🥇 MÚSCULOS DEL OJO. Anatomia, Facil y Sencillos

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A welcome to all the fans of this anatomical discipline to a new easy anatomy video

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by Juan José Sánchez, video number 105 on the channel and only by subscribing

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to the channel do you have access to the rest of the 105 videos. Today we have to talk about the anatomy of the

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ocular muscles and previous videos of the eyeball itself are uploaded on my channel. Now,

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we are going to talk about the muscles that are responsible for moving it, also called extrinsic muscles of the

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eye or extra ocular muscles, So as a diagram we are going to study two large groups of

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muscles and a third muscle of the orbit, in total we are going to find seven

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muscles but not all of them are related to the eyeball as such, we are going to first have

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four rectus muscles that are The first ones that we will name are those that are related

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to the eyeball itself as well as the oblique muscles, so that those that are related

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to the eyeball are the four rectus muscles plus the obliques, there are six muscles in total, there is a

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seventh muscle topographically in the region of the bony orbit but which does not have an insertion

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in the eyeball, we are then talking about the levator palpebrae superioris muscle, I also invite you

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to search the channel for my bony orbit video because if you do not look at the bony orbit you will not You will

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then master the origins of these muscles because you will not understand the first ones, you have

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to learn the bone anatomy of the orbital cavity to then delve into the world or

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the study of the muscles of the eye. So this is a more or less image of the orbit, this is the

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orbit on the left side, here we see the malar or zygomatic bone, here we see the front, here

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we see the upper jaw, this one we see in the back in green would be the sphenoid, this It would be the ethmoid

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and this would be the unguis or lacrimal bone. I also invite you to search on my channel for the anatomy

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of each of these bones separately, which is really very good and you are not going to miss it,

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just for the price of subscribing. here in the bottom right corner where it says subscribe.

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In this hole that I am pointing out to you here, it is the famous orbital hole, it is a hole

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that is basically limited by the greater and lesser wings of the sphenoid, that is the orbital hole,

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sorry, it is limited by part of the lesser wing of the sphenoid, this one that you See here is

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the sphenoid fissure, we also call it superior orbital fissure, these are the two structures

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that I am interested in learning about right now, this superior orbital fissure is limited by both

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wings of the sphenoid, the greater wing which would be this one and this one which would be the wing minor of the sphenoid,

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here we have a more detailed image, notice that it is this same image but of the Netter, in the

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previous image it was of the sobotta, so here we would have the superior orbital fissure and this

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would be the optic canal, so in relation to what it is The sphenoid bone would be the

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optic canal and there is the superior orbital fissure, also called the sphenoid fissure or cleft. Let's

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start talking about the rectus muscles, the four rectus muscles have the same origin which is in the

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ring of zinn also called 'common tendinous ring, see that this ring surrounds the entire

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optic canal, leaving it even inside the ring and more or less surrounding it. half of the

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upper orbital fissure crossing it as a bridge separating the orbital fissure into an upper region and another

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lower region in which structures pass that are not part of this video, the explanation

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of those structures but that I will explain in a later video, So in this lateral view,

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this is a right lateral view, what we see over there would be the medial part of the face

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of the orbit, specifically we are going to start with the superior rectus, then we will talk about the

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inferior rectus muscle, then the medial rectus as well called medial rectus, reminding you that the word

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medial and internal are the same anatomy and then we will talk about the external rectus muscle, then

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we are going to elucidate each of these structures, but first don't leave the video behind.

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[Music] I invite you to subscribe here in the lower right corner click [Music]

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and don't forget to like the video, then subscribe to the channel here in the lower

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right corner you click it and you are automatically subscribed to it. This is a vision again

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of the ring of zinn, here we see what the superior rectus muscle is, this would be medial,

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this would then be the medial or internal rectus, this would be the inferior rectus and this the

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external rectus which is the same as the lateral rectus, this would be the frontal and This would be the zygomatic

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or malar, in this previous vision we are going to see the insertion of each of them,

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we are going to start with the superior rectus, the superior rectus muscle is inserted at the level

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of the antero-superior part of the sclera all the muscles rectus are inserted into the

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anterior part of the sclera which remember that it is colloquially the white of the eye, now

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the place where each of the rectus is inserted is not equal compared to the edges of the

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limits of the cornea of ​​the sclerocorneal limbus, but that each one has a different distance,

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we talk about the distance of the insertion of the superior rectus and what is the beginning of the cornea

