🥇 ARTICULACIONES, Clasificación Fácil, Rápida y Sencilla

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yes good good friends welcome to another anatomical video my name is juan josé sánchez and today

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we will talk about body joints, first of all this is a topic that is somewhat difficult

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to explain because, although it is a topic that is easy to understand There is a lot

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of variation according to the authors in what the classification of these articulations

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is, however, I tried to make a compendium and well I will try to explain to you the

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easiest classification that I found in the literature, first of all we are going to say

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the concept of joints, which is nothing more than the union of two rigid body structures

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with each other, get rid of that articulation chip at the union of two or more bones because,

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although most joints are formed by the unions of bone with bone, we are also going to find

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body joints where there is a union of a bone with a cartilage, also some joints where the

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bone is simply joined with a tooth for example, then the joints of the body are not only the

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parts of the body that you see that can move, there is another type of joints that I am

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going to explain to you right now that are not mobile but, however, meet the criterion

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that they are two rigid structures that are joined together, and that is why they are

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considered joints as well, so we are going to start with the classification Of the joints,

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we are going to classify the joints in two ways, first according to the material that

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joins them, and second according to the mobility or the degree of mobility that each joint

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group has.

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The first group is 3 large groups: The first group that I am going to talk to you about

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are the synovial joints, these synovial joints are also called diarthroses, so you will get

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them in most of the texts, within the classification of mobility, these synovial joints or diarthroses

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are considered mobile joints.

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That is, the entire structure of the body that you see or the entire joint that is very

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mobile, like all those that you see in the upper limb, in the lower limb, that you see

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at the level of the cervical spine that allows me to move my head, those are joints. of the

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synovial type, they have the characteristic that they are highly mobile, in addition to

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some anatomical characteristics that I am going to explain to you in more depth now,

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then we have the second group of joints which are the cartilaginous joints, in some texts

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you will find these cartilaginous joints with the name amphiarthrosis, according to the

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mobility classification these cartilaginous joints are semi-articular joints mobile, that

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is, they are not joints that have as much free movement as the synovial ones, but they

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are not completely rigid joints, but rather have little variation in movement, an example

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of which is the joints between the vertebral bodies through the intervertebral disc, which,

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well, It is not as mobile as a synovium, I repeat, but if there was no movement we would

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not be able to do the different flexion movements with the spine and others are joints that

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you can hear well, they occur between the bony ribs and the costal cartilages, these

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ones that you see here , those are cartilaginous type joints, now the third group of joints

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are going to be fibrous joints, these fibrous joints in many books are going to be found

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under the name of synarthrosis and within the classification of mobility they are said

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to be joints that either they move very little, it is not that they do not move, always, but

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that there are times that they move very little or simply that they are totally immobile joints,

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an example of these are the cranial sutures, which are the joints that join the different

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bones that They make up the cranial vault, now, we are going to start talking about the

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largest group of them, the group that needs to be paid the most attention, which is the

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one with the greatest number of subclassifications, which are the synovial joints.

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I remind you that these synovial joints also They are called diarthrosis and are all those

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joints of the body that have freedom of movement, as characteristically the joints that exist

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in the upper limb and the lower limb.

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Now, the entire synovial joint has six characteristics or six components rather, which describes

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them.

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First this is a typical synovial joint, see that it is a union between two bones, the

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first thing you are going to see is that the bone surfaces of the bones that are going

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to be in contact are smooth surfaces because they have to be smooth because they do not

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have to allow the rubbing or friction between the structures that are being articulated,

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in addition to that, in addition to being smooth, these bone surfaces are covered by

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hyaline cartilage, this hyaline cartilage will allow there to be no collision of bone

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with bone but will serve as a cushioning, after that hyaline cartilage, this synovial

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joint will be covered by a thick membrane, a fibrous layer, which is what is called the

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joint capsule.

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Outside of that joint capsule, there will be a protection, which is what we call a ligament,

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so what is it?

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a ligament, a ligament is nothing more than a fibrous structure that protects every synovial

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joint.

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If you don't confuse ligaments with tendons, which is something very common that people

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confuse, a tendon is an extension of a muscle, it is what the muscle uses or That is, it

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is part of the muscle, it is what the muscle uses to insert itself into the bone and be

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able to move it ok, while the ligament has nothing to do with the muscle, the ligament

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is a structure that joins bone to bone and that simply connects it.

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What it does is reinforce the fibrous capsule of the synovial joints [Music] now we find

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four components.

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The fifth component of every synovial joint is this membrane that you see here in green,

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which is what is called synovial membrane, this synovial membrane makes A space is formed

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that is the synovial space, that space is completely occupied by the famous synovial

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fluid, which is the structure that will also help cushion that joint, so that all joints

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have these six components.

