| 00:09 | So we are experiencing that beautiful Houston . Right. Nice and manic. |
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| 00:18 | woke up this morning and it was . Mhm. Your joints act |
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| 00:26 | I guess when you get my your joints ache, that's what we're |
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| 00:29 | talk about today. We're gonna talk joints, joints are where bones meet |
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| 00:34 | else specifically. It's going to be another bone typically is what we're gonna |
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| 00:38 | talking about. But it's also cartilage also teeth. Um It's not that |
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| 00:44 | right there. It's that thing. used to make people laugh. It's |
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| 00:50 | early. Thank you. It's a joke. We're gonna have to do |
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| 00:59 | . I swear one of these. coming in here with silly string and |
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| 01:01 | just gonna see if you guys wake . Alright, so this is what |
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| 01:05 | focus is today. It's a real lecture. It's this is the lecture |
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| 01:10 | you get to go home and practice anatomy. All right. You're gonna |
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| 01:14 | a lot of movement. This is I talked about the cheat sheet on |
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| 01:18 | , your body is your cheat So, if you learn the |
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| 01:20 | get in front of a mirror, in front of somebody do your little |
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| 01:23 | hippy shake. Right, right? your movements. You'll know them for |
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| 01:29 | test. All right. So when talk about joints, we're gonna classify |
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| 01:33 | in one of two things. I mentioned this the other day that they're |
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| 01:36 | articulation. But when we classify we're going to classify them both by |
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| 01:40 | and by structure. All right. when we say that what we're saying |
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| 01:44 | what kind of movement does this joint ? And then structurally what is used |
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| 01:50 | hold the two bones together. In words, that creates that articulation. |
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| 01:54 | when we think of a joint we of a joint like our elbow joint |
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| 01:58 | a shoulder joint. We think about and that's a specific type of |
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| 02:02 | But there are other types of joints we're gonna see here that prevent movement |
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| 02:07 | allow for very limited movement. And don't really think about those quite so |
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| 02:11 | . Right? But it's the same of concept to bones being held together |
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| 02:14 | some sort of structure to allow or that kind of movement. Alright, |
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| 02:21 | that's our starting point. Um for you're planning on physical therapy. Um |
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| 02:27 | get to go back to kindergarten or grade. I remember playing with pro |
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| 02:32 | . It's like, I can't remember last year you used one, |
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| 02:36 | But you got them like really early in like first grade, you probably |
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| 02:39 | them like three or four times and you may have used them again in |
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| 02:42 | grade and then you never used them again remember that. Well, when |
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| 02:46 | become a physical therapist you carry a and the region you carry a protractor |
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| 02:52 | so that you can look at the of motion. All right, range |
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| 02:55 | motion is simply the normal extent of for a specific joint. All |
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| 03:00 | So it's kind of there's a kind a generic joint, right? You |
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| 03:04 | say, Okay, generally speaking, need for example has, and this |
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| 03:09 | just an example has the range of of about 140°. Some people have |
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| 03:16 | some people have left, but when actually physical therapist, you're usually dealing |
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| 03:19 | people who have lessons. So you're at the degree or or the degree |
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| 03:23 | motion relative to what would be Now, I had a friend who |
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| 03:27 | a swimmer for stanford um and he double jointed and like every joint in |
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| 03:32 | body, which is part of the why he was a really good swimmer |
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| 03:35 | it kind of gave him a larger of motion. And so you could |
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| 03:38 | at someone who's a swimmer and you of go look at their arm and |
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| 03:41 | kind of does this instead of 180°, does like 210°. So they have an |
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| 03:48 | range of motion, but it's not that's to their deficit would be something |
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| 03:52 | their benefit. All right. The thing that we need to understand is |
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| 03:56 | degrees of freedom, degrees of freedom to the number of axes that a |
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| 04:02 | can move. And typically when we of range of motion or not |
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| 04:06 | but when we think of of angles degrees of freedom, we kind of |
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| 04:10 | X. Y and Z plane, then our brains can't really kind of |
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| 04:14 | around that third dimension, right? we can see X. And |
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| 04:17 | You know X. And Y. ? X. Is the longitudinal And |
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| 04:22 | the latitude anal access is uh is . And then Z. Kind of |
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| 04:27 | out and when you think of a you're like wait a second. I'm |
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| 04:31 | picturing the Z. This is actually of a really good way to kind |
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| 04:35 | look at this because you're actually not just X. Y. Z. |
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| 04:39 | actually thinking like movement in a ship movement in the play. You've got |
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| 04:43 | and yaw and roll. And these more complex movements that are harder to |
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| 04:49 | . And a little bit later when start talking about specific joints, I'm |
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| 04:52 | show up the picture so that you see what those planes kind of look |
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| 04:56 | . But just kind of give you sense this is a really, really |
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| 04:59 | joints. Our our joint in the is incredibly multiple degrees of freedom. |
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| 05:07 | , you can see here my shoulder do this, I'm just gonna keep |
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| 05:10 | straight. So you can see it's joint I can go this way I |
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| 05:13 | go that way, I can go , right? But the other thing |
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| 05:17 | can do is I can twist And so that would be high degrees |
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| 05:23 | freedom, right? Because it's not in this plane and in this |
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| 05:27 | But it's around the plane as All right. So, when we're |
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| 05:34 | about these two things, range of degrees of freedom, typically what we're |
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| 05:38 | about is the joints that we can think about. These are called the |
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| 05:41 | joints. And we'll define that term just a moment. Alright. |
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| 05:46 | when we talk about the other they don't have these things. We're |
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| 05:49 | talking about the really movable joints. synovial joints. Now, I guarantee |
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| 05:57 | gonna ask a question about this slide the test. It's mike, I |
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| 06:01 | it every year. It's surprisingly there people who still miss it. |
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| 06:04 | So, just put the big star when when I say you should know |
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| 06:08 | , just say I'm going to get question. All right. There are |
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| 06:13 | factors that deal with joint stability. . And we're gonna go from the |
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| 06:18 | important to the most important on the . This is a scale that kind |
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| 06:23 | shows you how these two things are in opposition to each other. |
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| 06:28 | if you want a stable joint, gonna have a less mobile joint. |
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| 06:31 | you want a mobile joint, you're have a less stable joint. |
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| 06:34 | That those are two truths that are opposition to each other. You can't |
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| 06:39 | a really stable and really mobile joint the same time, it doesn't |
