Maam this videos is too good ! Thank you so so much
@PhysiologyOpenКүн бұрын
Most welcome
@sreelakshmi7313Күн бұрын
Revising for neet pg , and getting my concepts right Thank you so much mam for the amazing video
@PhysiologyOpenКүн бұрын
Most welcome and best wishes
@Bubbyyyy2 күн бұрын
Brilliant
@PhysiologyOpen2 күн бұрын
Thank you
@user-jt7xg6qg4v2 күн бұрын
Thank you mam really helpful to revise quickly during exams
@PhysiologyOpen2 күн бұрын
Great…best wishes
@deepakdeepu74332 күн бұрын
Waste of time bro...😢
@PhysiologyOpen2 күн бұрын
May you be able to learn better using some other resource. Best wishes
@deepakdeepu74332 күн бұрын
Where are you from madam?
@PhysiologyOpen2 күн бұрын
From UP mostly…then from many other places in India
@riuriuriuriuriu2 күн бұрын
thank you so much mam couldn't have done without you ❤
@PhysiologyOpen2 күн бұрын
Most welcome
@stanleyng26013 күн бұрын
This is amazing. Simplified.
@PhysiologyOpen2 күн бұрын
Thank you
@Samhita-bg6ku3 күн бұрын
Amazing explanation ma'am.I was always confused with this topic but now you made it crystal clear. i shared this video to all my friends and they're very happy too. I'm soo glad I discovered this channel it's perfect for revision
@PhysiologyOpen2 күн бұрын
So happy that the channel is helping…and thanks for sharing too
@gunnxmedico4 күн бұрын
Thank you mam❤
@PhysiologyOpen3 күн бұрын
Most welcome
@MedicoBannrG4 күн бұрын
Thank you for the lecture ma’am But there are a lot of audio problems in this lecture ma’am 😭😭😭
@PhysiologyOpen4 күн бұрын
Oh is it…I will see
@rajeevkaparthi1904 күн бұрын
Good morning madam. I have a doubt. In the graph , you showed first phase is only till some part of trachea, why can't it be till the terminal Broncheole, till where no gas exchange occurs? My doubt is when deadspace gas is mixing with alveolar gas, that means gas exchnage has happened, then why should we consider part of that phase as dead space? Kindly reply. No text book is helping me, i am expecting you to clarify my doubt. Thank you.
@PhysiologyOpen4 күн бұрын
Actually it’s till terminal bronchiole…that’s right..gas exchange - the term is used for diffusion of gases at respiratory membrane …not the mixing of air…so the gas at alveolar air is the atmospheric air mixed with gases already present in dead space and then finally alveoli…so all this determines po2 at alveolar level
@rajeevkaparthi1904 күн бұрын
Thank you madam I have understood to some extent that the volume of that upstroke belongs to both deadspace and alveoli as at that particular portion of air passages both gases were simply mixed.(no gas exchange happened). To determine an end point of deadspace it was divided equally. I hope I have understood it in a right way. Please correct me if I am wrong.
@PhysiologyOpen4 күн бұрын
Right
@user-hq4my2sr8x5 күн бұрын
Thank you very much madam. Your explanations are very good and easy to understand. Thank you again🙏.
@PhysiologyOpen5 күн бұрын
You are most welcome
@bablisharma71985 күн бұрын
Why in graph TLC and RV is more when we go towards left side
@chandinireddy23456 күн бұрын
Really loved your efforts! No one would thought of explaining this topic through phusics, you really did a great job mam ❤️❤️
@PhysiologyOpen5 күн бұрын
Thank you
@STUDYHERE-o7q6 күн бұрын
I would really say that this channel and this video is very commendable and THE BEST. It's truly a gem and it contains awesomeness , hardwork and excellence. Hats off to u MA'AM🎉❤❤❤. THANKS A LOT🙏❤️💝💝💝💝💝 Also ma'am i have few/silly doubts which i cant understand from anyone .....(im a neet ug aspirant)....hoping and seeking your help for me...believing that u will definitely HELP ME Im just curious for getting clarity with these doubts .... Doubts:(please kindly reply mam ) 1. In the beginning , when explaining about the creation of gradient...you mentioned that its a hypothetical situation right? What does that mean? Does it mean that in reality such processes won't occur? If so then how will the medullary interstitium get hypertonic..... 2. Does counter current mechanism happen on a daily basis ? Or occurs only when the urine needs to be concentrated..[in conditions like dehydration and etc...] 3. Urine can be diluted or concentrated depending upon the body's condition right... When the body is hydrated well enough...then the release of ADH is not necessary right for the urine to be concentrated and thus the urine will be excreted in diluted form.... 4. Ma'am , only in juxtramedullary nephrons this mechanism occurs right? And how do we say that longer henle'loop = more hyper osmotic condition of the medullary interstitium.. 5. Mam, we know that some amount of urea needs to be retained in the body for maintenance of osmotic balance...right?...so how does that thing be explained with respect to this mechanism....where do we see the urea's role here??....how does it play a role....could you please explain the role of UREA too here🙏 Thank you so much for reading patiently...
