Finding this video useful? If so, SMASH the like button & CLICK the subscribe button & notification bell if you enjoy complex topics being made easy and want to stay up-to-date with new videos. See you in another vid! ^_^ Check out our video on hyponatremia (hyponatraemia) ua-cam.com/video/NYxj7c6IXrs/v-deo.html in which we give a detailed overview including classification, investigations, and management. Enjoy ^_^
I swear to lord jesus christ, that I just spent two hours through one lecture video from my university and did not learn a single thing, while this video and that kitchen strainer analogy and 7 minutes of amazing, well produced content made my whole life easier, thank u sooo much lova ya all.
This was literally the best tutorial I have ever seen on this platform. I can't stress enough how much time you saved me. Thank you Thank you Thank you
Thank you very much for explaining it so very well! You helped me a lot. I have to describe this in my doctoral thesis, and now it'll be easy mate! Love from Germany!
I love your explanation and your voice. It's so much better than my professor's monotone lecture. You kind of sound like Tonks from the Harry Potter books, so that's who I imagine is speaking, lol. Great vid!
Why do we usually ignore oncotic pressure when, in your example equation for NFP at 04:28 , it contributes more to the opposing force than the hydrostatic pressure?
Hi, earlier on in your video you mentioned that the barrier is charge selective, not favoring negative particles. But what about relatively small molecules that are negatively charged such as chloride ions?
I think the answer to ur question is that the charge of an ion/ molecule only comes into play when the ion/ molecule's got a specific size (that's why chloride which is way under that certain line of size/ atomic mass can freely pass although its negative charge) Albumin on the other hand, is much bigger than chloride (3.5 nm) yet it could still pass (as the limit of size is at 3.6 nm) if it wasn't negatively charged.. Hope u can see where i'm going. Greetings
I'm glad that its helped you Kiley😊 Don't forget to subscribe and click the notification bell (next to the subscribe button) so that you are notified when new videos are out ^_^
Cheers for the Video! Forgive me for the intrusion, I am interested in your opinion. Have you considered - Jeedylian Surveys Goldmine (probably on Google)? It is a good one of a kind guide for uncovering the secret to get rid of your kidney disease minus the normal expense. Ive heard some great things about it and my close friend Aubrey after a lifetime of fighting got amazing results with it.
hello mam one thing to be note according to some author albumin is 15 to 25 nm in length & the fenestration size is 70-80 nm & d slits btwn visceral epithelium is average 25 nm ..My questions is y u saying albumin is 3.4nm ..if so it will pass through all pores !? I read somewhere 3.4 nm is d dia. of albumin plz clear my confusion!! thnku!
Very Insightful video; but I must say, If my assumption of what you meant isn't wrong; that albumin is definitely not within the size range of the filtration barrier ❤
Hey Ruz! It do a great help to me if you could explain me this-- "Small amounts of urea enter the thin segment of the ascending limb of Henle's loop which is transported back to the interstitium by collecting tubule."
The water content of the human blood is regulated by ADH. In which part of the nephron does regulation occur? A: Ascending limb of loop of henle B: Descending limb of loop of henle C: Proximal convoluted tubule
Finding this video useful? If so, SMASH the like button & CLICK the subscribe button & notification bell if you enjoy complex topics being made easy and want to stay up-to-date with new videos. See you in another vid! ^_^
Check out our video on hyponatremia (hyponatraemia) ua-cam.com/video/NYxj7c6IXrs/v-deo.html in which we give a detailed overview including classification, investigations, and management. Enjoy ^_^
I swear to lord jesus christ, that I just spent two hours through one lecture video from my university and did not learn a single thing, while this video and that kitchen strainer analogy and 7 minutes of amazing, well produced content made my whole life easier, thank u sooo much lova ya all.
gosh u guys are learning these at uni? damn turkish student are learnin these at 11th grade😮
@@EliseCinar-oh9fg We get a general overview at school but more thorough at uni.
r u a doctor by now bro?
In india we learn these things in 11th class
This was literally the best tutorial I have ever seen on this platform. I can't stress enough how much time you saved me. Thank you Thank you Thank you
Hey... Are u from India?
The strainer analogy was great
I have sent these to my whole a level class, they love them!! Please make more!!! They are amazing!
