I'm glad that you and your classmates are enjoying the videos! I will be working on kidney videos soon, but first have a few more lung videos to wrap up. =)
I cannot describe how awesome I think you are. Me and my nursing school classmates are BIG fans. Many people have the heart of a teacher, but lack the gift of explanation. You, my friend, have both. Awesome. Now, if you could only do a series on Electrolyte imbalances by the time of our next exam... =) Thank you so much for sharing your gift.
Your videos and pictures and everything is so neat! It's great to see how someone really has the time to teach and explain these things to other people! Thank You sir! =)
I am a first year paramedicine student and I cannot tell you how valuable these videos are. If you could do ECG's with shockable and non shockable rhythm's and some pharmacology. That would be incredible. Thanks again
I watch a lot of A & P videos, here, at Ninja Nerd and Dr Matt and Dr Mike. Because I've been focusing on other stuff, I took a break. To my surprise (and dismay), getting back was tough-- concentration and understanding were hard. Then I watched this video-- which was totally interesting and fun. Thanks for welcoming me back!
This covers stuff that is probably relevant to anyone in health care (or wants to know more about their body). =) If you're going to be a nurse, I say watch and enjoy! =)
Thank you so much for your videos. I'm an ER nurse who has recently made the jump to the ICU and I find your videos informative, but more importantly your content is easy to understand. Keep up the good work. I know that you're receiving multiple requests for topics, but one of these days could you incorporate a few of the common IV drip medications (nitro, dopamine, levophed)? Thanks once again.
@ 5:22 he says CO2 and H2O form carbonic anhydrase, but H2CO3 is actually carbonic acid, which is formed via the ENZYME carbonic anhydrase. This enzyme is the target of carbonic anhydrase inhibitors such as acetazolamide (which can cause metabolic acidosis).
khan academy ur the best.... tqs to everyone for playing their part in this..... project...... god bless you........... i love u so much................
Hey Rishi, wonderful videos! I was wondering though, when @ 5:23 in this video you mention that CO2 + H20 produces "carbonic anhydrase"...isn't that an enzyme in red blood cells? I thought that CO2 + H20 produces carbonic acid. Are these interchangeable terms?
Thank you so much for your videos!! In my pathophysiology book says that CO2 in the arterial blood can pass through (diffuses across) the blood brain barrier into the CSF and combine with H2O that forms carbonic acid then the central chemoreceptors are sensing the increased CO2 and H levels.
Great explanation!! Could you find any time to make videos about the central nervous system and some of the processes that occur in normally functioning brain and with a particular disease? That would be really exciting.
Hey!! I just wanted to say how much I enjoy your videos. They're quite amazing and have helped me over the years get through school. This video about central chemoreceptors in particular I would like to make a suggestion. Can you throw in the "why"? People who are trying to learn this for the first time may not know that this the increase in CO2 causes humans to take a breath or with you saying that somewhere in your video will be that 'light bulb' that goes off for them to finally get the concept of breathing.
OMMMGGG I can not tell u thank you enoughhh frrr I have an assightment on this and I didn’t understand anything and I was just staring at my blank paper then your video out of everyone eleses.thank you thank you thank yoooyuuu
I thought respiratory centers in medulla respond to low pH (therefore increase H+) and not really CO2. How is the AP triggered from just that? is it because H+ changes the membrane potential which then triggers it? I don't really understand what happens between increase H+ and neuron AP signaling.. anyone can explain please?
Hopefully I can help. Once the CO2 in the blood passes the blood brain barrier and enters the CSF, it will react with H20 to ultimately make bicarbonate and hydrogen ions. The receptors are highly sensitive to the hydrogen ions and once they sense it, the receptors will be stimulated and send the signal to the DRG and Pneumotaxic center to increase breathing.
I like to look at it as C02 is an acid (H+), so naturally the higher C02 levels, the higher amount of H+. And of course, when your H+ value is high, your pH will be low.
Correction* Blood CO2 diffuses into the Cerebral-spinal fluid(CSF). CO2 reacts with the water(H20), forming carbonic acid which is then dissociated into a bicarbonate ion and proton (H+). the pH or H+ is monitored as well is the CO2 by the central chemoreceptors IN THE CSF Indirectly measuring the blood CO2 by changes in the levels of CO2 and H+ in the CSF.
I'm glad that you and your classmates are enjoying the videos! I will be working on kidney videos soon, but first have a few more lung videos to wrap up. =)
Plz make the video more black so people cant see anything.
wow that was a beautifully drawn relationship about astrocytes and chemo receptors
I cannot describe how awesome I think you are. Me and my nursing school classmates are BIG fans. Many people have the heart of a teacher, but lack the gift of explanation. You, my friend, have both. Awesome.
Now, if you could only do a series on Electrolyte imbalances by the time of our next exam... =) Thank you so much for sharing your gift.
Your videos and pictures and everything is so neat! It's great to see how someone really has the time to teach and explain these things to other people! Thank You sir! =)
I am a first year paramedicine student and I cannot tell you how valuable these videos are. If you could do ECG's with shockable and non shockable rhythm's and some pharmacology. That would be incredible. Thanks again
I watch a lot of A & P videos, here, at Ninja Nerd and Dr Matt and Dr Mike. Because I've been focusing on other stuff, I took a break. To my surprise (and dismay), getting back was tough-- concentration and understanding were hard. Then I watched this video-- which was totally interesting and fun. Thanks for welcoming me back!
This covers stuff that is probably relevant to anyone in health care (or wants to know more about their body). =) If you're going to be a nurse, I say watch and enjoy! =)
Thank you so much for your videos. I'm an ER nurse who has recently made the jump to the ICU and I find your videos informative, but more importantly your content is easy to understand. Keep up the good work. I know that you're receiving multiple requests for topics, but one of these days could you incorporate a few of the common IV drip medications (nitro, dopamine, levophed)? Thanks once again.
