Your drawings and explanations are very clear and so easy to understand. A lot of other videos on TH-cam only deals with short summaries but I really like how you include the in-depth material that I need :) You saved my life studying for medical physiology. I hope you keep on making videos for other physiology topics as well because god knows I need it!
thank you so much for this video! As a nursing student this video was well made and easy to understand with such a complicated topic!! keep up the great work!! ❤️
I think the explanation from 2:26 to 2:39 may be incorrect. The Haldane effect actually occurs at the level of the alveoli, where the binding of O₂ to hemoglobin decreases its affinity for CO₂, causing CO₂ to be released from the blood into the alveoli. In the mentioned timestamp, you've stated the opposite- "removal of O2 from hemoglobin, increase hb affinity for co2 and that's the Haldane effect"
Why Bicarbonate ion diffuse out from red blood cell to maintain the electrochemical in red blood cell Cl- then diffuse into red blood cell, both bicarbonate ion and Cl- are same charges , so why does bicarbonate ion diffuse out in the first place ?
In red blood cells, the movement of bicarbonate ions (HCO₃⁻) and chloride ions (Cl⁻) is a crucial part of the process called the chloride shift, or Hamburger phenomenon. Here’s how it works: 1. CO₂ Conversion: In tissues, carbon dioxide (CO₂) enters red blood cells and is converted to carbonic acid (H₂CO₃) by the enzyme carbonic anhydrase. Carbonic acid then quickly dissociates into hydrogen ions (H⁺) and bicarbonate ions (HCO₃⁻). 2. Bicarbonate Diffusion: Bicarbonate ions (HCO₃⁻), now in higher concentration inside the red blood cell, start to diffuse out of the cell into the plasma to maintain balance in the blood pH. 3. Chloride Shift: To maintain electrical neutrality, chloride ions (Cl⁻) diffuse into the red blood cell from the plasma as bicarbonate ions leave. This exchange of anions ensures that the cell's charge balance is maintained even though ions are moving in and out. Although bicarbonate and chloride have the same negative charge, bicarbonate’s tendency to diffuse out first is driven by concentration gradients created as CO₂ is converted into bicarbonate inside the red blood cell. This exchange is not purely based on charge but also on the chemical gradients that favor bicarbonate exiting and chloride entering.
I'm honestly nowhere near even average intelligence. I want to state this before I continue with this comment. How does that 1% of carbon dioxide transport? Does it not? I'm concerned about the 1%.
CO2 is transported in 3 forms 1. CO2 directly dissolved in blood (5-10%) 2. As Bicarbonate in blood (70%) 3. As Carbon Dioxide directly bound to hemoglobin along with free amino group (NH2) (20%) As there are rounded of figures, the it should add up! Hope that helps!!!
Your drawings and explanations are very clear and so easy to understand. A lot of other videos on TH-cam only deals with short summaries but I really like how you include the in-depth material that I need :) You saved my life studying for medical physiology. I hope you keep on making videos for other physiology topics as well because god knows I need it!
Thank you so much! I appreciate the support! I'm glad my videos are helping you and there are definitely more to come😊
you clearly explain the transport of carbon dioxide in the form of bicarbonate ion so nice of you
..😢
Thank you so much. 😊
Fortunately ,I’ve discovered this channel before my physiology final exam 😅
the most underrarted channel on youtube!! simple clear explanation of complexe mecanismes in just 5 minutes.. genius
please keep making videos.
Thank you for your clear explanation, this was perfect
Life saver🫶 your videos just make my concepts crystal clear
Glad I could help!✨
thank you so much for this video! As a nursing student this video was well made and easy to understand with such a complicated topic!! keep up the great work!! ❤️
Yours way of explaination is osm and very helpful for me and people like me . Thank you so much ❤ keep it up 👍
The video was short and brief.
Loved it.
Just keep making these videos, never stops. My teaching method in wonderful
Super nice explanation of CO2 transport physiology
In my language, Shona, we say Waseva.. well done. Thank you so much
Understood everything perfectly! Thank you so much ❤
Thank you from Turkey. This helps a lot❤
much better than 10 pages in my textbook :)))). Thanks a lot
Beautiful explanation
Thank you so much for such clear explanation
Finally understood this topic , the drawings add on the clarity, pls keep making such videos 😊
You’re welcome! I’m glad it helped you😊
your videos are amazing, you are making complicated subjects understandable , thank you for your efforts
Love from Pakistan 😍 best teacher ever. ❤️
I have watched every video on this topic and for the length of video, yours is the best!