I hope your class found it helpful. Thank you for watching, commenting AND sharing ^_^
@@biomedsessions please make more video we all need a teacher and guider like you
Thanks you ❤️
Thank you very much for explaining it so very well! You helped me a lot. I have to describe this in my doctoral thesis, and now it'll be easy mate! Love from Germany!
The presentation is awesome!
My basic ana-physio is rectified by this material. Thank you!
Very well said and much clearer to understand. However, my favorite part is to hear her say "capillaries". It's so cute!
He He I'm glad that its helped you Nichole 😊. Thank you for watching and commenting ^_^
Finally it makes sense!! Thank you heaps I got my exam in 50 minutes.
Thanks for watching. I hope you exam went well ^_^
Same in 60 minutes
You are a life saver, thanks for the very good explanation!
These videos are saving me for my exam in 3 hours!!!
I'm glad that its helped you Kaitlyn😊. Keep an eye out for more videos coming soon. Thank you for watching and commenting ^_^
Tomorrow is my phsiology paper am prepared for it by this video.Thanxs
Love from India , such an amazing video
This is absolutely the best explanation - all of your videos are. Thank you, thank you, thank you!
Thank you, thank you, thank you for your lovely comment, Brooke ^_^
I hope I get extra credit for telling Dr. Nour about these videos!
Great! way better than my text book :)
Hi kelly
Thanks for explaining this. It was clear and concise.
Hands down you’re the best ... ♥️♥️ I request you to keep posting such helpful videos !!! 🙏🏼
Thank you ^_^ I am glad you found this video helpful!
Lady, am getting all my nephrology tutorials with you😊
Simple and very informative, appreciate it thank you and God bless you
we need more videos like this on youtube!
fantastically explained
Excellent teaching skills, thank you!
I love your explanation and your voice. It's so much better than my professor's monotone lecture. You kind of sound like Tonks from the Harry Potter books, so that's who I imagine is speaking, lol. Great vid!
Hilarious! I'm glad that this tutorial was helpful to you. Thanks for watching, I have another vid coming soon ^_^
The analogy really help. Thank you!
That was...... *INCREDIBLE* .
THANKS :)
Your illustrations are good and your explanation is amazing =D thanks so much!
As u said that capillaries have an arterial end n veinous end but it is not d case here...so is it an exception like the pulmonary vein nd artery ???
i was already crying cos my manual is not really helping thank god and u for this video!!!
I did really love the explanations
your videos are absolutely fantastic! Please make more videos and they're genuinely very helpful :D Thanks!
it was so easy, you could have added some values of GFR, anyways the oncotic pressure and hydrostatic pressure explanation was great. loved it
Why do we usually ignore oncotic pressure when, in your example equation for NFP at 04:28 , it contributes more to the opposing force than the hydrostatic pressure?
the way you say "blood" 😍😍
Please please please make more videos - this was so helpful!
Hi, earlier on in your video you mentioned that the barrier is charge selective, not favoring negative particles. But what about relatively small molecules that are negatively charged such as chloride ions?
I think the answer to ur question is that the charge of an ion/ molecule only comes into play when the ion/ molecule's got a specific size (that's why chloride which is way under that certain line of size/ atomic mass can freely pass although its negative charge)
Albumin on the other hand, is much bigger than chloride (3.5 nm) yet it could still pass (as the limit of size is at 3.6 nm) if it wasn't negatively charged.. Hope u can see where i'm going.
Greetings
Great video!! Thank you it helped a lot
Thank you
These are really great videos!! Please keep making them!!
Hi ruz the tutorial is fantastic, will you be making anymore??
Great videos !
thanks,
waiting for more of your awesome material,
Biomedical engineering student here :D
Lol.. i hope you are the first child to do this degree!😂😂
Oh excellent! I love the herb broth metaphor.
I'm happy to hear the metaphor was useful Katherine ^_^
good teaching, enjoying every moment
This helped so much thanks!!
I'm glad that its helped you Kiley😊 Don't forget to subscribe and click the notification bell (next to the subscribe button) so that you are notified when new videos are out ^_^
Well done!!
