🥇 Anatomía del OJO 1/3 - Generalidades y Túnica Externa

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Hi my loves! I hope you are feeling very well, welcome to a new anatomical video of

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easy anatomy by Juan José Sánchez and today we will talk about the anatomy of the eye, we

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are going to divide this organ, the eyeball, into three videos: in the first video we will talk about the

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generalities of the outer tunic, which is this, in the second video we will talk about the inner tunic

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, in the third video we will talk about the means of refraction. Apart from that, I created two

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more videos that are not part of the eyeball but of the external structures as they are:

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a video of extra ocular muscles that are the muscles that move the eyeball and a fifth

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video that would be the lacrimal apparatus video, but the eyeball itself is going to be just three videos

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. So we're going to start quickly by giving an outline of what the layers of the eyeball are

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, we're going to talk about three layer groups or three layers of the eyeball. We will call the first layer

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the outer tunic, in many books we get it with the name fibrous tunic,

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it is composed of two parts, a more posterior one that would be the white of the eye which is the sclera

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and a more anterior one that would be the cornea, the two of them are It then forms the outermost part

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of the eyeball or the fibrous tunic. Then we have a tunica media that we also call

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the vascular tunica, this tunica media is composed of three parts: a more posterior part called

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the choroid or the choroid, a middle part called the ciliary body and a more anterior and central part

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called the iris, this would be the tunica media. or vascular tunic and finally we would have the internal tunic,

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also called nervous tunic, which is made up of a large structure that is the retina. So

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this is more or less the configuration of the eye cut more or less in a horizontal plane,

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as I explained in the first video it will consist of first talking about the generalities of the eye,

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then the external tunic in the second video of the eyeball we will talk about the tunic media,

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the internal tunic and in the third video of the structures that are here that are not part of

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the tunic, which would be the chambers, the aqueous humor, vitreous body, those means of ocular refraction

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of the lens itself. So let's start first by talking about the generalities of the eye, then the

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eyeball, this would be a superior vision, this would be a lateral vision, it is housed within the

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bone orbit, also on my channel a few months ago I uploaded a video of the bone orbit, what are the

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bones that make it up, what are its limits, its components, you can find it and you have to

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see it even before this so that you can understand the positioning of the eye well. So

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it is a relatively circular organ, not so heavy, weighing 7 to 7.5 grams each, its

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anteroposterior diameter is a diameter longer than the transverse diameter because it measures 2.5 centimeters,

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that is, 25 millimeters, its transverse diameter, which is more shorter than the previous one, as I told you,

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it more or less measures between 23 and 24 centimeters on average, 23 to 25 millimeters, no 23 centimeters,

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23 to 24 millimeters on average, 23 to 25 millimeters, imagine centimeters would be very big. Now its

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vertical diameter, which would be its smallest diameter, approximately 23 millimeters, notice that it

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is not a perfect sphere but rather there is no agreement in any of its diameters, but

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more or less it is a sphere shape, in fact it is said to have five posterior parts of a

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large sphere and its first anterior sixth part is another sphere within the sphere, to make it

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easier for you. So the distance in a normal live adult subject between the central part of the eye

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represented by what you see there black, which would be the pupillary hole, is 6 to 7 centimeters

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in the normal distance that one eye should measure from another, now let's go To talk about the ocular topography

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itself, the eye, which some authors consider to be nothing more than the extension of the

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central nervous system, will have two poles or points: an anterior pole represented by the most anterior part

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of the eye, which is the cornea, central point of the cornea and a posterior pole that would be the most

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central and posterior part of the sclera, ok in that they would be the two poles of the eye. Then we would have what

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the equator is. What is the equator? The equator is a diameter that cuts the eye into two halves,

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in an anterior half and a posterior half so that it will be equidistant at the same

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distance from the anterior pole and the posterior pole and will always be represented then in

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a frontal plane. Remember that we are seeing the eye in a superior vision, then we would have

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the hemispheres, the hemispheres are the halves that remain in relation to the equator, the one that remains

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in front of the equator would be the anterior hemisphere and the one that remains behind the equator

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It would be the posterior hemisphere, a very important term is the meridian term. What is

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the meridian? It is a meridional cut, the meridian is that cut that goes in the direction that touches the

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anterior pole and the posterior pole, that is, I am going to cut the eye into two halves. What is happening?

