Love this video? Check out our course "Cardiovascular Physiology" made entirely with videos like this (without watermark): Students, click here: www.alilaacademy.com/courses/cardiovascular-physiology-for-students Teachers, click here: www.alilaacademy.com/courses/cardiovascular-physiology-for-teachers
Thank you very much. I was recently diagnosed with lipodema with lymphedema. This is helpful in visually unwinding the skein of medical mysteries I'm dealing with.
Love ur video ✨✨ from India 🇮🇳 u make the concept crystal clear tyms💐.. I am a student of class 10 but i want to study in deep and i got a perfect channel for my study 😊🥰 ...
This video really helped me. Guys, I am a first-year med student. I still find it kind of hard to build up the answers to the questions. Please recommend me some useful sites that I can refer to. Thank you!
Hey Nellisa, I've found ruclips.net/user/MedicosisPerfectionalis to be a big help. He lays a lot of the info out in charts/graphs and is so engaging and hilarious. He's a fast talker, but it's RUclips and you can just pause or rewind. Good luck!
When a patient presents with edema/swelling in the extremities and face are their chances of having a "enlarged" internal organ also increased? besides possibly having hypertrophy of the heart. What other organs could be affected?
Is there any change in osmotic pressure between arterial and venous end of capillaries? I saw somewhere that at venous end of capillary osmotic pressure increase due to hemoconcentration. Confused.. 🤪🙄
Water (like anything else) moves from high to low concentration. When the inside of a compartment has more protein (or any other substance such as salt, sugar...) than outside, the concentration of water inside that compartment is lower than outside - water will flow from outside in.
Can i tie up my skin bridge To die of the skin tissue And open the Skin Bridge Just like tying off skin tag? I have a hose like skin bridge under my foreskin
thats the net flow inwards and outwards ; net filteration = (BHP + IFOP) - (BCOP + IFHP) where BHP = blood hydrostatic pressure , IFOP = intersitiutal fluid osmotic pressure, this part of the eq in brackets represents the facotrs which allow filteration to occur and BCOP = blood colloid osmotic pressure and IFHP = intersital fluid hydorstatic pressure which allow reabsorption to occur. The two values are different because the values of BHP and BCOP values at the venous end and arterioal end are different to each other, which would result in different net filteration pressure hence the different numbers. IFOP = 0 and IFHP = 1, these values dont change. How? the differences are caused through the pressure and osmotic gradients itself as the video above mentions. Hydrostatic pressure moves lymph fluid out of the capillaries and then intersitial fluid osmotic pressure combats against it, however the IFOP is negligible since its a small number so fluid is pushed out of the capillary as a result when blood is moving down the the venous end of the cappilary, the lymph fluid is reabsorbed back in as the BCOP pulls fluid back into the cappilary since it has a higher plasma protein concentration inside the cappilary since IFHP force is also considered negligible to push fluid out as it is so small. If you understand this concept what i've said above should help clarifiy as certain numbers need to be higher or lower to accommodate.
Love this video? Check out our course "Cardiovascular Physiology" made entirely with videos like this (without watermark):
Students, click here: www.alilaacademy.com/courses/cardiovascular-physiology-for-students
Teachers, click here: www.alilaacademy.com/courses/cardiovascular-physiology-for-teachers
im a stage 2 med student i've been through this subject for 3 years but only now i understand it.... huge thanks
Nursing student here. Literally exact same thing. Cheers!
Thank you very much. I was recently diagnosed with lipodema with lymphedema. This is helpful in visually unwinding the skein of medical mysteries I'm dealing with.
How is it now? Is it cure to you
Holy crap! This video explains it so clearly. Now it's time to watch it a couple more times to really beat it in.
This is the best youtube channel for cardiology! You've helped me understand a lot of tough topics! Keep up the good work!
Great to hear!
This video has been so helpful for hydrostatic vs osmotic/oncotic pressure!
I watch a lot of these. In terms of clarity regarding a relatively sophisticated subject, this might be the best A & P video I've ever seen.
Thank you, this help me a lot to understand how materials in blood vessels exchanged.
These videos are amazing! Keep up the good work and I will support it. Simply breathtaking
Thanks for this awesome lecture. Literally saved my time.
YES! Finally it make sense! Thank youu!! Tomorrow is my midterms in my final semester and I was panicking
Easy to the point
Great help for a guy before exam
Thanks .
Completely resolved my confusion. Thanks.
Thanks for the explanation
Thank you for explaining maam concept is now clear maam thank you
THANK YOU SO MUCH... EXCELLENT EXPLANATION!!
Very useful one...This concept is the base for many ideas....Thankyou so much for explaining it very easily and clearly😊😊
Thank you so much 🙏🏽. This is a life saver 😇💖
Thanks for your explanation, I am waiting for the next topic 🥰
Very informative video . Thank you so much👏🏻👏🏻
Very informative, many thanks.
Very well and simple explanation.
Best videoooo! The one I've been looking for :D
Thank for the video
Amazing, it was really helpful 💙
thank you , finally get it now!
amazing explanation
Thanks for help
well said, thank you.
It was very useful. Thank you 💚
Thank you so much❤❤❤
thank you so much
Thanks a lot for this!!
thank you so much saved my time
great video, thank you so much!!!!
Thank you so much
Best explained well done
what a fantastic video
Simple and clear explanation 👍🏻
Very helpful and easy to understand thank you so much.
