Great video, I have a test over neuron function in 20 minutes and you saved my life here.

big thank you from Texas USA!

Thank you very much Dr Umar Azizov.

thank you for your work!

The best🎉

Thank you for this! I need the visuals to be able to retain all this and my textbook is not helping. This really put it all together for me visually

Thank you. Your video was really useful!

Love the way he says poooostsynaptic potential ☺Great vids as always!

I must say this more than sufficient .... the way you explain Big hug brother love from india ❤️

Synapse 😍 Thank-you I understand all things involved in Polarization & Depolarization how take place in Neuron...

Understood this concept now. Thank you very much sir .🙏🏻🙏🏻❤❤

Excellent explanation and beautiful diagrams. Thank you very much!!

Thank you, great video!!!

Thanks... I finally understand it! :)

I love how this is on my exam but my professor never talked about it!

Thank you, your veido is helpful!

An awesome lecture... Thank you:)

Youre so helpful!!!!!

A very well organized and well presented tutorial. Keep up the good work!

you are the best!

thank you verry much its so clear and easy!

Wonderful explanation, thanks for the vedio lecture.🙏

Awesome lecture ... with integrated and simplified information.

Nice graphics!

Excellent!

Threshold is -10V? I remember it was about -55V if i'm not mistaken..

@silk.spectre6606

5 жыл бұрын

What he means is a -10 mV change in the voltage, not that it is a threshold. The threshold is still -55 mV, so the EPSP or IPSP will either excite or inhibit the neuron from firing by bringing it closer or away from doing it, respectively.

@nourkouatli7452

5 жыл бұрын

It is, you are correct.

@soniatiwari9986

4 жыл бұрын

10 Mv is threshold stimulus

@wtficantgetausername

3 жыл бұрын

Clearly typed before watching 1 minute onward

@erinyao3122

2 жыл бұрын

The threshold is inversely proportional to the density of VG Na+ channels. It is not constant. The threshold at the dendrite area is relatively higher.

great lecture thanks

this helped me so much! very well structured and easy to understand. Thank you !

Gracias, buen video

Thanks for the help. keep uploading more videos. new subscriber ❤️❤️

omg, beautiful handwriting and diagrams

Thank you... Sir.

It was so useful thank you so much saved my life ♥️♥️♥️♥️

@sauravvashistha9826

3 жыл бұрын

Saved my life 😅😅😅😅

thank you dr

Thanks ....👏

Thank you so much! This video helped a bunch as I am a visual learner and your handwriting/drawings are beautiful!!!!!

@blancaodette7034

2 жыл бұрын

Me too

@CabdifataaxCardiologist

Жыл бұрын

Bro do you have this problem 😅 with visualizing nothing you’ll understand 😂

Thaaaaanks!

beautiful

Awesome

Legend

Thnks🙂

THANK YOU

doctor. how is the electrical signal of nerve fibers at the extreme point of the polarization reflection

Sir. Please clarify this point.. If every neuron - neuron synapse has inhibitory post synaptic potential. So if an action potential has passed through neuron, it will inhibit now for another action potential? If this phenomenon is for every neuron- neuron synapse ? And for every neuron - muscle synapse there is excitatory post synaptic potential. If its so, whats the benefit of that ? Could you explain please.. Thank you..

Hello Dr , can we say EPSP & Sub-threshold potential are same ?

Sir ! Can u provide a lecture of presynaptic facilitation.plz

FINALLY

Isn't the equilibrium potential of Cl -70 mV? And not -90mV. Sorry, I'm just a little bit confused.

@alicelianlian4792

5 жыл бұрын

it depends on which muscle you're taking about. -70 is for nerve. and -90 is skeletal if not mistaken

isn't the threshold -55mV?

so is it the type of neurotransmitter released, that determines if whole thing goes inhibitory/excitatory?

@anastasiakasumba7397

3 жыл бұрын

Yes

@tsaed.9170

3 жыл бұрын

Not exactly. It's the action that Neurotransmitter causes. For example, some (many) neurotransmitters create both:- Inhibitory effects in some cases, while excitatory effects in other. Thus, what is more important is the type of Receptor for the corresponding neurotransmitter released. . So, to be precise, it is the excitatory or inhibitory effect of a Neurotransmitter that is finally going to cause the change. (So, a Neurotransmitter that only causes inhibitory effect will always bring the membrane potential down in all Synapses. While a Neurotransmitter like Dopamine or Serotonin will Excite the PSN(post synaptic neuron) in some places (where Dopamine/Serotonin receptors are excitatory) while Inhibiting PSN in the other places (in synapses with inhibitory DA/HT2A Receptors .)

I'm studying for a neuroscience exam and this helped a lot. Thanks !

why Sodium is greater than potassium?