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| 06:43 | Now, the way that we can high degrees of stability is if we |
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| 06:47 | articular surfaces that match each other very well, alright, so they |
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| 06:52 | movement at the joint, but the movement you have, again you're gonna |
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| 06:58 | an opposition to that mobility. So I'm gonna use two joints that are |
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| 07:03 | easy to think about. Think about Children, think about your hip |
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| 07:06 | They're both a type of ball and joint, blah blah blah. Will |
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| 07:09 | the ball and socket in just a . Right? The Glenroy cavity of |
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| 07:15 | scapula is very, very shallow. like this. And so the head |
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| 07:20 | the humerus is like a big giant ball sitting on top of a golf |
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| 07:24 | right in your Illinois cavity? That's very stable. Have you ever blown |
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| 07:28 | you blow hard enough on a golf sitting on a. T. It |
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| 07:31 | fall off the tee, right? the teeth small ball is big and |
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| 07:36 | not a lot of contact, that's of what your shoulder is. Like |
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| 07:40 | here ever had your shoulder dislocated? , a lot of fun, isn't |
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| 07:44 | ? Was it hard to get it in? It was just because you |
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| 07:48 | paying no one just came up and it back into place. Yeah, |
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| 07:52 | it's easy to pop in and pop out. You don't want to pop |
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| 07:55 | out, It hurts right but getting back in, it doesn't take a |
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| 07:58 | of effort. Now think of your alright your hip has a very deep |
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| 08:04 | . So remember golf tee, this deep socket, The head of the |
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| 08:08 | sits in that and it doesn't get out. It's really hard to dislocate |
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| 08:14 | hip right now. What can I with my shoulder? I can do |
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| 08:18 | right. I can do windmills. I do that with my hip? |
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| 08:22 | , it is about as good as can get. All right, see |
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| 08:27 | telling you're gonna be doing all this in front of a mirror a little |
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| 08:29 | later. All right. So, the shape matters alright. And it |
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| 08:38 | a certain degree of stability. So more uh protection and stuff, the |
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| 08:43 | the stability, but the less mobility not the most important thing. That's |
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| 08:47 | least important. The second thing is number of and the position of the |
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| 08:51 | of ligaments that are surrounding that All right. So, what the |
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| 08:56 | do is they prevent undesired movement, ? They're kind of like taking for |
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| 09:02 | who tape yourselves up when you used work out or still work out when |
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| 09:07 | tape it up, what are you ? Is you're basically creating false ligaments |
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| 09:09 | the outside of your body, you're stability, right? So when you're |
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| 09:13 | all that tape around, that's what doing and that's what the ligaments |
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| 09:16 | They're your natural taping of your So you want to strengthen a |
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| 09:21 | So, for example, my which is already not a very, |
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| 09:25 | stable joint. If I put a bunch of ligaments on it, what |
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| 09:28 | done is I've stabilized that joint basically wrapped it and structure that could provide |
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| 09:35 | . All right. The general rule the more ligaments you have, the |
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| 09:39 | the strength. Obviously the greater the , the less mobility you have as |
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| 09:44 | . So the more ligaments you put there, it's gonna be harder to |
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| 09:49 | . The most important big star question's to be asked on the exam. |
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| 09:54 | most important is muscle tone. This is the most important factor when |
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| 09:59 | comes to stability of a joint. , a muscle which we haven't learned |
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| 10:05 | yet is basically this this structure that a whole bunch of connective tissue associated |
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| 10:10 | it that then chris is basically attending crosses over the joint. And so |
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| 10:17 | happens is is that that muscle when use it becomes uh not only stronger |
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| 10:23 | it sits in a state of tension the time. That's muscle tone, |
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| 10:29 | ? People who work out, they really good because their muscles are always |
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| 10:34 | a state of constant flex, And that's what happens when you use |
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| 10:40 | muscle. And it creates that constant constantly pulling on the tendon. Which |
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| 10:45 | like having more and more ligaments. we said up here, wrapped around |
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| 10:50 | joint and it provides greater stability. right. So when you look at |
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| 10:57 | joint. Look how many muscles cross . All right. The more muscles |
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| 11:02 | have, the greater stability. like your knee joint, for |
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| 11:05 | has a whole bunch of muscles that over it. Your hip joint have |
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| 11:09 | whole lot of muscles crossing over And so that what that does. |
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| 11:12 | allows you to have less stable articular . Right? So, you don't |
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| 11:18 | to have these deep sockets. You have looser sockets, Right? But |
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| 11:22 | can strengthen it by crossing over with whole bunch of muscles. And so |
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| 11:27 | you have greater stability. And you think about what is the joint that |
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| 11:31 | most important in creating stability for my . Which one if you had to |
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| 11:36 | one, huh? My knees. . I mean, if I can't |
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| 11:42 | , I can't eat. Can't I'm gonna die. Right. If |
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| 11:46 | can't walk. I can't make if can't make species dies. Alright. |
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| 11:52 | become really, really important. Can't chase my prey. I |
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| 11:57 | I can't in other words, Being 21st century humans can't run over to |
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| 12:01 | Bell. Right? Someone has to get it for me. Doordash. |
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| 12:07 | right. But that is why our have all these structures on them so |
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| 12:13 | we can chase down our parade. kind of makes sense. One person |
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| 12:18 | down there. Have it over Makes sense. That's all the shoulder |
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| 12:22 | . That's that's that's good enough. right. Sorry. With that in |
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| 12:26 | . We're now going to jump in start looking at structurally what we're what |
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| 12:31 | these different joints are. And as I mentioned, we're going to |
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| 12:34 | at them in terms of their structure what kind of movement they allow. |
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| 12:39 | , structurally joints can be either cartilaginous or synovial. All right, |
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| 12:44 | simply means that there's gonna be some of fibrous tissue that holds the two |
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| 12:48 | together. Cardiologists means there's some cartilage between them holding the two bones |
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| 12:53 | Synovial means there's a cavity that's filled a special type of fluid called synovial |
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| 12:58 | . That is between the two Alright, we're talking about movement. |
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| 13:04 | talking about one of three different types movement. It can be without |
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| 13:08 | So, that's a synthesis. And arthur system means that it has some |
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| 13:13 | . So amply whenever you see that a prefix. Remember amphetamines by or |
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| 13:18 | two states. So, this is of kind of like not movement, |
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| 13:21 | kind of this kind of movement is they use the term empty and then |
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| 13:25 | . Arthur Asus or dia. Theses plural is where you have a freely |