@PhysiologyOpen5 күн бұрын
1. That’s for explaining I just - for imagination that what will happen when first time fluid starts flowing through nephrons
@PhysiologyOpen5 күн бұрын
2. Occurs every time fluid flows through nephrons so that medullary interstiun osmotic gradient is always maintained
@PhysiologyOpen5 күн бұрын
3. Yes that’s right
@PhysiologyOpen5 күн бұрын
4. Yes in juxtamedullary nephrons…longer LOH means , longer action of the transporters , so more gradient generation
@PhysiologyOpen5 күн бұрын
ADH increases the medullary collectingbpermeability for urea. This causes urea to renter ascending limb of LOH , increasing the osmolarity of tubular fluid further. Also since it passes via the medullary interstium, it increasss its osmolarity
@zameerfakih86246 күн бұрын
Fantastico
@PhysiologyOpen5 күн бұрын
Thank you
@akhiuuui92416 күн бұрын
Soulful 😢❤
@PhysiologyOpen6 күн бұрын
😊❤️🙏
@almostudpikar7 күн бұрын
Concept cleared , Very Nicely explained maam 😀
@PhysiologyOpen6 күн бұрын
Thanks for liking
@bhaveshpatel22447 күн бұрын
Could not learn in mbbs, now i understand 😊
@PhysiologyOpen6 күн бұрын
Great…learning is good anytime
@rakmawa7 күн бұрын
Excellent 👌👌
@PhysiologyOpen7 күн бұрын
Thanks a lot
@selfieeprincess7 күн бұрын
Woaahhhh ❤.. mam u r the best teacher of physiology.. concepts made crystal clear 👌 ✨️ mam.. thank u so so much mam..❤
@PhysiologyOpen7 күн бұрын
Most welcome..
@RADIATION_BLUE7 күн бұрын
Where was i roaming here and there 😂 i got best video for what i needed ❤❤❤❤❤ simply and amazing 😮 ❤❤❤ just wow 😮
@PhysiologyOpen7 күн бұрын
Great …glad it helped 😊❤️
@gunnxmedico8 күн бұрын
Thankyou man for your effortsss❤
@PhysiologyOpen8 күн бұрын
Most welcome
@ROHITYADAV-nm2qb8 күн бұрын
Mam your lecture are easily understandable ❤
@PhysiologyOpen8 күн бұрын
Thank you…so happy that you understood this difficult topic
@MODERNGRAPHICS8 күн бұрын
Love from china❤️🙏...
@PhysiologyOpen8 күн бұрын
😊❤️🙌
@bio366geethasankar78 күн бұрын
🙏🏻🥹
@PhysiologyOpen8 күн бұрын
😊❤️
@subhasreepramanik76488 күн бұрын
Thank you so much Ma'am 😇
@PhysiologyOpen8 күн бұрын
Most welcome
@user-sf3rq8fn1w9 күн бұрын
Need a video on guyton chapter 3
@PhysiologyOpen8 күн бұрын
On a break due to health issues of a family member…will make as soon as I am back
@Shutup-xv5wy9 күн бұрын
Thank you ma'am One doubt -- what is the unit of excitability , is it rheobase or chronaxie?
@PhysiologyOpen8 күн бұрын
Both are the measures of excitability…Chronaxie is a better measure
@Shutup-xv5wy8 күн бұрын
@@PhysiologyOpen there was a multiple choice question in pyq , and both the options were there
@PhysiologyOpen8 күн бұрын
It’s Chronaxie
@Shutup-xv5wy8 күн бұрын
@@PhysiologyOpen thank you ma'am 💖
@momsspaghetti61959 күн бұрын
Really helpful!🙂
@PhysiologyOpen8 күн бұрын
Glad you liked it 😊❤️
@urvikrithika09299 күн бұрын
Ma’am will this be sufficient for mbbs 1st year theory examinations?
@PhysiologyOpen9 күн бұрын
More than enough….but also watch exercise physiology part 1 video for oxygen debt concept
@urvikrithika09299 күн бұрын
@@PhysiologyOpen Okay ma’am thank you!!
@rohitm76609 күн бұрын
What happens when Loo exposure is there
@PhysiologyOpen7 күн бұрын
Oh you mean hot winds…in that case heat can’t lose from the body by convection , instead more heat gain is there
@ankanbiswas15279 күн бұрын
Mam I have a question , in autoregulation of GFR it is stated that increase in BP will increase perfusion pressure hence increase in GFR but to regulate the GFR , afferent arteriole constrict that decrease GFR but in the same time in Long term BP control , there is rise of BP , and subsequently rise in GFR but here the GFR not reduced ... Why !!? I mean in both the cases there is rise in GFR but in autoregulation GFR is maintained but in BP regulation instead of increase in GFR , GFR is not reduced ....