Thank you so much 💓
I finally understand hydrostatic pressure... omg tysm
The best
Thank you so much❤️❤️❤️❤️
so helpful! thank you :)
Thanks ❤️
Thank you
Thank you!
Wow this is so good thanksssss
Great video
thank you
THANK YOU
isn't it crazy that i must learn this at highschool while everybody else doing at medical school?
I wouldn't complain bc it would make uni papers slightly easier for you since you've already been exposed to it, but does sound crazy ;-;
thank you.
Thank you so so much
thanks a lot... very good video!!!
thank you so much!
You saved my life
بعد روحي فدوة لهيج شرح
Helped a lot🥰
this is the best
Great!
thanks for providing such good animated video
2022...
This video is still helping us...
2,2 Medical licentiate student.
Interesting.. Didn't know the albumin was so useful
Albumin is the most abundant protein in body fluids and it functions in regulating plasma colloidal osmotic pressure.
So it's surely very important
Love ur video ✨✨ from India 🇮🇳 u make the concept crystal clear tyms💐.. I am a student of class 10 but i want to study in deep and i got a perfect channel for my study 😊🥰 ...
My pleasure 😊
Great
Better than my professors lecture. And 1/16 of the time
wow thanks a lot! that s why i should search only for english videos,
This was so so so helpful 😭😭
Thank you so much ❤️
Thankkk youu
God bless.
This video really helped me.
Guys, I am a first-year med student. I still find it kind of hard to build up the answers to the questions.
Please recommend me some useful sites that I can refer to.
Thank you!
A youtube channel named ninja nerds really helps me
Hey Nellisa, I've found ruclips.net/user/MedicosisPerfectionalis to be a big help. He lays a lot of the info out in charts/graphs and is so engaging and hilarious. He's a fast talker, but it's RUclips and you can just pause or rewind. Good luck!
where do capillary beds in which location (liver, kidney, pancreas, brain, bone marrow) have the greatest control over osmosis and diffusion?
راااائع شكرا
I wish this video was long 😢
after years of studying medicine.. finally
Please cover the regulation of the CVS if you haven't. Thanks💗 and good job💗💗
We have the whole playlist for that, check it out!
no i still dont get it
Which part you dont get c
How can we increase either the capillaries, capillary density or capillary biogenesis for improved physical output?
Please upload vedio about blood vessels with explanation
Do capillaries exchange substances between the blood and the interstitial fluid in the same way through- out the body?
Doubt is cleared 😁
can you present action potential , i need it , thanks for this attention
We already have that video, look for it in our channel!
When a patient presents with edema/swelling in the extremities and face are their chances of having a "enlarged" internal organ also increased? besides possibly having hypertrophy of the heart. What other organs could be affected?
Is there any change in osmotic pressure between arterial and venous end of capillaries? I saw somewhere that at venous end of capillary osmotic pressure increase due to hemoconcentration. Confused.. 🤪🙄
My teacher said that osmotic pressure barely changes at either end. No sure what country your from though so maybe we need to know different thing idk
Does blood diffuse through the capillaries to the tissue?
Is that osmotic pressure ?
I have a question what does the quantity of protein has tp do with water mvt?
Water (like anything else) moves from high to low concentration. When the inside of a compartment has more protein (or any other substance such as salt, sugar...) than outside, the concentration of water inside that compartment is lower than outside - water will flow from outside in.
Lovee youuu
Im. Going to pass my Medical Experiments....
Can i tie up my skin bridge
To die of the skin tissue
And open the Skin Bridge
Just like tying off skin tag?
I have a hose like skin bridge under my foreskin
i just cant understand, the pressure is supposed to be 13, and then+ 7??? how?? and why?
wont it explore?
thats the net flow inwards and outwards ; net filteration = (BHP + IFOP) - (BCOP + IFHP)
where BHP = blood hydrostatic pressure , IFOP = intersitiutal fluid osmotic pressure, this part of the eq in brackets represents the facotrs which allow filteration to occur and BCOP = blood colloid osmotic pressure and IFHP = intersital fluid hydorstatic pressure which allow reabsorption to occur. The two values are different because the values of BHP and BCOP values at the venous end and arterioal end are different to each other, which would result in different net filteration pressure hence the different numbers. IFOP = 0 and IFHP = 1, these values dont change.
How? the differences are caused through the pressure and osmotic gradients itself as the video above mentions. Hydrostatic pressure moves lymph fluid out of the capillaries and then intersitial fluid osmotic pressure combats against it, however the IFOP is negligible since its a small number so fluid is pushed out of the capillary as a result when blood is moving down the the venous end of the cappilary, the lymph fluid is reabsorbed back in as the BCOP pulls fluid back into the cappilary since it has a higher plasma protein concentration inside the cappilary since IFHP force is also considered negligible to push fluid out as it is so small. If you understand this concept what i've said above should help clarifiy as certain numbers need to be higher or lower to accommodate.
What is capillary permeability? 🙈
How much the capillary can let solutes flow through its membrane.
15% of the fluid is left in the tissues and not on the interstitial fluid? sorry thanks
Wait what...
The interstitial fluid is a part of the tissue! You need to study more.
👏❤❤
Oi pra todo mundo da 66
Being honest, who came back a couple of times?
🙏🙏👍👍👌👌💐💐❤❤
op bolte chadi kholte
im so dumb i still don't get it