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| 13:30 | joint. All right. So, are the three types and we can |
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| 13:35 | of look here and see what kind movements. Generally speaking, we're talking |
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| 13:38 | because when you hear movement it can different things. And so typically we |
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| 13:43 | there are three basic types of And then if you can't fall into |
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| 13:46 | of those three categories, then we're drop you into a third category called |
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| 13:50 | movement. Alright, so we have movements. This is where to bone |
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| 13:55 | are moving against each other like. right, there's no appreciable angular ation |
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| 14:01 | rotation. Alright, So they glide each other, do it this way |
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| 14:05 | here as well. Alright, our angular movement is simply an increase or |
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| 14:11 | in the angle. That's where the comes in. Alright, so that's |
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| 14:15 | of an easy one. And then is when you take a long bone |
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| 14:19 | you rotate it around its axis. , so there's a rotation, not |
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| 14:24 | this, that's not a rotation. an angular movement, right? It's |
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| 14:30 | you're doing is you're moving the long in that circle around itself. So |
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| 14:40 | get down and see where we see things. All right, so, |
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| 14:43 | have a gliding movement. This is very simple movement here, we have |
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| 14:47 | two surfaces are sliding against each It's that back and forth movement angle |
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| 14:51 | change and it's very, very The example that they're using here in |
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| 14:54 | cartoon is going to be in the bones. Alright, so this is |
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| 14:59 | I like to get somebody and play their wrist James. You get to |
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| 15:02 | my example. Alright, so you're just relax yourself. So if I |
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| 15:07 | there and just kind of play like . So notice where I'm grabbing. |
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| 15:10 | down here, that would be the dials up here. Those are the |
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| 15:13 | carpal metacarpals. So it's in here you can just kind of play with |
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| 15:17 | and you can feel the bones move and forth. Now notice this is |
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| 15:21 | this movement, it's literally between each the individual carpal, so there's very |
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| 15:25 | movement. But the combined movement of carpal bones allow for more or greater |
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| 15:31 | than the singular movement by itself. , so if you want to play |
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| 15:35 | something and feel that car pools are easy place to do that for that |
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| 15:39 | movement right into partial joints, do same thing. But playing with ankles |
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| 15:43 | a lot harder. All right, that's the easy one. That's the |
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| 15:49 | movement. This takes us to the movements. Some of these you're familiar |
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| 15:53 | flexion and extension are pretty simple. can just use the the humerus and |
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| 16:00 | owner. You know the lower arms the upper arm. I can flex |
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| 16:04 | ? And then when I move that back to its original position, that's |
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| 16:09 | . Alright. That's not the only where I have flexion and extension. |
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| 16:12 | mean I can do that with my here right? I can use my |
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| 16:16 | and lower legs. So there's There's extension. Alright, I extend |
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| 16:20 | leg downward, I flexed it Alright um There's also hyperextension. I |
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| 16:26 | you can see here with the there's neck flexion. There's neck |
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| 16:29 | So you can do this as Alright, so notice what the definition |
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| 16:33 | increasing or decreasing the angle between the bones. So we have to ask |
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| 16:37 | question. What's its normal position? . And then from that normal |
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| 16:41 | how do you what do you do ? All right, Hyperextension is when |
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| 16:46 | extend a joint beyond 180°. Have you hyper extended your knee playing something? |
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| 16:53 | mean if you watch the Super you got to watch Odell Beckham hyper |
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| 16:58 | his knee when he caught the ball taken out of the game. All |
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| 17:03 | , Hyperextension is when that joint goes wrong direction. In essence. All |
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| 17:11 | then there's lateral flexion. Now, is a very specific movement, but |
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| 17:15 | is a flexion. All right. , it's not having to do with |
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| 17:19 | arms. It has to do with body relative to its normal position. |
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| 17:23 | , when I go over here, flexion when I return back up, |
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| 17:29 | back to my normal position. So would be lateral flexion and extension. |
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| 17:35 | lateral flexion. Okay, so, guess you could do it this way |
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| 17:41 | . You got to hear the popping my neck. All right. Those |
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| 17:45 | the only angular movements. All When the aliens come and get |
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| 17:53 | We call it abduction. So, your arms are lifted from your |
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| 18:00 | That's abduction. Just like the aliens the aliens return you we don't call |
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| 18:06 | abduction, but we should because that's happens when you return back into |
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| 18:11 | So abduction versus abduction. Okay, you'll hear people say a deduction and |
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| 18:19 | deduction because ab and AD can sound awful lot of like when you're talking |
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| 18:25 | . All right, we also have . Circumspection is a combined movement. |
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| 18:31 | basically I'm moving my arm up and moving my arm down and I'm flexing |
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| 18:34 | I'm rotating. And basically all I'm is I'm moving my arm in a |
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| 18:40 | like position, but notice it's it's that rotation is not around the |
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| 18:46 | it's rotating around the cone. And it requires all these multiple movements. |
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| 18:51 | it's abduction abduction, flexion extension, on and so forth. All |
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| 18:57 | so sir, conduction creates a cone space with the arm with regard to |
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| 19:03 | rotational movements and again, I encourage to get in front of the mirror |
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| 19:07 | just do these things but your notes and kind of look at and |
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| 19:10 | okay, here's this all right, movement. Remember is movement around along |
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| 19:19 | . Alright, so when I'm talking rotation there's lots of different types of |
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| 19:24 | . I can do. No. , So I'm rotating the spine, |
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| 19:30 | ? The vertebrae are rotating to allow to create that no movement. I |
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| 19:36 | rotate my arm and this is the way to see it. I'm rotating |
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| 19:43 | the humerus, right? So these examples and then you can see with |
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| 19:48 | to the legs I can rotate. this is the hokey pokey right. |
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| 19:52 | my left foot in, put my foot out, put my left foot |
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| 19:57 | and I shake it all about. that is that rotation right? You |
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| 20:04 | do it this way I put my out or I can rotate in. |
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| 20:09 | lateral, that's medial. All Same thing that would be lateral, |
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| 20:16 | would be medial, lateral medial Okay, if you've been a runner |
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| 20:25 | any period of time, you learned your feet have some sort of rotation |
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| 20:30 | them. Either you refer to it a runner as separate nation and pro |
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| 20:36 | . That is an incorrect use of term. Alright, there's an actual |
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| 20:40 | for the feet. But somewhere somehow who made shoes and runners picked up |