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is the sclerocorneal limbus which is approximately 8 millimeters, then we talk about the inferior rectus

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that is also inserted at 6 .5 millimeters from the cornea, then the internal rectus inserts 5.8

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millimeters medial to the beginning of the cornea and the external rectus begins 7.1 millimeters from the

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region of the cornea, everyone then sees more or less a more or less frontal plane less the same

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level on the anterior surface of the sclera, something important is that starting from the internal rectus

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you see that the distance is different, it is not the same but rather the distance increases, so that

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this insertion of the rectus muscles of the eye It forms a spiral starting from the internal rectus, it

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increases more and more, they widen more until we reach the superior rectus, then

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what is the function of each of these muscles going to be? Well, when the superior rectus contracts,

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it will take, imagine rotating the eye upwards, that means an elevation movement

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of the eye and it also took it medially, so it makes an elevation and adduction movement. Why

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do they adduct? Remember that the origin is at the level of the optic hole, which is not in a

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straight line with, let's say, the vertical axis of the eye, but is more medial, so that when it contracts

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it will take it inward because anatomically it is arranged to do so, when we speak

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The inferior rectus is the opposite, it is antagonistic with the superior rectus, it descends,

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that is, it takes the eye downwards, it is not that it descends that lowers it with respect to the orbit,

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but the center of the eye takes it towards down, it is enough to look down without having to move

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the head and it also takes it medially, that is, it adducts the eye. So the internal rectus and

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the external rectus are antagonistic to each other, between them, the internal rectus only makes

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adduction movements and the external rectus makes abduction movements, that is, it draws the

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eye outwards, it is the one we use to see outwards. , then of these muscles the only one that serves to

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abduct me is the external rectus, the other superior and inferior rectus are combined and the

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internal rectus is adducting; Although some books will find up to four or five functions per

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muscle, these are the main functions. Let's see it now here from an

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anatomical point of view, we see here the superior rectus, let's see that before inserting it is crossed by

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one of the obliques, which is the only superior one, likewise the inferior rectus is crossed by the

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inferior oblique, the difference is that the superior oblique interposes between the superior rectus and the

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sclera, while the inferior oblique does not interpose but rather embraces it from the bottom

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up, it remains superficial with respect to the inferior rectus, there we see the medial rectus

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and the rectus external, an important characteristic that you should not forget about the external rectus is that it

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has two points or two tendons of origin before inserting, it has two tendons of origin,

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so remember that I told you that the rectus are inserted in the anterior part

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of the sclera, passing the second group of muscles which are the obliques we will have two:

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the superior oblique which we also know as the greater oblique and the

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lesser oblique muscle which we also know as the inferior oblique, these in contrast to the

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rectus insert on the back of the sclera, see that both also insert

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more or less in a frontal plane at the same level in the posterior and external region of the sclera,

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the two have almost the same place of origin,

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practically separating them is the insertion of the external rectus. Let's start first with the origin of each one, so here we know that

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from the origin of the superior rectus, medial rectus, inferior rectus and lateral rectus, remember that

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I told you that the lateral rectus has two tendons of origin, this would be one, this one would be the other,

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these two muscles that are above are two that we have not named that we are going to begin to elucidate,

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the most medial of the two that you see is superomedial to the optic foramen that is the oblique greater

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price, then they originate, remember that this series the lesser wing of the sphenoid in

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relation to the optic canal, this muscle is directed forward, see, but it has

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a pulley or a trochlea, that pulley or trochlea is very important for the function of this muscle,

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it is a cartilaginous region that It is located, let's say, in the medial and upper part of the orbit

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and is part of the frontal bone, where the tendon reaches and some authors say that this is where

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the real origin of the muscle is born and then passes under it, which is the inferior rectus. and so

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we can get to what the sclera is, see that it is also above and a little more medial

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than this muscle that would be the internal rectus, this would be a superior view of the orbit,

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here we cut the sheet let's say the roof of the frontal bone Let's look at it here again, this would be the

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superior rectus, see the pulley, the trochlea of ​​the frontal bone where the muscle has to pass

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in order to perform its function, while the inferior oblique does not have an origin as posterior

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as all the muscles we have named, The inferior oblique originates in a fossa that is

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at the level of the upper maxillary bone lateral to what is the lacrimonasal duct. Also on my

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channel is the video of this lacrimal apparatus where we talk about the lacrimal duct, its insertion will

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also be remembered that the same frontal plane in the posterior and external region of the