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synovial type, it is like those cavities, those bone surfaces that are free as if swimming

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in that puddle that is why they already have so much mobility, now we are going to complicate

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things a little more because we are going to subclassify each group of joints, Remember

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that there were three large groups, we continue with the synovial or diarthrosis, we are going

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to subdivide these joints into three groups, there are six in total, but those six are

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subdivided into three groups according to the amount of movements they have, although

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they They are the ones that move the most within them, there is one that moves more

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than others, first we are going to talk about the multiaxial joints, here I make a reservation

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to the word axi in Greek means axis, when I talk about multiaxial it means that it It

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moves multiple axis, so you know, I recommend that you watch my previous video on the body

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axes, that in the body there are three axes, I say that a joint is multiaxial because it

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moves in all possible axes, that is, it moves in all three and if you watch the previous

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video you will see that each axis allows two movements, I remind you about the lateral

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lateral axis movements are flexion and extension on the anteroposterior axis movements of abduction

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and adduction and on the longitudinal axis movements of internal rotation and external

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rotation then a multiaxial joint moves in three axes and can make six movements and

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the joints that were capable of making six movements make the conjugate movement called

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circumduction, then, a single type of joint in the body can make that movement circumduction,

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which are the ball joints or also called enarthrosis, for example, the shoulder joint which is the

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glenohumeral joint and the hip joint which is the coxofemoral joint, then this simulates

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in the head, let's say or the upper epiphysis of the humerus, which has to be a rounded

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surface, almost a sphere that fits on another surface and is what allows movement to be

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made, say conduction, then we have the biaxial synovial joints, biaxial then means that it

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moves in two axes and I am wondering how many movements It could be well it could be only

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four movements, so within these biaxial we are going to find three types of joints first,

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we are going to have the condylar or ellipsoidal joints and these are joints where a convex

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surface fits perfectly on a concave surface she then I am going to allow four movements

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in two axes: flexion, extension plus abduction and adduction, it can be either flexion and

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extension plus internal and external rotation, an example of which is the radiocarpal joint,

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which allows me to do only four movements with the wrist: flexion, extension abduction

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and adduction, also this type of condylar or ellipsoidal joints, we find it in the radial

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humerus joint, it is what allows me to flex and extend the forearm and in addition to

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that do internal and external rotation of the forearm, which is what allows me It allows

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supination and pronation, then we have the reciprocal socket or saddle joints, well this

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is a surface that looks like the saddle of a horse that fits perfectly on the other articular

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surface characteristic of this, the thumb joint, which is the trapeziometacarpal joint

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is a reciprocal or saddle joint, then we have the arthroid or flat joints.

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Some authors consider that the arthroid or flat joints are not biaxial, but are unixial,

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but most agree that this joint is a flat surface on another, they are biaxial type joints,

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an example of which is the tarsometatarsal joint, finally the third group within these

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synovial joints, which are the ones that have the least movements within them, are the uniaxial

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ones, that is, they move in a single axis, uniaxi but, it allows me two movements within

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it, we are going to have two, first the trochlear or hinge joints, for example, the ulnar humerus,

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between the humerus and the ulna, I can only do two movements, which are flexion and extension.

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It calls hinge because well you see the hinge of a door and it will take joint movements

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its flexion and extension and finally the trochoid or pivot joints which are joints

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that can only make internal and external rotation movements and I remind you that These movements

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are only made about a longitudinal axis characteristic of it, the joint that occurs between the odontoid

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process of the axis of C2 and what it is, the anterior arch of the atlas that joins

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the atlaidodont joint.

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The idea is that it is a type of trochoid or pivot joint, which allows me to rotate

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the head or you always know the trochoid or pivot joint.

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They move along the longitudinal axis and I forgot to tell you that the trochlear or

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hinge joints always move along the lateral axis, as in flexion and extension.

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However, with the second group of joints, which are the cartilaginous joints, you will

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find In many books with the name of amphiarthrosis, I remind you that within the mobility classification

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there will be semi-mobile joints that had more or less movements, not as much movements

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as the synovial but if they had more or less movement, they in turn are subdivided into

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two groups we are going to have primaries and secondary ones, the primaries are also

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called hyaline cartilage joints or simply synchondroses, they are made of hyaline cartilage

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or they are called primaries because when we are born they are cartilage characteristic

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of it the growth nuclei of the long bones and these joints that They are between the

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bony rib and what is the costal cartilage, which are the costal chondral joints.

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They are cartilage but over time they begin to ossify.

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Another example of them is the xiphoid appendix, although in this image you see the xiphoid

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appendix.

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bone, when we are born it is cartilage and as we grow it begins to ossify, which is why

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they are called primary, and then we have the secondary ones that are made of cartilage

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but no longer hyaline like the primary ones, but rather these are made of fibrous type

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cartilage, You will also find them in books with the name symphysis, these characteristic

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joints are the pubic symphysis and the joints between the vertebral discs of the vertebral

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bodies, these are examples of secondary or fibrotic cartilage, finally the third group

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of joints What I name them, which have very little or simply do not move, are the fibrous

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ones that are going to get the book with the name of synarthrosis, this in turn is subclassified

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into three groups.

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First, we have the sutures, which are nothing more than the joints that They are formed

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between the different bones that make up my cranial vault, then we have the syndesmosis,

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syndesmosis are membranes or are fibrotic tissue that join two bones, characteristic

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of this is the interosseous membrane that

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unites the ulna with

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the radius, the interosseous membrane The most famous one that joins the tibia to the

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fibula is called radio carpal syndesmosis and this is the tibiofibular syndesmosis,

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after that syndesmosis we are going

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to have

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the gomphosis which is the third type of joint within this group, This is gomphosis, an example

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of

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it is the joint that is formed between

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the teeth and what is the jaws, that joint

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is called the dental socket joint and it is the only example of gomphosis that there is

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in the body and well, friends, this has been

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