| 00:02 | But I just Alright, here we . So today, like I said |
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| 00:11 | we're gonna be doing um uh talking articulations or joints. Uh This stuff |
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| 00:16 | actually pretty straightforward and the best way study to sit in front of a |
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| 00:20 | with a friend and sit there and weird movements. Okay. So what |
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| 00:25 | a joint specifically is where bone meets bone or where it meets some college |
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| 00:30 | where it meets teeth. Alright. so we're going to be using I'll |
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| 00:35 | saying joints all the time. But may see the word articulation, that's |
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| 00:37 | proper term for it. And really we're gonna do is we're gonna classify |
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| 00:42 | in one of two ways. You'll about these different types of classification. |
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| 00:45 | you just need to be able to , am I talking about structure or |
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| 00:49 | I talking about function? So when function, I'm basically looking at the |
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| 00:52 | of movement they use or the type movement that they allow versus structure, |
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| 00:56 | is which are the bones that are bound together. So you're gonna see |
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| 01:00 | used like you'll talk one way or switch to the other way. When |
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| 01:06 | were in kindergarten, you played with little toy or you were given, |
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| 01:10 | know, maybe it was first I can't remember which but they gave |
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| 01:13 | a tool for mathematics. You remember protractor, right? And you like |
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| 01:17 | it maybe once if you used it all? Right. Well if you |
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| 01:20 | to physical therapy, this is one your major tools and what you use |
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| 01:25 | for is to help determine range of . And so this is just kind |
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| 01:30 | an example of this for the Um everyone has a range of |
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| 01:35 | You know, each joint you look has a range of motion. This |
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| 01:38 | tells you the extent of mobility. is that joint supposed to do? |
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| 01:42 | then as a physical therapist, what can do is you sit there and |
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| 01:46 | move that leg, or the arm whatever the joint is that you're looking |
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| 01:50 | and you're asking to the fall within acceptable range or if it doesn't. |
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| 01:53 | how do we get it back to acceptable ranges? Alright, so range |
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| 01:57 | motion also will refer to the movement . And typically, what we're talking |
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| 02:02 | here are the synovial joints. We're learn that there are different types of |
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| 02:06 | . When we think of joints, primarily think of the synovial joints, |
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| 02:10 | uh but there are other joints that gonna be that we're gonna kind of |
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| 02:15 | at here as well. But so you hear the word for range of |
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| 02:18 | , you're probably talking about a synovial . And then the other thing that |
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| 02:22 | gonna be looking at is the degrees freedom, um the degrees of |
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| 02:27 | when I first learned it was mathematical . Alright, it's really a statistical |
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| 02:31 | when you're taking statistics yet. So, you you hear that term |
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| 02:35 | of freedom, You're like, that's mathematical. And what degrees of |
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| 02:39 | really describing here is just a number axes on which movement is allowed? |
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| 02:44 | right. So uh some joints like shoulder have, you know, multiple |
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| 02:51 | of freedom. I can move in sorts of different directions, right? |
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| 02:53 | my thumb is very limited in terms the degrees of freedom. Actually, |
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| 02:58 | probably not. Thumb is not a one. It's uh maybe a finger |
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| 03:02 | probably a better one. I have degrees of freedom. And we're gonna |
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| 03:06 | at that again, we'll see how degrees of freedom. Different ones I |
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| 03:09 | . Are they single access by axel axial so and so forth. And |
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| 03:16 | , we're talking primarily synovial joints and using these terms. All right. |
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| 03:21 | can be used for the other but we're primarily talking about synovial joints |
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| 03:25 | they're the ones that we typically think . Now, there are many, |