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| 20:46 | these two terms and started started using incorrectly. So it's a rotation. |
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| 20:52 | what it refers to is the rotation in the lower limbs. Alright, |
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| 20:57 | remember what we said if you think the two bones right there parallel to |
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| 21:03 | other. If I have found I if I'm in the normal anatomical |
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| 21:07 | right? My radius is on the , my owner is on the inside |
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| 21:12 | I move my wrist over, that pro nation right now. My radius |
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| 21:18 | is still here crosses over this My owner which starts here crosses under |
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| 21:24 | that X. Alright, so the are crossed when I returned back to |
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| 21:29 | original position that is supper nation. pronation separate nation. Okay, so |
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| 21:37 | you're a runner and you're sitting there away, I'm a separator. I'm |
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| 21:39 | pro nater. You're usually talking about do my feet sit? And we |
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| 21:43 | a different term for that. The term is in version and the |
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| 21:49 | All right, so here we're talking the feet when I run on the |
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| 21:53 | of my foot or step having a on the outside of my foot, |
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| 21:57 | pushing my sole of my foot inward the medial side. And so that |
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| 22:03 | an inversion when I step on the of my foot, right? So |
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| 22:08 | the bottom of my foot is kind pointing outward, you know, to |
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| 22:11 | lateral side. That is an E . All right now, how do |
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| 22:18 | remember that? Or how do you actually see whether or not you're evert |
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| 22:22 | or an inverter or an evert or can go take your shoes turn them |
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| 22:27 | down and see where the where Right. So, I'm an |
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| 22:31 | If you go and look at my are all worn on the outside, |
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| 22:36 | ? Because I'm basically walking on the of my phone. People like that |
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| 22:42 | . Yeah, you'll notice it the you get, the more you'll feel |
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| 22:47 | too. Alright, And then we the pointing of the tow. All |
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| 22:53 | . If I'm a ballerina and I my toe, I'm pointing my toe |
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| 23:00 | . That is plantar flexion. All . Remember the bottom of the foot |
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| 23:04 | the planter region. So I'm flexing the bottom of my foot when I |
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| 23:10 | my toe towards my knee. That Dorsey flexion. Alright, So I'm |
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| 23:16 | it towards the dorsal side of my is the way they you would basically |
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| 23:21 | about it. All right. So are special movements. They don't fall |
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| 23:25 | that category of angular even though there a change in the angle here. |
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| 23:30 | like, okay, these are unique the particular joint that we're looking at |
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| 23:38 | for some other weird ones. Here's the other word ones. |
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| 23:44 | Pra traction and retraction. All Pro traction is when I closed or |
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| 23:52 | up a bone. Alright? So I'm confused, that would be a |
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| 23:57 | traction. When I put my arms down, my shoulders, back |
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| 24:01 | That's retraction. That's a hard one see. So they usually use the |
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| 24:05 | with the jaw right when I dropped mandible. That's pro traction. I |
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| 24:11 | that right in elevation. Excuse It's this one got to do this |
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| 24:17 | ? It's the I don't know. then retract. Protract, Retract |
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| 24:29 | You want to try it? Not moving right, elevation and depression. |
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| 24:37 | I got I got that wrong. when I did the shrug, that's |
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| 24:40 | and depression. So when I elevate, that's depressed. Elevate |
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| 24:45 | So I got those backwards. Um thing that makes humans unique or primates |
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| 24:55 | is our thumbs. But we have term for it. We don't just |
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| 24:58 | our thumbs. What do we call ? Impossible. Right? We have |
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| 25:06 | thumbs that allows us to grip Primates can grip, right? So |
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| 25:11 | you can take your thumb and touch forefinger, that's opposition, right? |
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| 25:18 | when you separate them, that reposition reposition and you can do that all |
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| 25:26 | way around, right? But people animals over in primates don't have |
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| 25:34 | Alright, that's a cool double joint there. Okay. It allows us |
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| 25:40 | grasp objects. So those are the and again, use your body as |
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| 25:47 | cheat sheet. Go and practice these to help you remember them, you |
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| 25:51 | , look at them in the mirror when you're on the test and you're |
|
| 25:53 | there going, okay, depression, one is it? Yeah, you |
|
| 25:59 | do that and it's funny to watch take the test to So what I |
|
| 26:08 | to do now is I want to down the different joints. We said |
|
| 26:10 | are three different types. So there's fibrous joint, cartilaginous joint. And |
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| 26:14 | said there's a synovial joint. And our starting point here are the fibrous |
|
| 26:21 | . I'll be the first to admit some of these pictures are not very |
|
| 26:24 | because they don't align correctly in terms like here's this. So when you're |
|
| 26:29 | at these slides and make sure you're on the right picture. Alright, |
|
| 26:32 | there are three different types of fibers . We have the compass sees the |
|
| 26:36 | and the cinema Asus. Alright. compasses singular. Alright. The |
|
| 26:41 | there's the compass is there's only one emphasis or emphasis in our body. |
|
| 26:48 | where our teeth are in our Okay. And so here it |
|
| 26:52 | right down here. Right? It's it's an immovable joint. So it's |
|
| 26:57 | sin arthur sis right? You can grab a tooth and it doesn't |
|
| 27:02 | Hopefully. All right, if you at a tooth, you will see |
|
| 27:08 | there is a ligament between the tooth the bone itself. That's the periodontal |
|
| 27:13 | . That is what's holding in a . That's why it's a fibers joint |
|
| 27:16 | there are fibers between the bone and tooth itself. That's the emphasis peg |
|
| 27:22 | socket is what that literally means. , sutures. We've we've seen |
|
| 27:28 | We saw them in the skull This is a joint. So here |
|
| 27:32 | can see the bones and what you in between them are fibers, connective |
|
| 27:37 | holding those bones in place. Now other truth about the future is that |
|
| 27:43 | are like jigsaw puzzles. They're held place because of the interlocking pieces. |
|
| 27:48 | they have these irregular edges and then basically glue the regular edges together with |
|
| 27:53 | fibrous connective tissue. So that's the . And the last one is a |
|
| 27:59 | nemesis. Alright. The cinemas is is what we're dealing with. A |
|
| 28:04 | . Alright. So you can see here's the fibula and the tibia or |
|
| 28:07 | . Excuse me, there are more more than this. The only the |
|
| 28:10 | to have these as well. And you have is you have a ligament |
|
| 28:14 | connects the two bones together so that two bones are held in close Opposition |
|
| 28:19 | to 1 1 - one another. me. All right now these have |
|
| 28:26 | little bit of movement to them I'm gonna bother James let me have |
|
| 28:30 | wrist again. Alright. So if come down a little bit lower, |
|
| 28:34 | can just kind of play and you see there's movement there. Alright. |
|
| 28:39 | he could resist me. Right? I could sit there and move And |
|
| 28:43 | still see there's a little bit of shimmy. Not a lot of the |
|
| 28:47 | but a little bit of one. right. And that's a function of |
|
| 28:51 | joint because the ligaments are just holding two bones together. But allow for |
|
| 28:55 | little bit of freedom of movement. it's an amfar theses with regard to |
|
| 29:05 | cartilaginous joints. There are two All right. And this is where |
|
| 29:09 | have to remember. All we're looking . Right here is we're looking at |
|
| 29:13 | picture. You can put a big X into that one? I just |
|
| 29:16 | divide the two sides up. All . So what do we have with |
|
| 29:21 | sunken Drusus. Alright, so it's car legislators called us in congress is |
|
| 29:27 | you have is you have a bone with highland cartilage. So the epithelial |
|
| 29:32 | before they close is an example of a better example, which they didn't |
|
| 29:37 | a picture. But should be or about the bones, your ribs, |
|
| 29:42 | ? The costal bones think about your which was a bone and then in |
|
| 29:48 | them was cartilage. Right? So an example of a sunken Drusus. |
|
| 29:55 | , so it's bone cartilage bone. not movable. So it's classified as |
|
| 30:04 | sin arthur cyst. All right. you say wait a second. I |
|
| 30:07 | push on your chest and your chest up and down. Yes, but |
|
| 30:11 | not that the bones are moving against other. All right. The the |
|
| 30:23 | . There's another type of card. one. So again, you can |
|
