Resting membrane potential physiology | Nerve muscle physiology mbbs 1st year
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- Опубліковано 20 чер 2024
- Physiology lecture details generation of resting membrane potential (RMP), Nernst equation with equilibrium potential, and Goldmann Hodgkin Katz Equation. Also, understand why different cells have different resting membrane potential and how RMP is affected if intracellular or extracellular potassium concentration is changed.
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Fantastic
Mind-blowing
Unbelievable
Thankyou, thankyou, thankyou 🤗
U r the best i ever seen❤
Thank you ❤️
Thanku mam ,you explained it very well
Glad you liked it 😊
Loved it mam keepup the great work😊
Thank you 😊
where can I get Effect of Kc l& Cacl2 on cardiac muscle ?
Mam you are the best
Thank you 😊😊😊
increasing extracellular k+ concentration will cause depolarisation. reason : normally the RMP is close to equilibrium potential of k+ as it has maximum permeability. also the equilibrium potential depends on ratio of K+ inside to K+ outside {from Nernst eqn} so, if the outside concentration increases , the ratio will tend to 1. from nernst eqn now it's evident that the value of emf( equilibrium potential of k+) will lie somewhere between -61 to 0 depending upon how much outside concentration is inceased. ie the RMP will increase towards 0 mV
Absolutely correct answer with a very nice to the point explanation. Thank you
So in hypokalemia is hyperpolarisation seen........
Also mam in sympathetic situvation artrioles constrict by alpha 1 so TPR increase ..if TPR increase heart will find difficult to pump blood as diastolic bp will be high around 90 ...how this kind of action is usefull in emergency situvation flight fright.....i.e why do we want to maintain diastolic bp and its importance...
Mam extraordinary
Thanks. Glad it helped 😊
Since there is increased extracellular concentration of potassium, there is a decrease in the concentration gradient of potassium from inside to outside, so the duration of the repolarization will be increased, altogether increase in the duration of action potential, thereby increasing the chance of arrhythmias due to early afterdepolarization.
True...there is increased duration of repolarization in action potential , hence increased durationof action potential. Thank you for explanation
@@PhysiologyOpen thank you physiology open. Hope this kinds of questions at the end of a video lecture is useful ,this make us think ,and even if we are wrong. .we will wait patiently for the next video to get the correct explanation
Yeah will try to include questions at the end of each video
🙏
😊
Dhanyabad
Welcome
🙏🙏🙏🙏🙏
😊❤️
where can I get videos on nerve muscle physiology ?
ua-cam.com/play/PLnt1wzLU3qo0DxK16gZnY2pbLnFLK3AB8.html
Let me know any videos you need in particular..
@@PhysiologyOpen excitation contraction coupling and exercise physiology
Ok will make
Exercise physiology will probably need a series
Depolarization
As Depolarization indicates influx of Na+ions
And hyperpolarization means extra efflux of K+ ions from cell but here the conc. Of K+ is more in ECF so hyperpolarization will not be suitable answer
Am I right mam?🙂
Bingo...
You may calculate it as well by just changing the values in Nernst equation
@@PhysiologyOpen OK mam
How can we define a difference in potential ? Is it simply the difference in charge ??
Yes its charge difference, though in case of RMP it’s just near the membrane and extremely small
@@PhysiologyOpen
Thank you So much 😊
Mam 140 meq. Is outside cell or inside?
This is regarding which ion?
Ma'am please make video on lambert Eaton syndrome and myasthenia gravis too(◠‿◕)
Sure
Hyperpolarized
Kindly read explanation above in comments. It’s depolarised...a follow up question is welcome
Hyperpolarization. Hyperpolarization=increase membrane negative potential, which makes it harder to depolarize.
Yeah most common answer...but unfortunately not correct..can you explain the reasoning how you got this answer
@@PhysiologyOpen Ha Ha. I was half asleep when I answered your question. I just read your question. what happened if increased extracelluar K+?... Increased K+ concentration extracelluar, which will work against the "leaking out" K+ from intracelluar to extracelluar, therefore, the membrance potential becomes less negative, it will make the membrane easier to depolarize. Here is the POINT. The "positive" change of membrane potential has to reach the "threshold" before it can depolarize/discharge. so, your answer "depolarization" is not an acurate one either. I can give you a clinical example, slightly elevating blood k+ will not make heart "Jittery" . the blood K+ level has to reach the neighborhood of "6.5mEq/L", which, then, will cause a widened QRS wave on ECG because the phase 0 of action potential decreases, leading to a longer action potential -- widened QRS. the nomal K+ level 3.6-5.2 mmol/L. Hyperkalemia can be life threatening, I will treat it way before it reaches level of 6.5 .. Thanks for your lecture. It is by far very detailed and informing.
Absolutely correct. Thank you for giving a detailed explanation. I think this will be beneficial for other people too. Only one think I will like to add...depolarization is any change in potential towards positive. It may or may not reach threshold. So increased extracellular potassium will cause depolarization i.e resting membrane potential which is less negative. This makes the tissues more excitable. And in case of effect on action potential, it will increase the duration of action potential.
Then this effect of K+ on RMP can be easily understood by putting the changed vaues in Nernst Equation.
Thanks again
@@PhysiologyOpen thank you for clarification! Can you explain the effects of increased extra cellular Calcium level on action potentials? 😊
@@user-zf3uq5uj3r Calcium will not have any effect on nerve and skeletal muscle action potential directly. However, decrease in extracellular calcium levels increases the probability of opening of sodium channels and hence making the membrane more excitable. In nodal cardiac tissue, there will be some increase in amplitude of action potential. However the main effect of increased extracellular calcium is on mechanical activity i.e contraction of heart rather than on action potential