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| 03:29 | factors that affect joint stability. The is what is the shape of the |
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| 03:34 | bones that are articulated or creating that . Alright, so, I want |
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| 03:41 | to think about a golf ball, ? Got a golf ball. And |
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| 03:44 | want you to think about the You put a golf ball on, |
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| 03:48 | ? If you blow on the golf sitting on the T with a golf |
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| 03:51 | fall off the tee. What do think? Does it take a lot |
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| 03:57 | effort to knock the golf ball It does it takes a lot of |
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| 04:01 | . I mean, if you've ever golf, trying to put that ball |
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| 04:03 | the tee wrong, it just falls over, right, so that golf |
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| 04:06 | has a big surface and it's slightly , but it's almost flat relative to |
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| 04:11 | tea. And that tea has a , very small surface and it has |
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| 04:14 | small dent or curve. And so that golf ball on there creates a |
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| 04:19 | unstable interaction between those two items, is a good thing if you're trying |
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| 04:24 | hit a golf ball because you wanna the golf ball going off a long |
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| 04:28 | away. Alright, so not a of stability in that particular interaction, |
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| 04:33 | because of the shape of the golf versus the shape of the T. |
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| 04:36 | take that same golf ball and now it in a cup, Can you |
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| 04:40 | that golf ball all that? no, now we have a different |
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| 04:44 | , we have something that's like, that's wrapping the golf ball, the |
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| 04:48 | ball can't move around in it. right, it has it has greater |
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| 04:54 | . Alright. And so when we at those shapes, we're asking the |
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| 04:57 | , do these two shapes allow for or do they provide for stability? |
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| 05:03 | . So those two things are opposed each other? And that's what this |
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| 05:07 | kind of shows you this graph is here, look and say, look |
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| 05:10 | you look at stability, the most things are not particularly mobile but the |
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| 05:16 | mobile joints are not particularly stable. we're gonna need other things to make |
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| 05:21 | joints stable. And so the second that's important in terms of stability. |
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| 05:27 | articular surface is creates stability but for of our joints we want mobility. |
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| 05:32 | we're gonna see that it's not the important thing. So the second thing |
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| 05:37 | , how many ligaments are there? what are the positions of the |
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| 05:40 | Where are the ligaments located? Um you ever had your knee or your |
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| 05:44 | or something taped up? Anyone ever that happen? Right, tape. |
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| 05:50 | . So what you're doing is you're like ligaments, You're basically using those |
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| 05:53 | of tape to cross over a joint provide stability. Alright. And that's |
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| 05:58 | those are doing and that's what the do. So the general rule is |
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| 06:01 | more ligaments you have, the greater strength of, the greater the stability |
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| 06:04 | have in that joint. Still not most important thing though, if you |
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| 06:09 | to create stability in an unstable right? In other words, one |
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| 06:13 | has a high degree of mobility. you want is muscle tone. |
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| 06:18 | Muscle tone is the most important thing creating stability when you want to have |
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| 06:23 | of freedom or you want to have . Alright. So obviously if I |
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| 06:28 | want movement, I can just create like jigsaw puzzles like we have with |
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| 06:33 | and you're not gonna get a lot movement. But if I want to |
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| 06:35 | movement and I don't want that joint pop open. Let me just ask |
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| 06:39 | here, everyone had their shoulder Was it fun? No, it |
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| 06:44 | . But was it hard to get back in? Yeah. Well, |
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| 06:47 | mean apart from the pain, you pop it right back in here dislocated |
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| 06:52 | finger. Isn't that fun? I remember falling down while playing baseball |