Will an IPSP increase the likelihood of firing on a postsynaptic inhibitory neuron? Thanks!

@tsaed.9170

3 жыл бұрын

Nope. That's not how it works. Think about this only in terms of Synapses (the connection). Imagine yourselves trying to approach a girl. Some friends are pulling you behind (discouraging you because your hair looks bad at that moment) -- Inhibitory impulse. While others are encouraging you (because that jacket you are wearing is cool af) - excitatory impulse. Any Single connection could act as a pulling or pushing unit. When finally encouraged enough (given 4 out of 5 friends are pushing you for action), you might gather enough courage and motivation to finally get over your inhibitions (the negative resting state potential that keeps you From taking any action) to go and ask her out. . Considering you. You might primarily be accompanied by Positive features at that moment. (Nice jacket, great cologne, Good speaking skills etc... Maybe a negative Hairstyle. But you can workout around using so many positive (excitatory signals). So you talk to her, and continually fire excitatory signals to make her Excited enough to reach her action potential and she lends her number to you. And also TAKES ACTION to ask her friend to click a picture of you and her together. On the contrary, if you were a Negative guy - who inhibits other girls from taking action (due to bad hair, bad breath, bad conversation skills etc... Every signal inhibitory), you would go, and depolarize the girl and she would be TURNED OFF, and no number for you, sorry! So, what happened was, many Excitatory neurons excited You (a neuron primarily Populated with more number of Inhibitory Neurotransmitter/Post Synaptic Receptor pairs), so you were able to TAKE ACTION. The inhibitory neuron then took Action and signalled the Next Neuron (third layer neuron). But since the primary signal was inhibitory, the Next Neuron was primed to NOT TAKE AN ACTION Forward. (P.S. a neuron or a Neurotransmitter are not primarily Inhibitory/Excitatory. It's the signalling that determines the Interaction. For e.g You wearing specs with a nerdy look might be a Turn On for one woman while vice versa for other. --( although we all know the popular opinion :p). Similarly a Neurotransmitter like Dopamine might act to excite a Neuron with DA1 receptors, while Inhibiting a Neuron/Synapse with a DA2 receptor. (DA=Dope Amine))

@BaoTrungNguyenSKKU

3 жыл бұрын

​@@tsaed.9170 many thanks for the explanation and comprehensive examples :)

@BaoTrungNguyenSKKU

3 жыл бұрын

@@tsaed.9170 I can see how an EPSP increases the firing in excitatory neurons. But if EPSPs increase the firing chance in inhibitory neurons (like excitatory neurons by exceeding a threshold), then a (negative) inhibitory action potential is released to the axon (when the membrane potential surpasses -10mV). So for the same depolarization of membrane potential (4cawmi2va33i3w6dek1d7y1m-wpengine.netdna-ssl.com/wp-content/uploads/2018/12/3.1_Understanding-your-brain.jpg), the inhibitory neurotransmitters in inhibitory neurons carry a negative pulse while the excitatory neurotransmitters carry a positive pulse?

@ayushsankpal682

19 күн бұрын

​@@tsaed.9170the greatest explanation I HV ever received 🙏

Why is equilibrium potential of EPSP near zero mv??

@animalworld1988

Жыл бұрын

Because here it was starting of entry of neuro transmitter in membrane so before action potential formed here at neuron outer na ions are equal to inner cl ions so negetive so becomes equal so it was 0

Now, what causes the initial action potential that starts this whole cycle? There has to be a FIRST action potential, the one that propagates.

@darkninja___

4 жыл бұрын

Could be a receptor, for example a receptor in skin that is triggered by mechanical forces like touch and stretching.

@MURDR63

4 жыл бұрын

@@darkninja___ And how would that create the initial action potential in this example?

@darkninja___

4 жыл бұрын

MURDR63 the receptor would somehow trigger sodium channels to open, which depolarizes the membrane potential of the neuron, crossing the threshold to trigger the first action potential. You somehow have to take a stimulus and make it open ion channels which will start the first action potential.

@dr.UmarMedLec

4 жыл бұрын

@@MURDR63 kzread.info/dash/bejne/hZ-XyM6oo7TUac4.html Here you can find everything you need

The threshold for an action potential in neurons is -55mV and not -10mV !!!!

🌟🌟🌟👌🏻

Tht was clean explanation, thank you sir

Good overview but so many incorrect facts such as the threshold for an action potential in neurons; it's -55mV and not -10mV etc.

@dr.UmarMedLec

5 жыл бұрын

Well, actually the threshold is not necessarily -55 mV or - 10 mV. It depends on many factors. I will make a video on it and explain this in more detail for you. Thank you for your comment.

@dr.UmarMedLec

5 жыл бұрын

I would be grateful if you write other incorrect facts that you are talking about so I will correct them. Thank you!

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