Thank you for explaining the capillary exchange concept so clearly. It really helps making the textbook easier to understand. I guarantee your videos have helped thousands of med/healthcare students around the world.
Dr. Mike, You do an amazing job breaking down any idea within science. I love listening to the Podcast and watching your videos. I hope you continue teaching as much as possible!
Wow, Dr. Mike, you've done it again! No one has broken the starling forces down so well and easy to understand and tying that with edema and inflammation; That is cheffs kiss! Thank you so much for your lectures!
Thank you so much Dr. Mike. I was struggling in understanding this concept and had tried several other videos before watching yours. However, you made this easy to understand and follow throughout.
My God! This was such a great educational video! I have been struggling with this subject for some time, and after watching this video, it makes so much more sense! Thank you so much!
Thank you Dr. Mike ! you explain very well! I was recommended to you by my tutor at school. Amazing! I am happy that I understand. Anatomy can be overwhelming so much info from the textbook, lectures and other videos. You explained it amazingly. Thank you!❤😃
Thank you for making these videos. I'm not a student but I need to learn biology because I have mercury poisoning from amalgam fillings. Hg compromises every single bodily system and sits inside cells. It makes me unable to balance all sorts of levels, such as potassium and sodium, etc. Luckily Hg has given my body an extreme sensitivity superpower of sorts and I have learned how to read the signs my body tells me and can fix most issues with supplements. Your videos help me understand the bodily processes better to help my health. Thanks again and keep up the good work.
Honestly if iam been honest 😅 i don't usually comment on UA-cam videos but i have been compelled to say something based on my oncontic and hydrostatic pressure that has made it possible for me to say may you not stop teaching and may my unborn children find you teaching 😂. just wow😊
Oh my God I laughed .......so hard wen u said, what get pull severally..... I enjoyed the part of the lecture, I smiled and wasn't too serious 😅😅 for a moment
Your videos are always great! In this video you need to incorporate the revised starlings. Oncotic gradient is between the the lumen and sub glycocalyx not the interstitium. This leads to a net filtration out and NO reabsorption back into the venule. All lymphatics. Exceptions in kidneys or in transient states of hypovolemia. Maybe have a separate video on the endothelial glycocalyx layer? Thank you!
I love your videos. One thing I don't understand is when you say the hydrostatic pressure increases when the blood vessel dilate. Shouldn't there be an opposite effect, as the blood pressure (the hydrostatic pressure) falls due to this? If I take the analogy with a hose, when the hose gets wider at the end, the stream at the end slows down accordingly. Do I understand that right?
I dont understand: the capillary pressure is the tendency of capillaries to "give" its O2 and nutrients? and the arterial pressure is the literal pressure of blood against artery walls? so low blood pressure associated with vasodilation doesnt have the same consequences as low capillary pressure, also associated with vasodilation, which would result in low perfusion?
Any chance you can help me understand what happens to hydrostatic and oncotic pressures in Ascites? I understand that albumin production is drastically reduced due to damaged hepatocytes. I also understand how hydrostatic pressure increases as a result of portal hypertension and this causes a fluid shift into interstitial space and ultimately peritoneal cavity. I just can't quite connect and describe the relationship between hydrostatic pressure and osmotic pressure in this scenario 😅
man this is so cool. I have a question, on normal capillary exchange, does the O2 and nutrients pushed out from the capillary beds have a chance to get pulled back in? also in the venous part, is the blood pressure there the same as the arterial?
Thank you for explaining the capillary exchange concept so clearly. It really helps making the textbook easier to understand. I guarantee your videos have helped thousands of med/healthcare students around the world.
Dr. Mike, You do an amazing job breaking down any idea within science. I love listening to the Podcast and watching your videos. I hope you continue teaching as much as possible!
Thank you so much I've studied all night just for u to break it down in 10 mins
I WISH I CAN LIKE THIS VIDEO LIKE 100 TIMES. THANK YOU SO MUCH.
This clip is probably one of the most important things that happened in my medical education.
How can you be so good and clear at explaining this concept Dr Mike! This is super helpful!