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| 06:56 | a kid and I got up and finger was going the wrong direction. |
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| 06:59 | freaked out and someone just looked at and pop it right back into |
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| 07:02 | Right? So what I'm trying to here are basically joints that are, |
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| 07:09 | know, being supported by their They're not particularly stable, are they |
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| 07:15 | knee? Anyone here done some horrible like hyper extend your knee? |
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| 07:19 | That's fun. Yeah. That's that's fun right now, the strength of |
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| 07:24 | knee, there's a lot of ligaments , but the strength of your knee |
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| 07:28 | dependent upon the muscles that are surrounding structure. Same with your hip muscles |
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| 07:35 | what gives it strength. So the tone you have and we haven't talked |
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| 07:39 | muscles yet. What we're gonna find is muscle tone, muscle tone is |
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| 07:44 | resting contraction in the muscle. All , it's basically a muscle that's already |
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| 07:50 | of in a semi contracted state and what keeps the tendons taut and that's |
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| 07:55 | strengthens the joints around that or strengthens the structures around that joint. |
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| 08:04 | I would put a star by that I asked this question on every |
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| 08:08 | Right. There's easy two points. right. What's the most important in |
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| 08:14 | the stability of a of a Muscle tone? There you go. |
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| 08:22 | , So joints fall under these two structures or movement. Right? That's |
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| 08:26 | he said. We're gonna do So structurally, we have three basic |
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| 08:30 | of joints. We have the fibrous , we have the cartilaginous joint. |
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| 08:33 | those are our joints that we don't . Mostly think of as joints we're |
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| 08:37 | look at them. But we don't think the ones that we think about |
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| 08:41 | being joints are the synovial joints. here these are gonna be bones that |
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| 08:45 | these unique uh arrangements around them. gonna have a fluid filled sac. |
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| 08:51 | gonna have space in between them and provides cushioning. Um The others are |
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| 08:57 | straightforward fibers. Is gonna have fibrous . Car legends has cartilage tissue. |
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| 09:01 | . In terms of movement we're looking and asking the question, what kind |
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| 09:04 | movement does this joint allow. All . And these words seem pretty big |
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| 09:08 | scary, don't they? Kind All right, arthur sis the latter |
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| 09:13 | just means joint. Alright. That's that word comes from? So we |
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| 09:17 | have to look at the prefix what do you think Sin is |
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| 09:25 | Okay. Empty. What did that ? Remember when amphibians like half and |
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| 09:32 | ? Right sort of and then I look forward. You know I |
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| 09:36 | actually I think too right. And best I can come up with is |
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| 09:41 | you see diet kind of mean uh or or through is kind of what |
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| 09:48 | is. So I think what it is two bones are being are together |
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| 09:53 | so that allows for the freedom of . Alright so we're gonna look at |
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| 09:57 | both as their structure and what kind movement they are responsible for. Now |
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| 10:04 | it comes to movement there are different of movement. We have gliding |
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| 10:07 | angular movement, rotational movement. And it doesn't fall into one of these |
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| 10:10 | boxes, what we're gonna do is gonna throw it into its own special |
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| 10:13 | called special movements. So gliding movements into bones slide against each other. |
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| 10:18 | All right. So it's also called movement. And so the movements aren't |
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| 10:24 | very much, they're just kind of like this angular movement that should be |
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| 10:27 | obvious. What I'm gonna do is going to increase or decrease the angle |
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| 10:30 | the two bones when it talks about . I'm gonna take the bone and |
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| 10:34 | gonna spin it along its access like like so okay, so I'm moving |
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| 10:41 | the axis of the long bone. those are the three of them. |