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The meridian is not that the cut is going to pass through the middle, no, the meridian I can make the cut

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thousands of cuts in the eye as long as it touches the anterior pole and everything that the posterior pole,

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now two meridians that are opposite like you You see this one as you can see here, it is going to divide the

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eye into two halves so the meridian or the meridional cut can be a vertical cut,

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it can be an oblique cut or it can even be a vertical cut, there are many cuts that I can

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make to the eye . Be careful that it always touches the anterior pole and that it always touches the posterior pole. Now

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we are going to move on to the anatomy of the eye itself, but first don't let go of the video and continue

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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. So it is very important that you subscribe to the channel here in

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the lower right corner, you click on it and you are automatically subscribed to the channel. That is

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the only thing I ask of you and in exchange you can access all of its content. So I remind you that

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the outer tunic was made up, also called the fibrous tunic, by two structures,

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previously this crystallite called the cornea and later by what is the sclera. We are going

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to begin to describe the anatomy of the cornea first, then the cornea is an anterior lens,

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it is what extends the eye anteriorly, it is what makes the anteroposterior diameter

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longer than the transverse diameter, it is more or less a hemisphere that forms the first

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anterior sixth part of the eye, what I told you at the beginning. While the

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posterior fifths form in the sclera, then this cornea, the first thing you have to know is that it

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is a vascular tissue, that is why it is so easy to transplant a cornea, well,

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easy, so to speak, which is not It's so complicated to get the donor, I mean,

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she's going to be in contact with two structures. According to the circumstances, it can be in

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contact with the atmosphere directly, protecting the internal contents of the eye,

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but also when we have our eyelids closed it is in contact

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with the posterior surface of the upper eyelid, so it is transversely a little wider,

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measuring 12 millimeters. while vertically it measures approximately 11 millimeters, so

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it is not a perfect cylinder or a perfect circle but rather it is longer transversely,

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now in thickness the center is much less thick the center measures 0.5 to 0.8 millimeters while that

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peripherally, this is a cross section of the eye a superior view of it in fact

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it is a little wider it measures about a centimeter, sorry, a millimeter wide on

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the periphery near where the cornea then joins the sclera. Now, there is the union

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between the cornea and the sclera, which we are going to call externally the sclerocorneal limbus,

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in that same place we can see that the conjunctiva, which is a layer of tissue that covers

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the anterior surface of the cornea along with the eyelid It has a protective membrane, this conjunctiva

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will also be attached to what is the cornea and what is the sclera, an area called

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sclerocorneal limbus, this is the place where you see, see that the sclera communicates with the cornea,

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something important It is the beveling in the oblique cut that the cornea has at the expense of its

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most anterior face, this explains why then it is said that the sclera

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initially covers what is the anterior face of the cornea, because you see that since it is beveled,

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The fact that it is not a completely straight cut means that the sclera is just placed anteriorly

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in front of what the cut is. Now in this same union between what is the sclera and the

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cornea is the sclerocorneal union, limbus in the anterior part itself all this is called is union,

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we are going to find a structure called trabecular reticulum which is a network of fibers that can be seen

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much better when it is a histological view, a microscopic view. Now there is an angle between

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the iris and the cornea, this angle is called the iridocorneal angle, the iridocorneal angle, and the corneal angle

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of the cornea. This angle is very important because this is the place where the

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aqueous humor is reabsorbed. Let's see a little bit now. closer so that you understand how the magic happens

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at the level of that iridocorneal angle. Now in this histological section, to locate them this would be the

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sclera, this would be the cornea, this the iris and this the lens, we are going to talk now

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about the layers that the cornea has, a more anterior layer which is the so-called anterior epithelium,

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then It has a posterior limiting membrane or posterior limiting lamina, no, anterior sorry,

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which would be the basal lamina of that epithelium, this anterior limiting membrane is also called the

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anterior elastic membrane, then it has what is the substance itself, behind the substance itself

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we find the posterior limiting membrane, which is also called Descemet's membrane,

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this limiting membrane is posterior, which would be the posterior basal membrane, and behind it the

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posterior epithelium, which in many books is called mesothelium, but if you already have

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histological knowledge, it will know that the mesothelium is nothing more than a flat epithelium, that