You have just made capillary exchange so simple to understand! I cannot thank you enough! You are a life saver :D
Wow, Dr. Mike, you've done it again! No one has broken the starling forces down so well and easy to understand and tying that with edema and inflammation; That is cheffs kiss! Thank you so much for your lectures!
YOU JUST SAVED MY LIFE AND LITERALLY BLEW MY MIND
Thank you so much Dr. Mike. I was struggling in understanding this concept and had tried several other videos before watching yours. However, you made this easy to understand and follow throughout.
Dr. Mike, thank you so much for teaching us! You both are amazing doctors!
Such a clear and easy to understand description. Thanks so much for explaining it this way!
this is the clearest explanation i have gotten and i got it right away. thank you so much.
I could not have done so well in Anatomy and Physiology without your videos. Will be watching when I go into nursing school. Love from the U.S.!
Happy to help! 😊
Dear Dr. Mike, thanks to your videos, I understand topics that I did not understand during my undergraduate and graduate education. Thank you.
thank you dr. Mike, you are the best teacher ive ever seen!
Thanks doc! This was Amazing to say the the least
My God! This was such a great educational video! I have been struggling with this subject for some time, and after watching this video, it makes so much more sense! Thank you so much!
❤I’m a system engineer and this is much more interesting and fun because of the probably ever best teacher have met.
I had such a huge lightbulb moment from this video, THANK you! Talk about a Dr. Mike-drop moment 🎤👏
Thank you Dr. Mike ! you explain very well! I was recommended to you by my tutor at school. Amazing! I am happy that I understand. Anatomy can be overwhelming so much info from the textbook, lectures and other videos. You explained it amazingly. Thank you!❤😃
I just want to thank you for your efforts you just amazing person. I hope our professors understand and follow ur way of teaching ♥️
Dr Mike I learn a lot from you ! You made my anatomy class so easy ! I really enjoy your videos ❤they are very informative and short
I get a lot of studying done on the toilet watching this guys videos
Why you study in the toilet ?
i knew you would give us the best and understandable content doctor
much appreciated
The way you explained inflammation 👏 Bravo
This video was absolute perfection. Thank you so much ❤ i finally was able to make sense of the first 6 slides of my fluid balance lecture!! 😅
Thank you for making these videos. I'm not a student but I need to learn biology because I have mercury poisoning from amalgam fillings. Hg compromises every single bodily system and sits inside cells. It makes me unable to balance all sorts of levels, such as potassium and sodium, etc. Luckily Hg has given my body an extreme sensitivity superpower of sorts and I have learned how to read the signs my body tells me and can fix most issues with supplements. Your videos help me understand the bodily processes better to help my health. Thanks again and keep up the good work.
Love your lectures Dr.Mike ❤️❤️ thanks
Thankyou Mr Mike i am from Punjab India and i really appreciate ur teaching skills
THE BEADED BRACELET HE HAS ON HIS LEFT HAND, one of his kiddos must have made it for him. Extremely cute!!!
That’s right! My daughter made it for me!! 😊
FINALLY! Someone explains this!
Brilliant overview. Thanks for the revision! So easy to understand when you explain it! Thank you. 🙏
Glad it was helpful! 😊
Wow, everything makes sense now! Thank you so much!
Thank you so much for this simple, easy explanation. I love the visuals as well -I wish you could be my prof!
Wow this video is chef's kiss! Thank you!
Our pleasure! 😊
thanks so much dr Mike!
Fantastic Capillary exchange explanation
Dr. Mike thank you so much
Somehow this had a better explanation of Inflammation than any of my instructors in RMT school
Interesting and very clear, much appreciated!
Glad it was helpful!
Extremely well explained. Very easy to follow. Well done. Please do more videos. Thanks
❤🎉Wow! Amazing explanation. Thanks for breaking it down!
Honestly if iam been honest 😅 i don't usually comment on UA-cam videos but i have been compelled to say something based on my oncontic and hydrostatic pressure that has made it possible for me to say may you not stop teaching and may my unborn children find you teaching 😂. just wow😊
really enjoyable to watch your video. thank you, Dr Mike. stay healthy
Simple explanation...Thank you
Your videos are really helpful.