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| 10:45 | special ones, We'll see how they . So this is one where you |
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| 10:47 | of kind of have to practice them play with, you play with the |
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| 10:51 | movements. All right, so gliding is a very, very simple |
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| 10:55 | An example of this is, I they're using up here from your |
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| 10:59 | they're using the joint that is the joint between the sternum and the uh |
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| 11:06 | of the ribs. I think the one to look at is the |
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| 11:10 | So this is where I get to fun with people in the first row |
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| 11:12 | you don't have a long shirt Alright, there we go. So |
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| 11:16 | these are the car pools and you sit there and you can manipulate someone |
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| 11:18 | this and see how I'm making a a little bit. Not a lot |
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| 11:21 | movement in there. Okay. The way you can do it if you |
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| 11:25 | you don't feel it, you can say I'm gonna do the queen's |
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| 11:28 | Although we don't no longer have the . So I guess we're going to |
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| 11:30 | king's wave, but it's the queen's right? The, you know, |
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| 11:35 | like. So, so those movements just there in those carpools. So |
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| 11:39 | square bones, those short bones are sliding up against each other. So |
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| 11:44 | going to see these primarily in the pools and in the uh parcels. |
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| 11:48 | in in those inter carpal, inter joints. Alright. Very, very |
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| 11:52 | movement. There's no real change in angularity. So, they're just kind |
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| 11:56 | gliding up against each other. angular movements are the easy ones. |
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| 12:02 | . Everybody flex. See the guys like Yeah. Alright. That's that's |
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| 12:07 | an easy flex. Right? flexion is when I take those two |
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| 12:11 | or take those two bones and bring close together. So this is flexion |
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| 12:15 | the elbow and then this would be . Right, flexion extension. |
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| 12:21 | If you're in the exam, you do that. People look at you |
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| 12:23 | , but it's okay. But if want to be subtle about it, |
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| 12:26 | can do with your fingers, I can do flexing and extension. |
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| 12:31 | , flexion and extension. You can it with your body. This is |
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| 12:35 | , this is returning and that's Alright? So when we're talking about |
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| 12:40 | extension extension were working in the anterior airplane granted my arms out this |
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| 12:45 | But I can do it this way well. Just move my arm |
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| 12:49 | Do curls Hyperextension is when you extend joint beyond 180°. All right. |
|
| 12:57 | typically, um This term we might talking about when it's a pathology, |
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| 13:03 | when I'm running in a hyper extend need. But that's not necessarily what |
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| 13:08 | . Oftentimes you'll see them referred to this is flexion extension. And then |
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| 13:14 | beyond would be hyper extension. All . But if you understand the definition |
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| 13:21 | 180°. You know, rather than just of it as extension, that's |
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| 13:27 | You can also flex to the side we call lateral flexion. Alright, |
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| 13:31 | , when you're like stretching this that would be a lateral flexion, |
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| 13:34 | flexion, lateral flexion, lateral Now, you may not be able |
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| 13:38 | see what your bones am I flexing extending when I'm doing that, I'll |
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| 13:42 | do my net. Which which bones I doing? What do you |
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| 13:48 | What bones do I have in my vertebrae? Okay, So, so |
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| 13:52 | you're doing is remember the vertebrae they're on each other, like So, |
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| 13:56 | , when I'm bending this way, I reduced the angle between them? |
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| 14:01 | . And when I come back up go the other way, I've extended |
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| 14:04 | angle. So, extension. Inflection occur between the vertebrae. All |
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| 14:11 | It's not so obvious. But you have to think which bones are being |
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| 14:15 | when I'm doing that. All All right. When the aliens come |