| 30:25 | this one out and we're focused Alright, So there's slight mobility in |
|
| 30:30 | of these instead of it being highland . What we have is fiber |
|
| 30:35 | Alright, bro, cartilage has a more movement in it. All |
|
| 30:40 | So these are ambar theses. And here's the pubic synthesis. Again, |
|
| 30:45 | is one where you have to get from the person because if you want |
|
| 30:48 | grab someone by the hips and see movement. It's it's a little bit |
|
| 30:52 | intimate. Right? Um But this joint right there. The pubic synthesis |
|
| 30:59 | one of those joints that has a in it. There are other places |
|
| 31:03 | the body, the inter vertebral That's a little bit easier to |
|
| 31:07 | You can go and you can see kind of movement. Like. So |
|
| 31:11 | granted I'm pulling on uh bones up and what you're doing is you're kind |
|
| 31:16 | seeing if you look very closely at , you'll see the vertebral discs, |
|
| 31:21 | inter vertebral disc making slight movement and in response to the push in the |
|
| 31:27 | . Right? But you probably go to somebody and and play with their |
|
| 31:30 | a little bit. And you could see a little bit of that |
|
| 31:36 | So the cartilaginous joints, this takes to where we finally get to |
|
| 31:42 | All right, these are joints that more familiar with, joints that I |
|
| 31:46 | picture. Alright, so all the ones are joints but we don't really |
|
| 31:51 | about them as being joints. I when you think joint, right? |
|
| 31:55 | you think joint, you think movement these are a function of the synovial |
|
| 32:01 | , the synovial joints have some unique to them. This is just a |
|
| 32:06 | one, trying to show it to . The first thing it has is |
|
| 32:08 | articular uh as an articular capsule. , so the idea is I have |
|
| 32:14 | area set off and protected that kind isolates the joint itself. All right |
|
| 32:21 | that joint, you'll have an area cavity that's going to be filled with |
|
| 32:26 | fluid. Synovial fluid is secreted by membrane that makes up that cavity. |
|
| 32:32 | what it does is it provides a pressure resistant fluid so that the bones |
|
| 32:38 | rubbing up against each other and grinding down. Alright, liquid buy in |
|
| 32:44 | of itself water uh kind of resists compressed and so that's kind of what's |
|
| 32:49 | on with this synovial fluid. The thing is because it's lubricating, it |
|
| 32:54 | reduces friction in the joint and to reduce friction even further. The bones |
|
| 32:59 | are associated with that joint are going be covered in articular cartilage, that's |
|
| 33:03 | this is trying to show you. here's the articular cartilage that's smooth to |
|
| 33:07 | with. So you've got to smooth rubbing up against each other and you |
|
| 33:10 | a lubricating non compressible fluid in between . There's less pressure in there. |
|
| 33:16 | , So if you lose that fluid if you start losing the articular cartilage |
|
| 33:20 | the bone begins grinding against bone and starts breaking down. That's not a |
|
| 33:25 | of fun. The last thing that joints have is you're gonna have a |
|
| 33:30 | bunch of ligaments that are going to found on the outside or on the |
|
| 33:34 | , depending on on the joint that going to provide a structure or strength |
|
| 33:40 | reinforce that joint. So if they found on the outside, they're referred |
|
| 33:44 | as extrinsic, if they're found inside joint capsule, they're referred to as |
|
| 33:48 | intrinsic. So extrinsic is always outside is internal to All right now, |
|
| 33:55 | are what we refer to as die is meaning that they allow for free |
|
| 34:00 | . Alright, So that's why it's easy one to remember, or the |
|
| 34:04 | we think about when we think about so far so good. Mhm. |
|
| 34:17 | , usually associated with a joint, part of it, but associated with |
|
| 34:22 | called bursa or tendon sheets, they're same thing. It just has to |
|
| 34:27 | to the shape of it. And really what a bursa is, |
|
| 34:31 | tendon sheath is, is just like synovial capsule. Um It's a structure |
|
| 34:38 | wraps itself around a tendon filled with and it kind of serves as ball |
|
| 34:45 | to those tendons. Alright, So job is to alleviate friction. All |
|
| 34:52 | . And so they're trying to show , this would be the carpal region |
|
| 34:57 | right there is your carpal tunnel, have a whole bunch of tendons that |
|
| 35:04 | ligaments that kind of roll through And so when you do this kind |
|
| 35:08 | movement, you're gonna be pulling on tendons and ligaments and they need something |
|
| 35:13 | roll across and that's what the bursa for. But if you do that |
|
| 35:17 | whole bunch, you're going to create because naturally when two things rub against |
|
| 35:21 | other, you create friction and you cause inflammation in those bursa and then |
|
| 35:28 | the bursa inflamed, they wrap tighter the tendon and it becomes harder to |
|
| 35:33 | , it becomes more painful to We call that carpool tunnel syndrome. |
|
| 35:43 | , so that's an easy way to . But you don't just have it |
|
| 35:45 | your hands, it's all over the . You got Bursa everywhere. Um |
|
| 35:51 | you've been around old people long you'll start hearing them complain about their |
|
| 35:56 | . Alright, Bursitis is simply inflammation the bursa. All right. So |
|
| 36:03 | this does is we're going to start specifically at different types of synovial |
|
| 36:09 | There's lots of different types. All . And they allow for different types |
|
| 36:14 | movements and it's gonna kind of put perspective some of these structures on the |
|
| 36:18 | that we were looking at earlier. right. And as I promised, |
|
| 36:22 | said here, we can see the in three dimensions. All right |
|
| 36:28 | this is in reference to an airplane to a boat. But it's also |
|
| 36:32 | to look at with regard to a because it shows you the different types |
|
| 36:38 | movements up and down is easy, down left, right. That's easy |
|
| 36:42 | of thinking for us. But it's so easy to think about something moving |
|
| 36:46 | this direction as an angle, Or like this as an angle or |
|
| 36:55 | as an angle and that would be pitch the role in the yard. |
|
| 37:02 | right now, we're not going to those terms. Those are again, |
|
| 37:05 | that are typically used when you talk a boat or a plane rolling is |
|
| 37:10 | to picture, right? That would a role, right? But it |
|
| 37:14 | of shows you now, oh, moving into planes simultaneously so if I'm |
|
| 37:21 | this yeah, that's not just one , that's two planes at the same |
|
| 37:26 | and that's creating that ya if I'm flexion and extension, that's two planes |
|
| 37:32 | the same time. That's just like pitch. Okay, so that's why |
|
| 37:38 | like using this to help you kind visualize what's going on? All right |
|
| 37:43 | , the way we classify joints are to be dependent upon the articular surface |
|
| 37:48 | well as the type of movement that's allowed. Alright, so it's talking |
|
| 37:51 | the degrees of freedom that each joint at and it's again it's going to |
|
| 37:56 | based on that articular surface. We describe the movement as what plane does |
|
| 38:03 | move in. Is it a uni ? Is it bi axial? Or |
|
| 38:07 | it multi axial? And so when say multi axle we can define it |
|
| 38:11 | pry axle or whatever. Alright. it basically says doesn't move in one |
|
| 38:16 | . Doesn't move in two planes or move in more than two planes. |
|
| 38:20 | . And so we're gonna obviously start the easy part. Which one is |
|
| 38:23 | easy one One plane. And we've seen that. Alright, that's a |
|
| 38:29 | joint in joint is basically non axle has the least mobile. It allows |
|
| 38:36 | gliding movements. And so you're basically there going, it doesn't really move |
|
| 38:41 | that much. That would be your bones, for example. Alright, |
|
| 38:45 | that's non actual. That's a plane . So uni axial, a little |
|
| 38:51 | more movement. All right. you can think to flat surfaces rubbing |
|
| 38:56 | each other. Getting to the uni , feels this is what we're talking |
|
| 39:05 | hinge and pivot joints. Now hinges to think about. All right, |
|
| 39:09 | you're gonna have, you're gonna have sort of cylindrical projection and then you're |
|
| 39:12 | have something that cuts around that that cylinder and allows the cylinder to |
|
| 39:18 | in that that socket. That would a hinge joint. Alright, |
|
| 39:24 | what we're allowing here in a hinge flexion and extension. The easy example |
|
| 39:29 | think about is to think about a hinge. If you can't visualize |
|
| 39:33 | Go and look at the door at house and look at that and |
|
| 39:35 | oh yeah, I can see I've got something where I have a |
|
| 39:40 | that is being allowed to turn within context of the thing that wraps around |
|
| 39:47 | . Now, the example they're using , is there going to be using |
|
| 39:51 | elbow? Specifically? The owner Hugh joint. The humor owner owner |
|
| 39:57 | Really? All right. The other of uni axle is what is called |
|
| 40:01 | pivot joint, you can again think this as kind of like a |
|
| 40:06 | but it has something a little bit specific here, what we have is |
|
| 40:09 | have a long bone that's going to through some sort of socket, some |
|
| 40:14 | of hole. And what you can then is you can rotate the long |
|
| 40:18 | and keep it in place because of thing that wraps around it. |
|
| 40:22 | the example, the joint they're showing here is the atlas, um the |
|
| 40:27 | axial joint. Alright, And so is your atlas sitting on top of |
|
| 40:32 | axis. The axis has this little of the bone that sticks up and |
|
| 40:36 | inserted into the atlas. And so you can basically rotate, it's really |
|
| 40:43 | the atlas around that that point. right, but that's not the only |
|
| 40:49 | you're gonna see it. All you're gonna see it in a couple |
|
| 40:52 | other places as well. So, that the sleeve, the thing that |
|
| 40:57 | wrapping around that long bone can be ligament as well. So, when |
|
| 41:01 | doing this waving at you, that's rotation, that rotation occurs because there's |
|
| 41:09 | long bone inserted through a ligament that the ligament from flying off for the |
|
| 41:16 | from flying off. It just rotates the context of the ligament. That |
|
| 41:21 | sense. That's uni axles. When get to the bi axial. Now |
|
| 41:29 | we're doing is we're talking about movement multiple planes right? In two different |
|
| 41:35 | . So what we have is with condo I'll joint or the consular |
|
| 41:41 | This is a little bit hard to but I want you to think of |
|
| 41:44 | fist. Look at, look at shape of the fist. Is it |
|
| 41:48 | ? Is it perfectly round? Doesn't No. It's more shaped like an |
|
| 41:52 | , isn't it? Okay, so you're dealing with the consular joint, |
|
| 41:57 | of the bones has kind of an shape to it like that. And |
|
| 42:02 | means the receiving bone articular surface of is also shaped in kind of an |
|
| 42:09 | . So it kind of sits in like so. All right, so |
|
| 42:14 | that because I'm oval shaped, that I can rock in one direction |
|
| 42:20 | So basically rocking back and forth this or I can rock back and forth |
|
| 42:24 | that direction. What I can't do I can't rotate because if I did |