You explained very well.... Thank you ❤
I don't know what I will do without your channel really thanks ❤️🥹
From Ethiopia, You're the best😍😍
I think the explanation from 2:26 to 2:39 may be incorrect. The Haldane effect actually occurs at the level of the alveoli, where the binding of O₂ to hemoglobin decreases its affinity for CO₂, causing CO₂ to be released from the blood into the alveoli. In the mentioned timestamp, you've stated the opposite- "removal of O2 from hemoglobin, increase hb affinity for co2 and that's the Haldane effect"
U have made it simple, interesting and very clear
This is amazing explanation 👏👏
Literally....you are a life saviour...Thankyou very much for clearing out my confusion...much love to you from Nepal ❤️
Neet0?
Thank you soo much for the effort and help. Keep up the good work!
The diagrams helped alot
This is simple and to the point. Thank you!
Great video! Thank you 🙏
I needed it very much.......thank you
Thanku so much for the amazing work...keep it up..💓💓💓
OMG BESTESTTTTT U R AN AMAZING TEACHER
amazing explanation. thank you!
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Thank you for this amazing explanation i hope to see many of these videos in the future ❤❤
Perfect explanation!!!!!
It' helped me so much thank you 💗
Your explanations and notes are very very clear. Thank you so much. 👍👍
Can you please do different volumes and Capacities of lungs?
Thank you very much! 😊 I have already uploaded a video on lung volumes and capacities. You can check it out in my respiratory physiology playlist 😊
Thank you much this was really helpful 🙏
You're very welcome! 😊
very nice explanation..but, I found this channel late...
Best video on Youtubs👍
It is really help full to us thank you soo much,I will support your channel
Thank you so much!!!
It helped a lot
really great
thank you
Beautiful explanation, thanks
I appreciate the animations instead of board writings
Excellent ❤
Thanks, great explanation.
very nice explanation and video very well organized
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Amazing explanation
Wowwe what a explanation I'm dying on your explanation mam😍 became a big fan of you mam❤ new subscriber 😌
Excellent work keep it up❤
Incredible video, will use and credit for a presentation of mine in the near future.
Your videos are amazing. Thank you so much for your hard work ❤️
Please also make videos on neurophysiology topics.
Nice explanation
Thanks Ghanog!
TYSM
SUPERB LECTURE 🎭💝💝💝
😮 amazing
Which muck are you using???
Thanks ❤
perfect!
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Why Bicarbonate ion diffuse out from red blood cell to maintain the electrochemical in red blood cell Cl- then diffuse into red blood cell, both bicarbonate ion and Cl- are same charges , so why does bicarbonate ion diffuse out in the first place ?
In red blood cells, the movement of bicarbonate ions (HCO₃⁻) and chloride ions (Cl⁻) is a crucial part of the process called the chloride shift, or Hamburger phenomenon. Here’s how it works:
1. CO₂ Conversion: In tissues, carbon dioxide (CO₂) enters red blood cells and is converted to carbonic acid (H₂CO₃) by the enzyme carbonic anhydrase. Carbonic acid then quickly dissociates into hydrogen ions (H⁺) and bicarbonate ions (HCO₃⁻).
2. Bicarbonate Diffusion: Bicarbonate ions (HCO₃⁻), now in higher concentration inside the red blood cell, start to diffuse out of the cell into the plasma to maintain balance in the blood pH.
3. Chloride Shift: To maintain electrical neutrality, chloride ions (Cl⁻) diffuse into the red blood cell from the plasma as bicarbonate ions leave. This exchange of anions ensures that the cell's charge balance is maintained even though ions are moving in and out.
Although bicarbonate and chloride have the same negative charge, bicarbonate’s tendency to diffuse out first is driven by concentration gradients created as CO₂ is converted into bicarbonate inside the red blood cell. This exchange is not purely based on charge but also on the chemical gradients that favor bicarbonate exiting and chloride entering.
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❤
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I'm honestly nowhere near even average intelligence. I want to state this before I continue with this comment. How does that 1% of carbon dioxide transport? Does it not? I'm concerned about the 1%.
CO2 is transported in 3 forms
1. CO2 directly dissolved in blood (5-10%)
2. As Bicarbonate in blood (70%)
3. As Carbon Dioxide directly bound to hemoglobin along with free amino group (NH2) (20%)
As there are rounded of figures, the it should add up!
Hope that helps!!!
is she indian?
I guess
Nice explanation
nice video
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