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| 14:21 | get you, what do we call ? Abduction? Right, They abduct |
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| 14:27 | . Right. So, when you your arm from your body, that |
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| 14:32 | abduction. And when the aliens return back to earth. Well, we |
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| 14:37 | call it abduction. But that's what should be called. So, it's |
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| 14:42 | abduction. All right. So, up is abduction, putting your arms |
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| 14:47 | down would be abduction circum deduction is you create a cone in space. |
|
| 14:53 | , you could do abduction with your too. Right. So, that |
|
| 14:55 | be abduction. This would be putting my arm up. Abduction. |
|
| 15:01 | . And then when I take my and then rotate it, what am |
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| 15:06 | doing? I'm creating a cone, ? Because this point is not |
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| 15:09 | but what I'm doing is I'm creating circular structure with my hand. And |
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| 15:15 | the whole thing is basically a I can do the same thing with |
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| 15:18 | leg. I did it backwards that . Maybe I should do it this |
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| 15:22 | . Alright, sir, conduction. , this is just all those different |
|
| 15:27 | . We just described its flexion extension Abduction. Just moving that that structure |
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| 15:33 | and over and over again. circumspection is just the spinning part. |
|
| 15:41 | rotational movements, rotation is what you when or what you do when someone |
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| 15:46 | you to do something and you don't to do it, you say |
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| 15:49 | Right, So that's a rotation. right. That would be the |
|
| 15:54 | Oh, axle joint, basically when say no, okay of rotation when |
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| 16:01 | moving your arms. Right? So outward. That would be laterally moving |
|
| 16:06 | . That would be immediately. So rotation, medial rotation with my |
|
| 16:12 | lateral rotation, medial rotation. All , so rotation. Pretty basic. |
|
| 16:19 | two words have been stolen by the community and they're being used inappropriately? |
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| 16:25 | , if you're a runner, do refer to your instep or out step |
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| 16:29 | separate nation or pro nation? Seeing any runners in here, if you |
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| 16:34 | to a shoe store and say how your step look? Well I'm a |
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| 16:37 | nater that sound familiar to anybody. . Okay good. You haven't been |
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| 16:44 | yet? All right. There's a word for that. Alright, so |
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| 16:49 | and pro nation refer to the rotation the upper limbs. Alright, so |
|
| 16:55 | what is r anatomical position for our ? Palm out right? So our |
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| 17:02 | and ulna are parallel to each When we are in that position we |
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| 17:05 | separated. So when I move and my hand around, noticed my humerus |
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| 17:13 | changed position. My radius which starts is attached there. And so look |
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| 17:17 | happens. It crosses over now it's below and my ulna is now crossed |
|
| 17:24 | . Right? Sorry I got that is crossed over almost underneath. All |
|
| 17:30 | , so that's what I'm doing when move my hand. So now my |
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| 17:33 | or my the back of my hands out. I'm now pro nated. |
|
| 17:37 | that movement is pro nation. This supper nation. Right? So I |
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| 17:43 | to make it easy so that you see it's either parallel lines or it's |
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| 17:45 | X. And it's referring to the and their positions in that forearm as |
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| 17:50 | move. So palms outward. Supper palms backwards. Pronation destination pronation |
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| 18:03 | Special movements. Are you gonna just at home? All right, ankle |
|
| 18:10 | when I point my toe towards my . That's called dorsal flexion. When |
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| 18:16 | point my toes like a ballerina towards soles of my feet. That's plant |
|
| 18:22 | . The bottom of your foot is planter region. So what you're doing |
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| 18:26 | you're saying I'm pointing towards the bottom my foot right so toes down. |
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| 18:32 | reflection, toe up Dorsey flexion. is the proper way that we refer |
|
| 18:40 | our instep and out of step is version and inversion when I point the |
|
| 18:45 | of my foot inward, that's gonna inversion when I point the bottom of |
|
| 18:53 | foot outward. That's e. You can think of this way when |
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| 18:57 | step on the outside of my the inside of my the bottom of |
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| 19:00 | foot is pointing inward inversion. When stepping on the inside of my |
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| 19:05 | my foot, you can't even see I'm doing, so not very |
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| 19:09 | Alright, so here's my foot. I'm stepping on it This way I'm |