|
| 42:30 | pop out of the socket, wouldn't ? So with the condor joint or |
|
| 42:36 | condo Lloyd joint you're going to have oval shape That prevents that allows movement |
|
| 42:42 | one direction and rock the other but not in rotation. Now they're |
|
| 42:48 | the radius here but I'll give you example. I can wave at you |
|
| 42:56 | I can't turn my finger can It doesn't rotate and wag it but |
|
| 43:05 | can't rotate it, can you? right. One that's similar is the |
|
| 43:15 | at the thumb. Alright? The metacarpal joint. Alright. It's a |
|
| 43:19 | joint. Alright? You've all seen saddle before? Right? Think of |
|
| 43:24 | on a horse, right? The on a horse kind of goes like |
|
| 43:28 | right now. I want you to that and take another saddle and turn |
|
| 43:32 | upside down and then put them on of each other, right? So |
|
| 43:36 | can go this direction right? Or can go this direction but I can't |
|
| 43:44 | . So my thumb you can go and forth. It can go side |
|
| 43:49 | side because of those two articular but I can't rotate my thumb. |
|
| 43:57 | right. Now again, the difference , even though I have used my |
|
| 44:01 | in both examples, right? Is I have greater degrees or greater range |
|
| 44:07 | motion with my thumb and my fingers ? My fingers are limited in how |
|
| 44:14 | movement they have my thumb. And of you are even better than me |
|
| 44:19 | move quite a distance away. You had a thumb war? All |
|
| 44:25 | So you have really good articulation of of degrees of freedom or freedom |
|
| 44:32 | And you can really get somebody But it's because of the articular shape |
|
| 44:37 | allows that type of movement vs. one so condo Lloyd versus saddle and |
|
| 44:50 | the last one is our most movable . The ball and socket. It's |
|
| 44:56 | of like the condo Lloyd joint except of it being ovular in shape or |
|
| 45:00 | in shape. It's round in shape it sits in a round socket. |
|
| 45:04 | if it's around and in the that means not only can I rock |
|
| 45:08 | any direction, I can also rotate . A balkan wrote in in a |
|
| 45:15 | and that's kind of what this It's basically a bowl and a ball |
|
| 45:19 | you take the ball and you can a whole bunch of different things in |
|
| 45:22 | . All right, so complete freedom movement. We refer to it as |
|
| 45:26 | tri axle because you can go back forth and then you can twist in |
|
| 45:35 | . Any questions about any of those types. Mhm. Now the |
|
| 45:42 | Yeah. So when you're talking about ankle and we're going to see, |
|
| 45:50 | think we do the ankle here. it's a hinge joint. Right? |
|
| 45:54 | you can think about, remember we about the male leola, malleable i |
|
| 45:58 | the tibia and the fibula. And we had the tallis and then what |
|
| 46:02 | did is we inserted there and so we have movement in the hinge. |
|
| 46:08 | can't really turn that way, it want you to and with the reinforcement |
|
| 46:13 | your ligaments. Trying to turn your is really hard. That's why it |
|
| 46:17 | when you turn your ankle when you on it wrong because it doesn't want |
|
| 46:22 | go that direction. Say again. , I I think I'm having a |
|
| 46:29 | time hearing when you have a mask , you really have to project through |
|
| 46:32 | mask because most of your sound gets back. So you have to say |
|
| 46:36 | one more time. Yes. So it's when you say when I |
|
| 46:41 | my ankle, what you're really saying I'm moving it in a direction or |
|
| 46:45 | shape or or I'm doing a movement is not designed to do. So |
|
| 46:50 | your ankle, turning your ankle. thing can't twist an ankle. I |
|
| 46:55 | , think about what the movement is remember we said the rotation when I |
|
| 46:59 | my left foot to uh lateral Where's my rotation taking place? Is |
|
| 47:04 | in my ankle? Is it in knee or is it in my |
|
| 47:10 | Think about the movement to my right. So this is one of |
|
| 47:16 | things you can do if someone will you touch them right? As you |
|
| 47:20 | , let me hold your thigh, is not an easy thing to hold |
|
| 47:24 | of big. Now try to Alright, and you try if they |
|
| 47:30 | to rotate, you're going to see you're gonna feel it up here. |
|
| 47:33 | if you can resist it, they twist their lower limbs because that rotation |
|
| 47:39 | taking place up in the hip, ? You can hold them, you |
|
| 47:44 | down by the by the ankle. say at the lower extremity, do |
|
| 47:49 | same thing, Same twist, turn ankle, they can't do it because |
|
| 47:53 | ankle only allows very limited movement along side. And that's just the give |
|
| 47:59 | the joint. All right. So that in mind, let's take a |
|
| 48:06 | at some very specific joints that you know. You got the tmJ |
|
| 48:15 | The temporal mandibular joint, It's just very long work. Alright, first |
|
| 48:20 | , when you see these names, freak out. All they do is |
|
| 48:23 | name the two bones that are associated the joint. Alright. That's kind |
|
| 48:27 | the easy thing. So, whenever get lost or confused, time |
|
| 48:31 | what is the word I'm looking All Right, So, temporal mandibular |
|
| 48:35 | , it's between the temporal bone and mandibular or the mandible. All |
|
| 48:41 | now, what we have here, is our this is our chewing. |
|
| 48:46 | is how we lower our jaw. . So, what we have is |
|
| 48:50 | have our surrounding it which is not . We have this articular capsule, |
|
| 48:54 | a whole bunch of ligaments that support . And what we're gonna do is |
|
| 48:57 | gonna see a hinge like movement. , now, that's the easy one |
|
| 49:01 | think about. Like I dropped my , right? And I closed my |
|
| 49:05 | . That's that's easy. But when eat, what we're doing is we |
|
| 49:11 | to create force. We need to a bite force. All right. |
|
| 49:14 | so if you look at this, bone right here in the temple, |
|
| 49:19 | temporal bone is very, very And if I press down on that |
|
| 49:24 | enough force it's gonna break. That do us any good. But we |
|
| 49:28 | that fossil because we need something to a hinge in. Right? |
|
| 49:33 | here's our fossa. Here's the right? And so, what we're |
|
| 49:38 | is we're rotating in there. But happens is when we open our |
|
| 49:43 | the ligaments allow the jaw, the portion to to move out of that |
|
| 49:51 | to this to Brickell. It's called articular to brickell because it's a |
|
| 49:58 | All right. And so, what doing is we're now pressed up against |
|
| 50:02 | that's a little bit harder. So bite down. The pressure is against |
|
| 50:06 | articulate caps or that tuber cole, instead of sliding back into the |
|
| 50:12 | which would be useless. What it is it forces our jaw to slide |
|
| 50:18 | to one side, and then once slides up to one side, and |
|
| 50:21 | you press down, then it slips into the fossil. Once your jaws |
|
| 50:25 | back into place. All right. to visualize. Go watch a video |
|
| 50:30 | a cow chewing cud. That's an one because cows have a really exaggerated |
|
| 50:36 | , right? So, it slides right. Now, if you want |
|
| 50:42 | see yourself do it. Go get piece of gum. Usually, what |
|
| 50:45 | would ask is usually usually there's at one person chewing gum in here and |
|
| 50:50 | the 1000 masks, you never know going on. So but you use |
|
| 50:55 | . Alright, chew the gum. watched a person chew the gum. |
|
| 50:57 | like no I'm not gonna do that the moment they get pointed out that |
|
| 51:00 | have done they flash back to high with that little old lady that says |
|
| 51:03 | it, spit it in my Did you have that teacher? |
|
| 51:08 | It's always an old lady and she liked the gum chewing. I never |
|
| 51:12 | then she wants you to spit it her hand. That's gross. |
|
| 51:18 | Anyway but watch watch yourself chew It's like it stays on one side |
|
| 51:22 | it's like slide, slide, slide, slide board, stick to |
|
| 51:27 | other side, slide, slide, , slide, it goes the other |
|
| 51:30 | over and over again. So it's gliding motion that's following the hinge motion |
|
| 51:38 | ? Because the job is sliding in direction. Alright that's what we refer |
|
| 51:44 | as a lateral excursion. So temporal joint hinge between the temporal bone and |
|
| 51:50 | mandible bone or the mandible mandible The mandible. And then when you're |
|
| 51:56 | down how the action creates a gliding because of the repositioning of the bone |
|
| 52:03 | that articular. To brickell. The joint is the glen Oh humorous |
|
| 52:11 | All right. The humerus and then Glenwood cavity of the scapula. All |
|
| 52:18 | now here we have a very very you see the surface of of the |
|
| 52:24 | cavity, very, very shallow. to move that bone in and out |
|
| 52:28 | there. So what we have to is we have to create stability to |
|
| 52:33 | that the judges isn't slipping. So first thing you have is you have |
|
| 52:37 | Glynn oid labrum, which is basically connective tissue that is sitting within the |
|
| 52:43 | that kind of creates a little lip kind of say, well we'll make |
|
| 52:46 | a little bit deeper. Not a deeper, but just enough. So |
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| 52:49 | the first thing. And then what gonna do, we're going to wrap |
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| 52:52 | whole bunch of ligaments all over this to ensure that that you're creating even |
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| 52:57 | stability. So there's three ligaments that particularly important in terms of reinforcing. |
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| 53:03 | again, they're not labeled up So you're not going to have to |
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| 53:05 | identify but think about what we're doing . The names. Tell you |
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| 53:09 | they go from the core cause the coy process to the criminal process. |
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| 53:14 | when we looked at the scapula, pointed out there is these two points |
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| 53:17 | we're saying there's a ligament that crosses those two points. So what it |
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| 53:21 | , it creates a support along those points so that the shoulder doesn't go |
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| 53:26 | up between those two things. humorous. It's between the cork oid |
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| 53:31 | the humerus. So basically comes across way and then the glint of humor |
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| 53:35 | from the glen oid cavity downward to humerus. So what we've done is |
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| 53:40 | basically are holding the humorous in place these ligaments, right? But we |
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| 53:46 | want it too tight because we still all that freedom of movement. And |
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| 53:49 | really what we have is we just a series of muscles that cross over |
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| 53:53 | , that's gonna be the primary stabilizers that. And so I don't know |