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sclera, let's see it here, again it is the inferior rectus, as remember that it passes underneath,

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it is superficial to the inferior rectus muscle. What will be the function of the oblique major? Well, when the

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major oblique contracts, it first makes internal torsion of the eye, which is to rotate the eye

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medially. It also helps in descent and abduction, while the minor oblique elevates

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and abducts the eye. Notice that it does the opposite, it descends and abducts, while the minor oblique

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elevates and abducts, that is, when it abducts, it means abduction, it is abduction, but so that it doesn't

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sound strange and so that you don't get confused, see that in all my videos I use the word abduction, but that is

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wrong semantically, grammatically. It's wrong for me to say it like that, it's just that it's the easiest way

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to explain it and for you to understand it, but it's not like you're going to be in a conference and

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say the word abduction because that's wrong; and it also does external torsion, that is,

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it rotates the eye outward while the greater oblique does internal torsion, so basically

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these two obliques are antagonists, the only synergistic movements they do is that

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they both abduct the eye; The distance between the insertion of both is

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approximately 8 millimeters. Finally, we are going to talk about the levator of the upper eyelid, which is the seventh

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muscle that is located at the level of the orbit but has nothing to do with the

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ocular muscles themselves, only that anatomically it is very close, this levator of the eyelid muscle

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superior originates from the same optic nerve in the sphenoid, but lateral to what is the

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greater oblique muscle, this levator of the upper eyelid heads forward, covering a large part of the

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path, it widens more and more. See what the muscle is. superior rectus and partly to what

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is the greater oblique muscle, this tendon directed forward is going to be inserted in

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two ways, in this view we see what is the posterior tendon that is inserted at the level of what

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is the tarsal plate perforating what is the superior orbital septum, what is this

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fibrous structure that you see here, in this lateral view it is very good, it is an image that has the netter see

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here the levator of the upper eyelid, this would be the superior rectus, so this levator

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of the upper eyelid, see that it has an anterior tendon that reaches the eyelid, joining fibers

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of the orbicularis oculi muscle, which is a muscle of facial expression that I also

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invite you to watch my facial expression video, we already have 105 videos and there are many anatomical videos

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that you can search on the channel and this tendon that is posterior, which we often call Muller's tendon,

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which is an extension of the same levator of the upper eyelid that reaches the

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anterior tarsal plate was the one that was shown in the plate previous to this one, its function is going to be the same

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name says it elevates the upper eyelid and with it opening to the eye, it is quite mobile, it is a

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let's say autonomous innervation because the The eyelid is basically something unconscious that we

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move, although as it is controlled by the peripheral nervous system through

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the third cranial nerve we can also move it at will, but this

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elevator of the upper eyelid is quite important. The innervation is very important because it is different in the innervation

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for these muscles of the eye even though they are all there, they are innervated by muscle groups,

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first the only muscle that in fact is the only structure that innervates the fourth cranial nerve, which is

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the nerve. The trochlear nerve, also called the pathetic nerve, is the greater oblique nerve. It is the only thing that innervates the

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trochlear nerve in its entire life, let's say in its entirety. Its function is to innervate the

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greater oblique muscle. The greatest innervation in the ocular muscles is carried by the third cranial nerve, which It is

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the oculomotor or common ocular motor nerve. This nerve, which is the third cranial nerve, innervates

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the internal rectus, the superior and the inferior, that is, it innervates all the rectus muscles

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except the external rectus, it is the only one intrinsic muscle of the eye that is not innervated by the

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third cranial nerve and well and the greater oblique which we already said is by the trochlear

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or pathetic nerve, then see that it innervates the lesser oblique and these three rectus muscles, while the

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external rectus It is the only muscle that is innervated by the sixth cranial nerve, which is the abducens nerve,

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we also call it the eye reducer muscle and nerve or external oculomotor nerve, which is the sixth

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cranial nerve, so that the fourth and sixth the only function is to innervate a specific muscle,

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the sixth to the lateral rectus and the fourth to the greater oblique, while the levator palpebrae

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superioris, which has an autonomic innervation, rather is innervated by the third cranial nerve, which

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is the oculomotor nerve, and through He also receives autonomic innervation,

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so see the innervation that is quite easy but this innervation

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of the ocular muscles is very particular. This was the entire video, I don't know how many times I invite you to

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subscribe to the channel in the little circle that appears here, if you liked it, give me a like and don't forget

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to follow me on Instagram at @juan_sanchez1315 thank you very much for subscribing and for watching