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| 19:13 | on the lateral edge, that means bottom of my foot is pointing |
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| 19:17 | That's inversion. If I'm stepping on medial side of my foot, my |
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| 19:22 | is pointing outward, the bottom of foot pointing outward. That B. |
|
| 19:25 | . Version. Okay, so that's runners refer to. Sublimation and pronation |
|
| 19:31 | . Don't use those words. That's easy so far. Think you can |
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| 19:37 | this. Yeah, I'll be in of them here. C cheat sheet |
|
| 19:43 | . E version when you see somebody this. The test, you know |
|
| 19:46 | they're doing? Okay. Pro traction retraction when you retract something. What |
|
| 19:57 | you do you take it back? pro traction when you give it |
|
| 20:02 | Alright. So let's use our jaw an example. This is pro |
|
| 20:07 | This is retraction. It's gonna be in the mirror. I promise. |
|
| 20:16 | right, can't do that one Do it with your head. Pro |
|
| 20:23 | . Retraction. Depression. It's not in just not in the psychology |
|
| 20:29 | Depression means when you lower something. , elevations. When you raise something |
|
| 20:36 | . What's elevation? I don't know depressed about it. Okay. See |
|
| 20:44 | just come up with stuff right? two things this this movement, opposition |
|
| 20:51 | specific to humans and really to Right? What is the characteristic of |
|
| 20:58 | primates? What do we have not ? The whole word is opposable |
|
| 21:06 | And you don't even think about What does opposable mean? An opposable |
|
| 21:10 | means I can take my thumb and can actually touch all my digits. |
|
| 21:16 | . Cats and dogs can't do They just sit there and go |
|
| 21:23 | Yeah. Alright so when I am to touch my digits they're able there |
|
| 21:29 | basically doing opposition. So that's And then when I return it back |
|
| 21:35 | its normal shape, Reposition opposition, opposition, reposition. Okay way to |
|
| 21:44 | that. Opposable thumbs allows me to my fingers. Okay, allows us |
|
| 21:51 | grab objects. One of those unique that makes primates cool. So what |
|
| 22:00 | you think movements easy. How long it take us? Like? 10 |
|
| 22:06 | ? Yeah. So, questions about of that stuff might show you a |
|
| 22:13 | and say, what's this? I ask you a question when I do |
|
| 22:16 | . What does it mean? All right, let's talk about the |
|
| 22:26 | joints. three different types of fibrous . Right? So there are three |
|
| 22:33 | types of joints. Now, we're at the fibers ones. There's three |
|
| 22:35 | those. All right, we have emphasis emphasis are unique. This is |
|
| 22:40 | pagan socket joint, pagan socket means taking something and putting it into its |
|
| 22:45 | . The only place we do that our body is our teeth. So |
|
| 22:49 | is a type of sin. Arthur everyone grab a tooth in your |
|
| 22:53 | Does it move? Please say Alright, if it moves, go |
|
| 23:00 | a dentist or orthodontist please. Doesn't want it doesn't want to move |
|
| 23:06 | ? And the reason doesn't want to is because it's cemented in place by |
|
| 23:10 | periodontal ligaments that hold that tooth into so it can do its job. |
|
| 23:14 | is the only place where we see guy emphasis. Alright, so plural |
|
| 23:19 | gone. Theses the next is the . We've already seen sutures. We |
|
| 23:23 | the, sutures in the cranium. , what we're gonna see with these |
|
| 23:27 | we're gonna see these interlocking irregular It's kind of like a jigsaw |
|
| 23:32 | right? These edges are very closely . They have a little bit of |
|
| 23:40 | they have ligament inside them but it's very small ligament and it basically holds |
|
| 23:45 | place, you can grab your head try to move it around, you'll |
|
| 23:48 | movement but that's just the skin on top of your head. You cannot |
|
| 23:51 | the bones move because they're basically cemented . That would be suture. |
|
| 23:58 | again, no movement synthesis. So compasses and the future are both Cinar |
|
| 24:06 | then we have the cinema sees. , here's an example of a cinema |
|
| 24:11 | alright, the cinema so this is be between two bones. Alright, |
|
| 24:16 | connecting them by ligaments and there is gifts. Again, we're gonna go |
|
| 24:22 | to our example. Arm up. like great, thanks. Alright, |
|
| 24:27 | this. You see that kind of right in there. It's because there's |
|
| 24:32 | are theses between those two bones so can shimmy them back and forth but |
|
| 24:36 | that they're not spinning around each There's not a lot of movement, |
|
| 24:41 | some movement but not a lot where gonna see this is between the old |
|
| 24:44 | the radius as well as the tibia the fibula because we see some movement |
|
| 24:49 | fi arthur sis. Alright, so cinema sees our anti R. Three |
|
| 24:54 | . So these are the names, is the type of a movement they |
|
| 24:59 | where that's where it kinda gets a confusing. All right. Moving to |
|
| 25:05 | cartilaginous joints, we have two different of cartilaginous joints. Alright, the |
|
| 25:11 | is gonna be represented by this picture the left, right here, we're |
|
| 25:15 | to see an articulation with the bone we're gonna see highland cartilage there. |
|
| 25:21 | epithelial plates that we see in our bones are an example of the sink |
|
| 25:28 | . Alright. Sing Condra. Theses without movement. So there's Sinar |
|
| 25:36 | Alright. Sin again without con dro to being cartilage. The other place |
|
| 25:41 | going to see. These are in costal cartilage. Whereas costal cartilage |
|
| 25:46 | right? It sits between the rib the sternum. So those joints between |
|
| 25:50 | cartilage and the rib cartilage and the are also seen Congresses, there's no |
|
| 25:58 | movement between those two attachments, those different tissues. All right now, |
|
| 26:05 | you've ever given cpr to somebody or it or jumped on somebody's chest or |
|
| 26:09 | up on your little brother or sister ? You can make their chest move |
|
| 26:13 | and down. But what you're actually is the spring action of the rib |
|
| 26:17 | it moves around the angle bouncing up down is a function of that, |
|
