🥇 Articulación TEMPOROMANDIBULAR. Fácil, Rápida y Sencilla

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Welcome to another easy anatomy video by Juan José Sánchez! Today I bring you a video

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about the temporomandibular joint, also called the temporomandibular joint

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. Both words are synonyms. This is basically a joint that will occur

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between a bone of the face, such as the lower jaw, currently called the mandible,

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specifically its condylar portion with a bone of the skull. So,

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a facial bone as a skull bone, specifically with the time bone,

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the famous temporal bone. We will see later how this articulation occurs.

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In this image, a little closer, we see the condyle or head of the lower jaw as it

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is going to articulate only with the condylar fossa or the maxillary fossa at the

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base of the skull of this bone, which is the temporal bone. So, stay tuned to the video.

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Okay, so when we talk about the temporomandibular joint, we have to imagine the base

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of the skull. All this bone that you see in red is the temporal bone and this one

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that you see in yellow is the sphenoid bone, a very important bone at the base of the skull.

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So, this joint is going to occur between this

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circular structure that you see here, which is the glenoid cavity or maxillary cavity or maxillary fossa of the temporal bone and

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this tubercle that you see here, which is this elevation, this prominence, which is the

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articular tubercle of the temporal bone. So, these two structures are what make up the

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temporal part itself that is part of the articulation, as you can see here.

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The second part that is going to be articulated, as I mentioned, in the head or condyle of the

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lower jaw. This temporomandibular joint is a joint that is separated by an

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articular disc, a fibrocartilaginous disc of quite irregular size. This disc

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is going to be inside the joint, which is a synovial joint that is covered by this

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joint capsule. In fact, the articular disc is inserted, as you can see here, into what is the

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joint capsule itself. This disc, which is what you are, is shaped like a coil here,

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red, and divides the temporomandibular joint, which is an osteoarthritis joint, that is,

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a synovial joint, and is divided into two subjoints. One will occur between the

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upper surface of the disc and the temporal fossa itself, which would be the upper portion of the

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joint. The other will occur between the lower part of the disc and the condyle of the maxilla.

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The upper segment of this joint is a flat or arthrodia type joint, that is,

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it allows the sliding movements that we will see later: protection,

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retraction and lateralization movements. So it is a

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bicondylar joint, while the lower division is a hinge type joint,

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also called arthrodial joint. You already know that both are subtypes of

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synovial joints. It is very important that you review my joint overview video

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so that you understand well how synovial joints work.

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So, this lower joint or this lower subjoint, being a

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hinge joint, is what will allow me to open and close my mouth, that is, opening

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and lifting movements to close the mouth that would be analogous to flexion. and the extension.

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The relationships of the most important anatomical ones. Let's see that this joint laterally,

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generally the joint is described as anterior to the pinna and posterior

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to the zygomatic arch. The lateral relationship that it will have is subcutaneous, it is a relationship and it is a

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fairly superficial joint. In fact, you put a finger in front of the tragus

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in your ear and when you open your mouth you will feel the movement of the joint. So

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its lateral relationship is just more skin and a little bit of subcutaneous cellular tissue.

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What is its medial relationship going to be, remember that theoretically here is the joint,

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so medially we find this structure that you see here is a point that is the spine of the

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sphenoid, more medial to the joint we are going to find the foramen spinosum because it is in

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relation to the spine and even more medial we are going to find the foramen ovale. So these

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three structures, the spine, the foramen spinosum and the foramen ovale are direct medial relationships

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to the joint. Just as medially we also find a large part of what is the pharynx.

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Important anterior relationships: this structure that starts from the spheroid, which

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is the external pterygoid plate or lateral pterygoid plate. Here it is not seen well

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as the previous relationship but see in this image how the external pterygoid plate is anterior,

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here is supposed to be the condyle of the maxilla, this gap that you see

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here then anterior to it is the external pterygoid plate.

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While the posterior or posterolateral relations are going to be the parotid gland,

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this nerve that you see here, which is the auriculotemporal nerve, and these vessels that are

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here, which are the superficial temporal artery and vein, they are going to make a

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posterior relation to the joint, as you can see in this image the parotid gland and this nerve,

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which is the auriculotemporal nerve, then they would be posterior relationships here, which here

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you can see the condyle to what is the temporomandibular joint, let's see then, how is it going

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to Is the joint capsule formed? Remember that every synovial joint has a

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fibrous capsule that covers it. Then, this fibrous capsule is inserted into all the edges of the condyle

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or the condylar cavity, sorry, the temporal bone, in the temporal fossa and is inserted at the level

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of the neck, which is what follows the condyle or the head. of the upper jaw.

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Something very important to highlight in this muscle that is in my video on muscles of mastication,

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I also invite you to watch it, is in my channel in the external pterygoid muscle or

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lateral pterygoid muscle. It is important because it is inserted precisely into the joint capsule and is what

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allows me, when it contracts, to bring the maxillary condyle forward and

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initiate the opening of the mouth and initiate the protrusion movement. That is why

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the initiation of this muscle at the level of the joint capsule is important.

