equation is derived. After listening to your short 10 min explanation I can finally understand without having to simply memorize.
Thank you. I really appreciate this comment because this is how I approach teaching physiology in the classroom: emphasizing understanding physiological processes with minimal memorization.
@@PeteMeighan This also makes me wonder whether the majority of medical professionals just learn via rote memorization, or via actually understanding the underlying physical processes.
God sent! Oh lord u are awesome!
Nice Explaination👍
Crystal Clear💥
Wow...... Thank you so much.
Thank you for the well explained info.
Glad it was helpful! Thank you for the positive comment!
Best ever explanation
Superb Review !
superb explanation ,sir !
Awesome! Thank you very much.
You're very welcome!
Thanks 💚
thank you
Your videos are excellent, thank you Sir
You are very welcome. I'm glad you like them!
This is gold
Thank you for the kind words.
awesome sir
太感谢了🙏!!!!
Excellent video
Thank you very much!
Thnx for your video
You are welcome. I hope it was helpful!
Tnx sir
Geez, you're great at this. Such a boring subject, you managed to make it palatable. Thank you sir!
Thank you for the positive comment. I really appreciate it!
Can u explain,
Some drugs are inhibiting the tubular secretion. At that time what happen to the GFR value [ normal or reduced ]?
& baterial growth occur after collecting urine specimen. How to affect the urine creatinineconcentration?
How do you edit and make videos
i just have 3 words for you "i love you"
Can someone explain why concentration of X in plasma in lower than the concentration of X in the urine? How does this work?
Sure! When plasma is filtered into the renal tubules, the concentration of X in the filtrate equals the concentration of X in the plasma (assuming X is freely filtered). During renal processing, most of the water of that filtrate is reabsorbed (moves back to the plasma), leaving X behind in the renal tubules. This enrichment of X in the renal tubules results in a higher urinary concentration of X.
Not easy to understand for laymen
Thanka🤍