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| 53:58 | you. Um You know, I out three times a week and I'm |
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| 54:02 | and my shoulders are like in terrible from years and years of doing stupid |
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| 54:07 | . And so like when I do lifts, I can't do heavy weights |
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| 54:12 | all. It's it's a nightmare for because I just don't have the support |
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| 54:18 | I should right? Probably should get surgery. But yeah, that's not |
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| 54:22 | to happen. Alright. But that's the stabilizers, right? There |
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| 54:28 | those muscles, the deltoid muscle being primary there. Now there are also |
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| 54:32 | bursts in here again, they're not if it's really being shown. And |
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| 54:37 | this picture doesn't show them all But you can imagine there's bursa that |
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| 54:42 | so that when I pull on this muscle rotates around the bursa that reduces |
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| 54:48 | friction, The elbow joint is actually separate joints. All right now, |
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| 54:57 | I think about the elbow. I about this type of movement. What |
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| 54:59 | of movement is that? It's a movement. Alright? So it's a |
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| 55:05 | joint, right? Doesn't do anything in any other direction other than that |
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| 55:11 | . So the three parts of the joints that are there is the humerus |
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| 55:15 | , the human will radio and the owner. Now again you've learned these |
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| 55:20 | When we looked at the bones we here's the humerus, humerus is associated |
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| 55:24 | the radius and the humerus is associated the ulna. And we said the |
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| 55:27 | and radius are interacting as well, touch each other. So whenever a |
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| 55:31 | touches another bone that's a joint and the combination of these three joints that |
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| 55:36 | rise to the overall joint. Now one that's most important important in this |
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| 55:42 | regards to its movement is the humor joint. Alright. We remember we |
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| 55:46 | we had the trophy clia on the and then we had that trow clear |
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| 55:51 | . And so it's that notch where trow clia sits in and that allows |
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| 55:57 | movement like a hinge. All so that's what gives it the flexion |
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| 56:04 | extension that you see. All right the human radio remember we had the |
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| 56:11 | um is associated with the head of radius that just stabilizes the joint. |
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| 56:16 | , So instead of it being this tiny hinge that could be knocked to |
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| 56:19 | left and to the right. That um basically serves as a way to |
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| 56:25 | on the lateral side the joint. ? So now you can't get movement |
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| 56:32 | outward. The last one is the owner joint. And this is a |
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| 56:37 | joint. And the reason it's a joint is because of the annular ligament |
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| 56:42 | between the radius and the illness. what happens is um it goes from |
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| 56:48 | owner and then it wraps around and back to the owner and then the |
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| 56:53 | of the radius sticks through that. , so you can think that this |
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| 56:58 | the alma then you have the annual like that and then the radius sticks |
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| 57:02 | there like so. Alright, and that allows is the pronation and the |
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| 57:06 | nation right now think about buy hold . It's not easy to do. |
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| 57:13 | better if you can do it I can do this movement just |
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| 57:18 | And then if I try to rotate I'm trying to do it without using |
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| 57:23 | shoulder, right? That's about the of movement I have right because of |
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| 57:32 | support of that radio side, I do this just fine. All |
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| 57:40 | So there are two ligaments that helped enforce the lack of movement side to |
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| 57:48 | the radio and the owner collateral So when you see the word collateral |
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| 57:52 | about collateral damage, what is collateral ? If I'm aiming at a |
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| 57:57 | what would be collateral damage the stuff the outside of it, right things |
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| 58:02 | I wasn't aiming for right. So sits on the outside and that's what |
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| 58:07 | are the radio collateral ligament would be the radio inside of the radius, |
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| 58:11 | the outside. The ulnar collateral ligament be on the ulna on the |
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| 58:17 | And that's what's preventing you from going to side. Again, not shown |
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| 58:22 | the picture. I'm not going to at this and say identify. But |
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| 58:26 | should know what does a collateral ligament prevents movement on the outside. |
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| 58:35 | notice we're just kind of going down , we're going down to the hip |
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| 58:38 | . So, we did a big here, big joint here, |
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| 58:42 | We did a big joint up in the jaw. So now we're in |
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| 58:46 | hip joint, it's a ball and , just like the shoulder joint |
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| 58:52 | the difference is we have to have strength and stability in the hip because |
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| 58:56 | body weight is being uh passed through structures and uh you know, that |
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| 59:04 | to be able to be supported through . Alright, so, again, |
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| 59:08 | gonna have limited movement, We're still have high degree of freedom, but |
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| 59:12 | limited relative to, say our we have a very deep socket that's |
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| 59:17 | formed by the asi tabula. Um the asi tabula, is that point |
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| 59:21 | contact on the Oscar hoxha. And then what we're gonna is gonna |
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| 59:26 | some more fiber cartilage around that. we're gonna create. So here's our |
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| 59:30 | tabula. Um And then we're gonna in a little bit more fiber |
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| 59:35 | And so it makes the socket even . All right. So you can |
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| 59:39 | here here's the asi tabula, And then we're gonna put a little |
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| 59:44 | more on the outside and that makes deeper. So that's going to prevent |
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| 59:50 | . Then on top of that we're to get a whole bunch of |
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| 59:53 | ili ephemeral, what tooth bones are by the iliad ephemeral in the in |
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| 59:59 | femur. Alright. And you can of a sudden see, right, |
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| 60:02 | do we have here? We have ilium the scheme and the pubis. |
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| 60:06 | basically it's saying I'm going to take ligament and attach the femur to each |
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| 60:10 | those three bones. And so that's to limit the movement in the |
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| 60:16 | And then we have muscles that cross . We have tendons, that |
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| 60:20 | We're not gonna bother naming them all that's going to limit the range of |
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| 60:24 | even further. Now again, it's horribly limited. I mean, I |
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| 60:31 | showed you what I could do right that, but I can't do |
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| 60:36 | right? And that's a function of number of ligaments as well as the |
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| 60:40 | of that ball and socket prevents me doing all the same things I can |
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| 60:45 | with my shoulder. So I lose of freedom or freedom of movement. |
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| 60:51 | I could create greater or stronger joint that point. It's really hard to |
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| 60:58 | a hip. I just want to here. Okay, So I don't |
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| 61:13 | the ankle. Okay. All we're do is we're doing the knee. |
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| 61:16 | this is our last joint. All . It's primarily a hinge joint when |
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| 61:24 | think about it. What does my do? I can do this. |
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| 61:27 | can flex and extend. I really do much else with it. |