| 26:22 | movement between the cartilage and the The second type of cartilage is joint |
|
| 26:31 | the synthesis. So synthesis are the . A really good example of a |
|
| 26:38 | is the one that's called the pubic . Alright, since between it sits |
|
| 26:43 | the two pubic bones in your Oscar during pregnancy. This little tiny |
|
| 26:51 | This cartilage or Yeah, this cartilage there breaks down and actually creates greater |
|
| 26:58 | so that when you are giving birth , you have more movement or freedom |
|
| 27:04 | your hips to widen the birth which is a plus, as far |
|
| 27:10 | I understand it. Okay, if you can't picture that and you |
|
| 27:15 | see that little dot right there. about your vertebrae. What do we |
|
| 27:18 | with between each of the vertebrae They're called inter vertebral disc. See |
|
| 27:23 | clever the naming is. This is a synthesis. Alright, It's cartilage |
|
| 27:31 | er dot college. It's bone inter disc, bone inter vertebral disc. |
|
| 27:36 | these things allow for movement? What you think? Yeah, a little |
|
| 27:42 | right there not full movement but there's movement. I can do this, |
|
| 27:48 | , and that's a function of all different vertebrae and the cartilage in between |
|
| 27:52 | , allowing me to have that kind movement. Alright, I could grab |
|
| 27:57 | of you up here and kind of with your hips for a little bit |
|
| 27:59 | you'd see that there's a little shimmy in your hips. All right. |
|
| 28:03 | because of the pubic synthesis. So are our three assists and that's what |
|
| 28:08 | picture is representing. So, remember one over here, that one for |
|
| 28:14 | synthesis That gets us like 30 minutes the class. We're almost done. |
|
| 28:23 | like, wow, I'm getting out here early today. I don't |
|
| 28:25 | I might start rambling on about You never know where you have to |
|
| 28:32 | nowhere. See. All right, last one and actually this one takes |
|
| 28:39 | all the time because it's the interesting . This is when we talk about |
|
| 28:43 | , these are the joints that primarily for movement. These are the synovial |
|
| 28:48 | . Alright. And what we said them remember is that there are basically |
|
| 28:51 | bones and there's fluid in between And in order to have fluid in |
|
| 28:56 | them, you're going to have to some sort of structure that holds everything |
|
| 28:58 | place. So the very first thing gonna see at these joints is there's |
|
| 29:02 | be a capsule. The capsule that the joint itself is called the articular |
|
| 29:08 | . Alright. And it's made up a whole bunch of fun stuff. |
|
| 29:11 | there's fibers, you know, and other materials. And then you're gonna |
|
| 29:15 | seeing ligaments that are maybe on the . They may actually be on the |
|
| 29:19 | . So, we just refer to as reinforcing ligaments. If they're on |
|
| 29:22 | outside their extrinsic. If they're on inside, we refer to them as |
|
| 29:26 | intrinsic. And then so you're gonna a structure here in that cavity that |
|
| 29:35 | is gonna be filled with fluid. the fluid is called synovial fluid and |
|
| 29:39 | made by the membrane that's on the . And so what you have here |
|
| 29:45 | you basically have a lubricated structure. this fluid serves two purposes. One |
|
| 29:51 | lubrication, basically the two ends of bones. You don't want them rubbing |
|
| 29:54 | against each other. All hearts are putting in a lubricant so that they're |
|
| 29:58 | gliding over each other. But fluid primarily in our bodies are primarily made |
|
| 30:03 | of water. Water is not particularly . So it also serves as a |
|
| 30:08 | absorber in those joints. Now, these joints or these bones are rubbing |
|
| 30:15 | against each other, we don't want to grind each other down. |
|
| 30:19 | grinding down bones. Bad, what you think? Yeah. Okay, |
|
| 30:23 | on the surface of the bones in joint we're gonna have cartilage and that's |
|
| 30:29 | be called articular cartilage. Again, name reflects its job. It's in |
|
| 30:33 | joint. And this allows the two to glide over each other and glide |
|
| 30:38 | better with that fluid. Alright, again, you want to go chest |
|
| 30:44 | this out, Go order some chicken from someplace, eat the chicken and |
|
| 30:48 | look at the bone, look at ends of the bone where the joints |
|
| 30:51 | be and you'll see that they're kind white. Right? That's the articular |
|
| 30:58 | . Okay, now these types of allow for high degrees of movement and |
|
| 31:06 | on where you are, what kind movement? Right? So we classify |
|
| 31:10 | joints as die arthur sees, So these are the movable joints typically |
|
| 31:18 | with joints are what are called bursa tendons. Alright? Or sorry, |
|
| 31:24 | or tendon sheets, you're gonna have because there's muscles there. Alright, |
|
| 31:28 | or tendencies, these two things are the same thing. The difference is |
|
| 31:33 | tendencies tend to be longer versus tend be shorter. Um So what is |
|
| 31:38 | bursa? I like to think of as the ball bearings of a |
|
| 31:42 | Alright. Anyone who knows what a bearing is? You know, its |
|
| 31:45 | is to allow for smoother movement. . But I want you to picture |
|
| 31:49 | a moment a tendon of the All right. And you're trying to |
|
| 31:55 | like your finger. For example, I want to squeeze, what I'm |
|
| 31:58 | is I'm actually pulling should do it way. So I have my muscle |
|
| 32:02 | that's pulling on a tendon that goes the way down the length of my |
|
| 32:05 | . So when I contract that the finger moves. But look, |
|
| 32:09 | crossing over a an angle, isn't ? And if I cross something over |
|
| 32:14 | angle basically it's rubbing up against it hard. And if you've ever done |
|
| 32:18 | rope along something like that, the will eventually fray and break. And |
|
| 32:21 | you don't have a tendon. So purpose of a bursa is to wrap |
|
| 32:26 | tendon or sit underneath that tendon. so now you have something that rolls |
|
| 32:32 | it and so you can roll over . Alright now where we see these |
|
| 32:38 | one that's easiest to understand is right in the wrist. Alright, now |
|
| 32:44 | guys are all on your phone so gonna have problems with your thumbs for |
|