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is, it is a type of epithelium that is the one that will then be in contact with what we call

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the anterior chamber of the eye, perhaps they do not yet know what the anterior chamber is That is what we are going

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to touch on in the middle of refraction, which is the third video of the eyeball. Let us then quickly move on

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to the sclera, which is what we colloquially know as the white of the eye,

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that is, it is the part that forms the external fibrous tunic together with the cornea, but which is

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posterior and forms the posterior fifth-sixth parts. of the eyeball, this sclera

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varies in thickness according to its location, anteriorly it measures approximately 1 millimeter

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thick, in the middle part it narrows quite a bit, it measures 0.4 and in the posterior part, I

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said it the other way around, in the posterior part it is the thickest The one of a millimeter is the average of 0.4

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and the previous one is the one that is 0.6. Then the thicker posterior narrows in the middle region

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and becomes slightly thicker than the anterior, but never as thick as in the posterior part.

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Now the radius that I drew here as if it were a diameter of approximately 11 to 12

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millimeters, that is, from the center of the periphery, when one of the two radii forms this

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diameter, which would be the transverse diameter of the eye, which is between approximately 23 and 24 centimeters.

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So you know that I drew the diameter here but I was really referring to the center of the periphery,

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which is the radius of 11 to 12 millimeters. Now superficially to what the sclera is,

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which would be what you see here in white, there is a space that is the episcleral space, above that

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episcleral space there is a fibrous tissue, a fairly loose tissue that is the episcleral tissue,

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outside the episcleral tissue we find the bulbar aponeurosis. So the sclera order, which

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is the sclera, episcleral tissue and then the bulbar aponeurosis, it is important to know that this

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aponeurosis is penetrated by the muscles of the eye, which are the extra ocular muscles that we are going to see

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in the video that I told you later, This muscle, these extra ocular muscles are inserted at the level

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of the sclera, therefore they have to pierce the bulbar aponeurosis and have to

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cross the epithelial tissue with the episcleral space in order to reach

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the sclera of the eye. . Now in the posterior part, which is the thickest part of the

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sclera where the retina converges and forms the optic nerve, this optic nerve pierces the

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sclera but the sclera does not leave a complete hole for the optic nerve to pass through.

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No, it leaves cribriform fibers, many holes that look like a sieve, that is why this area

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that I have here is called the cribriform plate of the sclera. It should be noted that this optic nerve,

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which would be the second cranial nerve, is surrounded by a membrane that It is the membrane of the optic nerve

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and this membrane is continuous with the fibers of the sclera so that they form a single unit.

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Now this is a quite microscopic, histological section here we can see what the cornea is,

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the sclera, this would be the sclerocorneal limbus, we are going to see the scleral venous sinus, this

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scleral venous sinus is also known as Schlemm's duct, see what it is located in the

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iridocorneal angle which is between the iris that I told you a while ago and the cornea, here that

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schlemm duct is what reacts to the aqueous humor once it is produced, in the third

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refraction medium video that I will tell you about the aqueous humor. I will explain well what the circulation is like,

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who makes it up and how they react here. What I want you to know is that at that level of the

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sinus venosus that the Schlemm duct itself is where the aqueous humor is reabsorbed. So it is

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very important to know this anatomical point since there is a pathology called glaucoma, which is an increase

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in intraocular pressure that occurs for many reasons but one of them is that there is obstruction of

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these Schlemm ducts so that the aqueous humor cannot be reabsorb and therefore increases

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the pressure inside the eye. This is a superior transverse view with this we finish

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the video of the external tunic, forward the cornea as it is in contact with what is

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the conjunctiva which is this membrane that you see here, this would be the eyelid and see how it continues with

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the sclera, this would be the bulbar aponeurosis, this tissue that is seen there would be the episcleral

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and this would be the sclera, see how it continues with the lamina, not, let's say with the cover

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that the optic nerve has, here this iridocorneal angle level is then assumed Which is where

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the Schlemm duct is, which is what absorbs the aqueous humor. This was then the first

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eyeball video, don't forget to subscribe again, I ask you here in the little circle that appears here,

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if you liked the video, like it and watch the following videos, you can also follow me

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on Instagram at @juan_sanchez1315. Thank you for your attention