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| 61:32 | I can't push my leg outward, ? But the reason it's a hinge |
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| 61:37 | is because of its structure. It's two kandahar joints that are side by |
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| 61:44 | . So when we look at the , remember what we said? We |
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| 61:47 | down and we have a bike on structure. So I'm gonna use my |
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| 61:53 | as an example of this would be bottom of the femur. We have |
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| 61:56 | ill and we have another con Right? And then they're gonna sit |
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| 62:01 | with the tibia. You can see there's the top of the tibia or |
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| 62:05 | superior view of the tibia. We fiber cartilage on the top of the |
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| 62:09 | of the superior end of the tibia create these sea like minus key. |
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| 62:14 | then so you're conned. I'll sits that fiber cartilage. Now you need |
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| 62:18 | fiber cartilage there just because of the of pressure. The amount of pressure |
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| 62:21 | putting on your knee. But what doing is you're also creating that cup |
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| 62:25 | the condo. I'll needs to sit in order for its movement. |
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| 62:28 | remember what we said at the It's it's oval in shape. It's |
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| 62:32 | in a cup that's oval in So that means it can rotate this |
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| 62:36 | and it can rotate that direction. when I put two of them side |
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| 62:39 | side, they have to be able rotate in the same direction, |
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| 62:45 | So, I'm just gonna use my . Right? So, if I'm |
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| 62:48 | two cups, I can't make cups my hands. So, if I |
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| 62:52 | rotate this direction simultaneously. But if rotate this direction, I'm creating separation |
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| 62:58 | that's impossible. I don't want So, what happens is because I |
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| 63:02 | to conduct isles. I'm forcing hinge . That can make sense. All |
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| 63:09 | . So they can only move together one direction. They can't move like |
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| 63:16 | . They'd be separating. All That's bad. All right. |
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| 63:24 | the structure of the joint is such there's so many ligaments associated with |
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| 63:30 | the structure of the joint is that you're in the state of extension, |
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| 63:34 | ligaments are tight. All right they're tighter. But when I go |
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| 63:40 | flexion, those ligaments are basically All right, So pretend you're being |
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| 63:51 | , right? You know what I'm about? Right now, look what |
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| 63:57 | , I get more movement now, there's some hip there, right? |
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| 64:01 | when I'm inflection, I can get little bit of side to side |
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| 64:06 | But when I'm extended, like I get any side to side movement right |
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| 64:15 | get a little bit there again. some hip that's involvement. Again grab |
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| 64:19 | hip and say can you do side side? You still can. All |
|
| 64:22 | . So again there's three joints. ? But think about what must what |
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| 64:27 | is touching? Which bone? So the first joint of which there |
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| 64:31 | two is the Tibia, femoral All right. Now remember there's two |
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| 64:36 | there because the femur has to conde . So con dial number one or |
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| 64:40 | medial con dial is touching the The lateral con dial is touching the |
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| 64:45 | . So that's why we say it's twofold um Connection or joint. All |
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| 64:53 | . The second or really the third there is not the fibula because remember |
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| 65:00 | fibula is only in connection with the . Instead it's the patella. The |
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| 65:07 | sits there and rotates around the So it's a patellar femoral joint, |
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| 65:12 | your kneecap. Okay. Now I'm this picture not because they've done a |
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| 65:25 | good job but what I want you think about is when we have an |
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| 65:28 | capsule because this is a synovial We're going to have the posterior side |
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| 65:32 | going to have capsule. We're going have the lateral and the medial side |
|
| 65:35 | going to have capsule. But the on the anterior side is actually incomplete |
|
| 65:41 | the reason for that is because it's by tendons of the quadriceps. So |
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| 65:46 | don't need to have a full All right. So it's not a |
|
| 65:50 | capsule. But you still have that that has synovial fluid and stuff. |
|
| 65:54 | we're gonna have tons of muscle. there's lots of muscle tendon that's around |
|
| 65:59 | . And then the ligaments and the are what are going to reinforce |
|
| 66:04 | Now there are a lot of In fact, I think it was |
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| 66:08 | five years ago they discovered another microscopic that was unique to the knee, |
|
| 66:16 | ? We don't need to know. had never seen it before. And |
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| 66:18 | only reason they discovered it because normally you do is you dissect the knee |
|
| 66:22 | it turned out every time cut through knee. You actually damaged the |
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| 66:26 | And someone went in and started doing MRI's or something and they kept finding |
|
| 66:30 | thing over and over again. It like microscopically small but again have collateral |
|
| 66:38 | , collaterals are on the outside. it's it's an extrinsic. So you |
|
| 66:44 | see here they're calling it the lateral the medial collateral ligaments here. But |
|
| 66:48 | also go by fibula and tibia and just tells you which which side you're |
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| 66:53 | , right? So fibula is gonna on the lateral side tibial is medial |
|
| 66:58 | alright. And set prevent your leg flip flopping in and out. You |
|
| 67:03 | like that. All right. These familiar with the cruciate ligaments, |
|
| 67:09 | You've heard the A. C. . Probably less so the PCL But |
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| 67:14 | called the cruciate ligaments because they cross each other, their intrinsic ligaments. |
|
| 67:20 | right. Now, the A. . L. Usually tear if you've |
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| 67:23 | your knee. Alright? Because what does, it's there to prevent |
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| 67:27 | The PCL is there to prevent hyper . Now, I've had fun with |
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| 67:35 | one. I like to tell this . How much time do I |
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| 67:39 | Oh man, I'm actually taking them full class because I'm taking my sweet |
|
| 67:43 | . All right, are you ready the story? All right. When |
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| 67:48 | was courting my wife, I'm going use that old old timey phrases. |
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| 67:52 | right. Basically, my girlfriend at times who became my wife, we |
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| 67:57 | out tubing on the frio river, ? It was her whole family and |
|
| 68:02 | there. I've got to be cool you know, trying to impress the |
|
| 68:06 | . So there's a little tiny Father in law goes over, Brother |
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| 68:11 | law. Goes over. Brother in goes over. My wife goes |
|
| 68:16 | Not my none of these are related me at this point. It's my |
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| 68:19 | and I go over, but my got stuck underneath the tube and when |
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| 68:24 | got stuck underneath the tube, I flexed my knee. Now, how |
|
| 68:28 | you hyper flex your knee? I you to just take your knee or |
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| 68:31 | about your heel and press it up your butt and then press it beyond |
|
| 68:35 | butt through your body. And I heard it go and I was |
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| 68:41 | probably cursed what you don't do in of your in laws. And I |
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| 68:45 | up and I'm now walking around trying guys what are we supposed to |
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| 68:48 | Wouldn't hurt ourselves. We walk it , alright. Played enough football, |
|
| 68:53 | know? You walk it off. you ok? Yeah, I'm |
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| 68:57 | I'll be I'll be ready so damage PCO and my pride. All |
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| 69:06 | Last ligament is this one right This is the patellar ligament. All |
|
| 69:10 | . And so you can see here's patella there's the tendon that's holding it |
|
| 69:13 | place, The patellar ligament holds it the tibia and so that's what allows |
|
| 69:17 | to slide back and forth over the . So, those are your joints |
|
| 69:25 | straightforward. I mean, the five slides a little bit more |
|
| 69:29 | but you can draw it out if need to the rest of it, |
|
| 69:32 | in front of a mirror. Do hokey pokey have a in theory, |
|
| 69:42 | a dry weekend, have a hopefully weekend. I think it's going to |
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| 69:46 | the same temperature the entire time. . |
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