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So, this articular disc, as I call it, which is quite irregular in size,

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its upper face is said to be concave and convex because you see that there is a

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concave part and a convex part, while the lower face is completely convex, Concave,

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sorry, it adapts to the condyle of the lower jaw. You see how the movement

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and the importance of the articular disc, when we begin to open the mouth,

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well there the closed mouth, see that when I begin to move the mouth,

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see how the disc is the one that is interposed between the two parts of the joint

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so that it plays a predominant role, a crucial role in the function of the joint.

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This temporomandibular regulation is the only one worth highlighting, a synovial joint

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that physiologically dislocates, you see that it dislocates completely,

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joint contact between the two surfaces is lost but that is physiological, that is normal for it to happen. Now,

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there are ligaments that reinforce the joint, there are three in particular that

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help prevent a pathological dislocation from occurring, that is, they help us to ensure that

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the head of the condyle of the lower jaw does not come out of the cavity of the jaw. temporal bone.

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These ligaments are going to be the external ligament because it is external, lateral to

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what is the joint capsule, which is this, or also called the temporomandibular or

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temporomandibular ligament. So, from what is the articular tubercle of the temporal bone

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to what is the external face of the ascending ramus of the lower jaw.

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The second ligament, a ligament that we are going to see on the medial side of the ascending branch, which is the

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mandibular sphenoid ligament or maxillary sphenoid ligament. Here we see it better, this mandibular spheno or maxillary spheno ligament

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is going to go from the sphenoid bone to what is the lingula, covering what is this

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groove, which is the mylohyoid groove of the lower jaw, specifically in its ascending branch.

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It is important that this guideline as lateral relationships remember that we are seeing a vision

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medially, it will have the internal maxillary artery, which is a branch, the internal maxillary artery, which is the

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middle meningeal artery, and this nerve, which is the temporal auriculonerve, which remembers that it is

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in close relationship posterior to the joint itself and also goes to be lateral

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to this ligament, the maxillary sinus, which is the inferior alveolar nerve with the

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inferior alveolar artery. This, two nerves that we see here, are not so much in relation to the ligament,

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these are the nerves and the mylohyoid artery, this nerve together

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here this trunk is the lower division of the trigeminal, that is, the

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lower maxillary nerve. You see that everything in relation to what the sphenomaxillary ligament is, also

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this nerve, which is the lingual nerve, has nothing to do with the sphenomaxillary ligament.

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Finally, the last ligament is the maxillary style ligament or the mandibular style ligament.

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It will go from the styloid process, also of this bone which is the temporal bone,

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to what is the angle and the posterior edge of the ascending ramus of the lower jaw. .

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What are the movements of this joint going to be and what muscles are going to do it?

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First, we have the movement of descent, that is, opening the mouth, which will be

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given by the lateral pterygoid muscle and the infrahyoid muscles. I'm talking about the digastric,

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the mylohyoid and a single suprahyoid muscle such as the geniohyoid muscle, sorry,

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all three muscles are suprahyoid, excuse me, both the digastric,

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the mylohyoid and the geniohyoid. And another

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thing that helps the opening of the mouth is basically the effect of gravity.

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The opposite, antagonistic movement, which will be the rise or elevation of the lower jaw,

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that is, the closure of the mouth, will be given by the temporalis muscle,

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the masseter muscle and the medial pterygoid muscle. So,

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they are the first two movements that the joint makes, descent and elevation,

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thanks to the underside of the joint, that is, the trochlear or hinge joint.

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Now let's talk about the anterior and posterior sliding movements.

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The protrusion, which is a sliding ligament,

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is an anterior sliding movement, it will be given by the medial pterygoid,

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lateral pterygoid and masseter muscles. While the opposite, which would be

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returning the jaw backwards, would be the movement of retrusion or retraction,

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it is the same, these will be given by the most posterior fibers of the temporal muscle.

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Finally, the lateralization movements, as you see here,

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which is to throw the jaw from one side to the other, will be given. For example, if here I want to lateralize

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the jaw on the left side, I need to contract the temporalis and the left masseter,

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but also the lateral pterygoid and medial pterygoid against the lateral on the other side,

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so that these four muscles, both those that are ipsilateral and these that are contralateral

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, are the ones that help me with the lateralization movement to one side. If I want to do it

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to the other side, I have to move the muscles opposite to what I just mentioned.

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So, friends, this has been the entire joint video. Don't forget to subscribe,

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like, share it. I have here the general videos of

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lower jaw articulation so that you can learn a little more and expand

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this information further. Don't forget to subscribe in the little circle that appears

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here and you can follow me on Instagram at @juan_sanchez1315. Thanks a lot.