@ 5:22 he says CO2 and H2O form carbonic anhydrase, but H2CO3 is actually carbonic acid, which is formed via the ENZYME carbonic anhydrase. This enzyme is the target of carbonic anhydrase inhibitors such as acetazolamide (which can cause metabolic acidosis).
Khan academi is the best resource for clearing cvs physiology concepts
khan academy ur the best.... tqs to everyone for playing their part in this..... project...... god bless you........... i love u so much................
You are a brilliant man!
Wow. This is amazing! Not too short, but gets to the point!
U r cute
Hey Rishi, wonderful videos! I was wondering though, when @ 5:23 in this video you mention that CO2 + H20 produces "carbonic anhydrase"...isn't that an enzyme in red blood cells? I thought that CO2 + H20 produces carbonic acid. Are these interchangeable terms?
Thank you so much for your videos!! In my pathophysiology book says that CO2 in the arterial blood can pass through (diffuses across) the blood brain barrier into the CSF and combine with H2O that forms carbonic acid then the central chemoreceptors are sensing the increased CO2 and H levels.
This video is very good. Good luck!
THANK YOU SO MUCH!! I was so lost before this, I wouldn't have believed it was possible to understand it all!!
You videos are so helpful. They make my pathophysiology class much more understandable. Thank you!!!!
how and why is it that my uni takes 10 pages/5 hours to explain this concept that you easily explain in 7 minutes and 43 seconds...
FANTASTIC AND GREAT TO UNDERSTAND, NEVER SEEN BETTER EXPLANATION. EXXCELLENT
I just want to take a minutes and appreciate the level of details of the brain drawn here
Honestly, you made these videos right on time for my bio final! thanks :D :D
Such an amazing instructor. if my instructor was like this my studies would be so much better lol
My professor was late for something (they said)
And “explained” this in 2minutes and left the class🥲
Excellent. Wao! ❤️
Dr.Rishi your explanation is amazing..☺..!!!
This is SO helpful
Awsome sir!!!
You, sir, are a BOSS!!!!
Please khan, could you do a video about the kidneys? We've them coming up in medical now. You're the best!
Great explanation!! Could you find any time to make videos about the central nervous system and some of the processes that occur in normally functioning brain and with a particular disease? That would be really exciting.
Hey!! I just wanted to say how much I enjoy your videos. They're quite amazing and have helped me over the years get through school. This video about central chemoreceptors in particular I would like to make a suggestion. Can you throw in the "why"? People who are trying to learn this for the first time may not know that this the increase in CO2 causes humans to take a breath or with you saying that somewhere in your video will be that 'light bulb' that goes off for them to finally get the concept of breathing.
the drawings are really nice !! enjoy it so much
best tutorial ever! Jjangg!! it's a serious worth watching. u teaches better thn my teacher lol
this is a great video. is this for medical students ? i will be studying nursing, should i start learning this stuff?
thank you so much for saving my life!!
Thax alot ...you'er amazing prof
Thank you😊
Brilliant !
Brand new sub keep up the work
OMMMGGG I can not tell u thank you enoughhh frrr I have an assightment on this and I didn’t understand anything and I was just staring at my blank paper then your video out of everyone eleses.thank you thank you thank yoooyuuu
Thank you! You explain it in the easiest way possible. Where have you been all my life lol...?
شكرا
thank you so much
Amazing
thank you
Thank you sòooooooooooooooooooooooooooooooooooooooooooooooooo much
I love it .
You have a lot better handwriting than Sal! I thought doctors were supposed to have bad handwriting
life saver
enjoy'd indeed!
Amazing video, clear explanation! I just subscribed!! Keep up the good work =)
are there any pharmacology videos? I need help remembering names of drugs! :O thanks
I thought respiratory centers in medulla respond to low pH (therefore increase H+) and not really CO2. How is the AP triggered from just that? is it because H+ changes the membrane potential which then triggers it? I don't really understand what happens between increase H+ and neuron AP signaling..
anyone can explain please?
Hopefully I can help.
Once the CO2 in the blood passes the blood brain barrier and enters the CSF, it will react with H20 to ultimately make bicarbonate and hydrogen ions. The receptors are highly sensitive to the hydrogen ions and once they sense it, the receptors will be stimulated and send the signal to the DRG and Pneumotaxic center to increase breathing.
yup makes sense! thank you :) I just learnt about neuro this semester and it does make a lot more sense ! thanks a lot :)
+Sarah Woon no problem. Good luck in school. Cheers!
mareeyo1 thanks dude
I like to look at it as C02 is an acid (H+), so naturally the higher C02 levels, the higher amount of H+. And of course, when your H+ value is high, your pH will be low.
I thought H+ cannot break the blood brain barrier so the central chemoreceptors activity is only dependent on CO2 levels?
Amazing, purely mindblowin explaination, nigga
New sub.
Stop flexin on us with those beautiful drawings
Is tachypnea and hyperventilation same thing?
Is this Mr.Anderson
Could you explain why central chemoreceptors don’t respond to low oxygen levels please?
I like to call it the "med-oo-luh" lol
Correction*
Blood CO2 diffuses into the Cerebral-spinal fluid(CSF).
CO2 reacts with the water(H20), forming carbonic acid which is then dissociated into a bicarbonate ion and proton (H+).
the pH or H+ is monitored as well is the CO2 by the central chemoreceptors IN THE CSF
Indirectly measuring the blood CO2 by changes in the levels of CO2 and H+ in the CSF.
This video is very good. Good luck!
thank you!