Oh my God I laughed .......so hard wen u said, what get pull severally..... I enjoyed the part of the lecture, I smiled and wasn't too serious 😅😅 for a moment
You are awesome! Thank you!
Great video.
That’s an awesome explanation 👌🏽
Great explanation! Many thanks!
Nicee explanation...It was very helpful...Thanks a lot❤🎉🤝
You are the best! Thank you!
YOU'RE AMAZING MAN!
Your videos are always great! In this video you need to incorporate the revised starlings. Oncotic gradient is between the the lumen and sub glycocalyx not the interstitium. This leads to a net filtration out and NO reabsorption back into the venule. All lymphatics. Exceptions in kidneys or in transient states of hypovolemia. Maybe have a separate video on the endothelial glycocalyx layer? Thank you!
Excellent video!
You are the best 🙏
Very good. Thanks.
I'm writing a paper, and I was having a hard time understanding capillaries. Thanks for explaining, I understand now. 😅
I can never thank you enough , I’m a first year medical student and English is not my native language but you make everything so clear and easy🫡
thank you so much for this video, it was very helpful.
Thank you sir. Makes it Very simple
This video helped me with an essay question!
great video thanks I understand edema better at a cellular level.
Arabic student .. thank you so much 💜
thank you DR Mike
Very well explained ❤
amazing video, thank you so very much!
Thanks Dr.Mike
loved this 😍
Sir what a wonderful explanation thanq
Thank you! 😊
Keep posting brother .
Good content with better execution .
Thank you, I will
this is excellent
THANK YOU SO MUCH!!!!!!!!!!❤❤❤❤❤❤❤❤
Very productive video
Excellent
Thankyou
QUESTION: How many miles of circulation are in a pound of fat versus a pound of muscle? Thank you.
You are the BEST at explaining anatomy, thank you so much!!!
Thank you so much!!!
Outstanding 10/10
I love your videos. One thing I don't understand is when you say the hydrostatic pressure increases when the blood vessel dilate. Shouldn't there be an opposite effect, as the blood pressure (the hydrostatic pressure) falls due to this? If I take the analogy with a hose, when the hose gets wider at the end, the stream at the end slows down accordingly. Do I understand that right?
why is vasodilation associated with higher pefusion if vasodilation in capillary cause lower perfusion?
I dont understand: the capillary pressure is the tendency of capillaries to "give" its O2 and nutrients? and the arterial pressure is the literal pressure of blood against artery walls? so low blood pressure associated with vasodilation doesnt have the same consequences as low capillary pressure, also associated with vasodilation, which would result in low perfusion?
Why does vasodilation increase hydrostatic pressure? Shouldn’t it decrease pressure because the cross sectional area increases?
Any chance you can help me understand what happens to hydrostatic and oncotic pressures in Ascites? I understand that albumin production is drastically reduced due to damaged hepatocytes. I also understand how hydrostatic pressure increases as a result of portal hypertension and this causes a fluid shift into interstitial space and ultimately peritoneal cavity. I just can't quite connect and describe the relationship between hydrostatic pressure and osmotic pressure in this scenario 😅
great video and drawings ! :)
Thank you! Cheers!
can you please explain the role of the endothelial glycocalyx layer please?
I keep getting distracted by this handsome lad
Lmao
activate your focus mode😂😂😂
What The F**K
That’s me w my a&p II professor 😫
Relatable 😂😂😂
YOU ARE THE BESSSSSSSSTTTTT
Wow Dr grt wak
man this is so cool. I have a question, on normal capillary exchange, does the O2 and nutrients pushed out from the capillary beds have a chance to get pulled back in? also in the venous part, is the blood pressure there the same as the arterial?
Thanks.
Amazing. That's the tweet
thank you
Brilliant
Thanks alot ❤❤
You're welcome 😊
Great 👍
Bravo
amazing
Thank you! Cheers!