@@LanceMillerPhD Hello Sir. I'm a Brazilian studing medicine in Argentina. Would you allow me to make an spanish and portuguese version of it? If so, I may need alter the graphics to those languages too.
I don't know how you have so few subscribers, your videos provide the most concise explanation in a ridiculously straightforward way. Thank you for all your hard work!
Very well explained Sir...I thought to mug up the graph but then I saw this video and... Now such a smart explaination can be easily retained in my memory for long...Thanks a lot.
This is definitely a great explanation for this complex diagram. I just want to correct that with a metabolic alkalosis the body could not regulate the body pH by decreasing the respiratory rate. This is limited by the need of oxygen. And thus a metabolic alkalosis can only be compensated with another metabolic process.
I have to study the Davenport diagram but I don’t understand something about it. I hope you could help :) The text states that when the concentration of H+ increases by 4 mM, the pH of the blood will increase ( which I understand ). Then the text states that when you only use the closed system, a line showing the gradient of the ‘ buffer concentration ‘ shows the new pH concentration when you increase hco3 by 4 (from 24 meq/L to 28). Then the text ends by stating the pH is now 7.1 with the H+ increasing from 40 nm/L to 80 nm/L . I hope this makes any sense and that you can help. Thank you very much in advance. Marissa
Hi Marissa, that is a great question. pH is a measure of the hydrogen ion concentration [H+]. So, when the [H+] concentration increases the pH decreases and the opposite occurs when the [H+] decreases. HCO3- is an important buffer of H+. So, when [H+] increases in the body, HCO3- binds or buffers the extra H+, which leads to a decrease in HCO3-. The opposite occurs when H+ decreases. So, plasma HCO3- concentration is useful in determining the level of acidosis (increased H+) or alkalosis (decreased H+).
this is amazing, the only video on the internet that can explain it correctly
Thanks.
@@LanceMillerPhD Hello Sir. I'm a Brazilian studing medicine in Argentina. Would you allow me to make an spanish and portuguese version of it? If so, I may need alter the graphics to those languages too.
I‘m so glad i cam across your channel, it‘s gonna save me in my Physiology exam !
I don't know how you have so few subscribers, your videos provide the most concise explanation in a ridiculously straightforward way. Thank you for all your hard work!
Thank you, I appreciate the compliment and that you found it helpful.
Amazing
Great video and wonderful explanation. I never understood this until now. Thank you!
I almost finish all videos relative to renal system ,which is more clear and more easy
Thank you so much
Thank you for this. Very easy to understand. Could you please explain the use of this as well, in real life / clinical situation
Bro u made me understood so easily in small vdo, which I couldn't understand thru long vdos ,thnx alot more power to you
Glad to hear that.
thanks for the simple yet effective explanation. iam so glad I found this video
Thanks, I’m glad it helped.
Simply an amazing video! Will share with my medical students today.
Thanks!
You sir, are incredibly awesome. THANKS!!
Very well explained Sir...I thought to mug up the graph but then I saw this video and... Now such a smart explaination can be easily retained in my memory for long...Thanks a lot.
Also the best explanation that I've ever seen
Excellent video. Thanks for sharing.
Excellent presentation !👍👍👍
Thank you! Cheers!
Thanks for this quick rundown. Perhaps you could include buffer lines next time.
Great idea!
Absolutely amazing!
Thank you.
Best video explanation of the Davenport diagram I have ever seen!
Extremely helpful - Thank you!
very helpful video that explains this topic quickly and easily
Thank you so much I understood it very well!
Thanks for the great comment.
This is definitely a great explanation for this complex diagram.
I just want to correct that with a metabolic alkalosis the body could not regulate the body pH by decreasing the respiratory rate. This is limited by the need of oxygen.
And thus a metabolic alkalosis can only be compensated with another metabolic process.
Such informative and great video... thanks sir! everything is clear now!
u deserve like and a kiss :D ..thank u for gr8 explanation
Are u female
Excellent very well explained
Glad you liked it
Very good explanation - simple and understandable. Thanks!
please post more videos We Need You!!!
I have to study the Davenport diagram but I don’t understand something about it. I hope you could help :)
The text states that when the concentration of H+ increases by 4 mM, the pH of the blood will increase ( which I understand ). Then the text states that when you only use the closed system, a line showing the gradient of the ‘ buffer concentration ‘ shows the new pH concentration when you increase hco3 by 4 (from 24 meq/L to 28). Then the text ends by stating the pH is now 7.1 with the H+ increasing from 40 nm/L to 80 nm/L .
I hope this makes any sense and that you can help.
Thank you very much in advance.
Marissa
Hi Marissa, when you say text, what text are you referring to?
Such a great video! Thank you
Can someone explain how the pH drops when HCO3 is low or why when HCO3 is low, the pH drops?
Hi Marissa, that is a great question. pH is a measure of the hydrogen ion concentration [H+]. So, when the [H+] concentration increases the pH decreases and the opposite occurs when the [H+] decreases. HCO3- is an important buffer of H+. So, when [H+] increases in the body, HCO3- binds or buffers the extra H+, which leads to a decrease in HCO3-. The opposite occurs when H+ decreases. So, plasma HCO3- concentration is useful in determining the level of acidosis (increased H+) or alkalosis (decreased H+).
@@LanceMillerPhD thank you so much for your quick and excellent reply :)
your video it´s amazing, thank´s!!!! it help me a lot!
Glad it helped!
Very nice
Found this on a uworld question and freaked out honestly
This is a really nicely made video - thanks!
thanks sir .
Awesome explanation
wow You made it simple
thiss video deserve 1milion likes
Super helpful.
Underrated
so helpful! thank you.
Fantastic!
Many thanks!
Fantastic
Thank you so much 😀
Need layman’s term of how to slow or stop CKD. I am not a scientist
Thanks dude.