Finally understood !!....great explanation
I am glad to hear it! Thank you for watching and commenting Sadeeyah ^_^
Great work!!
amaazing
love the accent even more than the explanation
Cheers for the Video! Forgive me for the intrusion, I am interested in your opinion. Have you considered - Jeedylian Surveys Goldmine (probably on Google)? It is a good one of a kind guide for uncovering the secret to get rid of your kidney disease minus the normal expense. Ive heard some great things about it and my close friend Aubrey after a lifetime of fighting got amazing results with it.
Amazingly done
Wow thank you so much, you explained this beautifully!
That's actually really informative for a short video. Thank you!
Hehe, thank you Shaz! ^_^
OMG you are amazing. Wish you had more videos :(
Me too ^_^, when I have more free time I will try to make more. Thanks for watching!
omggg!!! thank you so much for such an amazing explanation!! was struggling with it for a long time
I'm glad that its helped you Shrishti 😊. Thank you for watching and commenting ^_^
its so easy to understnd
thank you very much was very useful for my exam..........
Such a clear explanation, thank you!
You're brilliant
thank you for making my life easier...!!
awesome video! well done
Wow very brilliant explanation keep it up
THAT WAS EPIC 😍💖💖
Thank you , saving my time and energy . Subscribed .
Amazing!!!!!❤thank youuuuu
You've saved my life
this is extremely helpful and very well explained :D
Happy to hear that it was useful for you Angelica. Thank you for watching and commenting ^_^
Amazing! now seems pretty easy!
Thank you, I am glad to hear that ^_^
Like the explanation love the presentation awesome stuff
I'm glad that its helped you mativo 😊. Thank you for watching and commenting ^_^
Thank you so much
Oh, this was so helpful for my graduating thesis! Thank you TT_TT
Great! Thank you for watching and commenting ^_^
its awesome!! very good explanation!!!!!👍👍👍👍👍👍
hello mam one thing to be note according to some author albumin is 15 to 25 nm in length & the fenestration size is 70-80 nm & d slits btwn visceral epithelium is average 25 nm ..My questions is y u saying albumin is 3.4nm ..if so it will pass through all pores !? I read somewhere 3.4 nm is d dia. of albumin plz clear my confusion!! thnku!
Good presentation
Awesome
😊 Thank you for watching and commenting Channa ^_^
Very usefull and important video...thanks for sharing
Thanks for the lesson
I'm glad that its helped you Bertobat😊. Thank you for watching and commenting ^_^
Thank you so much for this explanation ❤️❤️❤️❤️❤️
Fantastic video!
😊 Thank you for watching and commenting ^_^
simply amazing
Thank you, really good way of explaining here. You earned yourself a sub!
I'm glad that its helped you 😊. Thank you for watching, commenting, and subscribing ^_^
EXCELLENT Ruz u r the BEST!!
your video really helped my students understand......can you do it for the other systems like respiratory and circulatory system?
Why don't you teach them instead?
Aidan 😂🤣🤣🤣
Well done 👍
😊 Thank you for watching and commenting Komal ^_^
thankyou... great work
You are amazing , thank you .
extremely helpful!
Great explanation, thank you so much. I really appreciate it.
Nice to know how the system works but how do we get the GFR to increase?
Very Insightful video; but I must say, If my assumption of what you meant isn't wrong; that albumin is definitely not within the size range of the filtration barrier ❤
The video about the regulation of GFR is it available please? i can not find it '
Otherwise i like your videos ,they help alot thank you
If all 3 layers are negatively charged why then chloride ion passes..
Very helpful video. Thank you
I'm glad that its helped you Seun 😊. Keep an eye out for more videos coming soon. Thank you for watching and commenting ^_^
Hey Ruz!
It do a great help to me if you could explain me this--
"Small amounts of urea enter the thin segment of the ascending limb of Henle's loop which is transported back to the interstitium by collecting tubule."
Fantastic!!!
Thank you ^_^
What happens to the waste that was too big and unable to pass thru (like protein molecules). Do they kinda clog glomerular filtration overtime?
The water content of the human blood is regulated by ADH. In which part of the nephron does regulation occur?
A: Ascending limb of loop of henle
B: Descending limb of loop of henle
C: Proximal convoluted tubule
Excellent!
Thank you Ma'am 😊
thank u for explaining this
amazing video!
Great video😊😊
It's very informative..thankyou🤗
I'm glad that its helped you Nazrin😊. Keep an eye out for more videos coming soon. Thank you for watching and commenting ^_^