| 32:47 | rest of your lives. It's gonna really bad. The generation after |
|
| 32:52 | they struggled with another ailment because they at keyboards inappropriately and what they end |
|
| 33:01 | doing because they're always on their keyboards this. What are the what's what's |
|
| 33:05 | ailment? Carpal Tunnel? Carpal tunnel . Right. That's the abbreviation of |
|
| 33:11 | tunnel. What is the carpal Well, where does carpools wrist? |
|
| 33:16 | , so you got that? Tunnel, what does that tell |
|
| 33:19 | Something is going through? Right, , that's it right there. All |
|
| 33:24 | . You can see it's a you can see here the tendons going |
|
| 33:28 | through the fingers and there's the burst that sits around it. And if |
|
| 33:32 | sitting there rubbing over and over again the same structure, what am I |
|
| 33:37 | do is I'm gonna create friction and your body do when you create friction |
|
| 33:42 | hot and it in flames. And now you have a bursa that's loose |
|
| 33:48 | normally your tendons move through it nice easy. But if my burst becomes |
|
| 33:53 | , it tightens around it and now to move becomes painful. That's what |
|
| 33:59 | tunnel syndrome is. Is that inflammation that bursa? All right. So |
|
| 34:05 | purpose of a bursa or tendon you can see the tendon sheets along |
|
| 34:11 | fingers there, they're just there to the friction. That's gonna normally take |
|
| 34:17 | while you are contracting muscles and moving over these bones. A lot of |
|
| 34:28 | joints have these structures associated with They're not part of the joint but |
|
| 34:34 | closely associated. All right. Most you guys have done some sort of |
|
| 34:42 | of math where you're dealing with planes learned of the X axis and Y |
|
| 34:46 | . Right? So if you're talking dimensions, what would be the next |
|
| 34:50 | ? Z. So here's X. , here's X. Here's Y. |
|
| 34:54 | would be this way. Right. so it's really kind of easy to |
|
| 34:57 | in three dimensions along those lines but not usually how we work. |
|
| 35:00 | I'm gonna look anyone here know how fly a plane or knows how to |
|
| 35:04 | a boat. Anyone do any of stuff. Boating or planes, |
|
| 35:09 | So, do these terms sound familiar ya, pitch? Right, |
|
| 35:15 | Okay, so you can think about like this? I mean it doesn't |
|
| 35:18 | to me really. I mean if ever done a flight simulator. All |
|
| 35:21 | . So what this is referring to you're in the center of this and |
|
| 35:25 | refers to the movement of the boat the plane along these different axes. |
|
| 35:31 | . And so your bones are gonna like that. All right. They're |
|
| 35:36 | to roll or pitch or yaw or can move up and down and left |
|
| 35:41 | right. All right. They have these different types of movements that are |
|
| 35:45 | to them. They're not just moving the X and the Y and the |
|
| 35:48 | . Which is kind of confusing. you try to wrap your mind |
|
| 35:50 | you have to think in terms of . So, when we look at |
|
| 35:54 | synovial joint, we ask the how many degrees of freedom, in |
|
| 35:58 | words, how many axes is it to move in? Does it move |
|
| 36:02 | one of these planes? Does it one of these things? Does it |
|
| 36:06 | two of these things or can it more than two of these things? |
|
| 36:11 | right. And so it's either gonna uni axle by axle or multi axle |
|
| 36:15 | terms of its movement. All So, when we look at a |
|
| 36:20 | joint, we'll see things like plain . Alright. The plane joint is |
|
| 36:25 | flat joint, right? It provides movement. So, again, that |
|
| 36:29 | the picture they used but we would in a in a synovial joint where |
|
| 36:38 | have these plain joints, it would be this really, really a stiff |
|
| 36:43 | . Right? So it'd be gliding along those lines in a plane |
|
| 36:48 | Alright, so this is a non joint. It's not moving, appreciative |
|
| 36:54 | in any of those planes that we kind of saw hinge joints a little |
|
| 37:00 | easier to think of. All And think of a hinge on a |
|
| 37:04 | . So what you have is you a bone that kind of has a |
|
| 37:08 | cylinder at its end. I know hand is not a very good round |
|
| 37:12 | , but you can imagine this is of round. Can you can you |
|
| 37:15 | with me for kind of round? right. And so what I'm gonna |
|
| 37:18 | is I'm gonna take that and I'm put it into a socket that has |
|
| 37:23 | round shape. And so what now I'm gonna do is I can move |
|
| 37:28 | and forth in that socket, basically the angle. So it's angular movement |
|
| 37:34 | that hinge joint because I'm only doing flexion and extension only rolling in this |
|
| 37:42 | . That's only one movement, That's uni axle or one plane. |
|
| 37:47 | one movement one plane a pivot And the example they give appears the |
|
| 37:51 | low axial one. That would be rotational one. And so here what |
|
| 37:55 | have is we have a bone that up inside another bone like. |
|
| 38:02 | Alright. And what this does allows to rotate around the other bone. |
|
| 38:08 | , so that rotation in your No, no no. Is an |
|
| 38:13 | of a pivot joint. Another example a pivot joint is for pronation and |
|
| 38:20 | . All right here we have two side by side but we have a |
|
| 38:26 | that goes around another bone. So the old and the radius. So |
|
| 38:31 | have a ligament that goes around the and allows me to rotate the radius |
|
| 38:37 | that's why it allows you to prone and 78. So pivot joints permit |
|
| 38:45 | . That movement is along the long , That's one movement. Uni |
|
| 38:51 | Alright hinge joint. Easy rotational Mostly easy. And we get to |
|
| 39:00 | weird shapes. So that first word Lloyd comes from cond. I'll have |
|
| 39:10 | seen the word con dial yet? that's at the end of bone we |
|
| 39:13 | it and really what it's describing here the shape of the bone that's kind |
|
| 39:17 | oval. Alright so again look at fist is my fist kind of oval |
|
| 39:22 | kind of kind of right? So of oval shaped. Alright so what |
|
| 39:27 | gonna do is you're gonna take that shape that you're gonna put it into |
|
| 39:29 | cup that's kind of oval shaped. so again just pretend that's oval |
|
| 39:34 | So it's gonna go in there and I can do is I can rock |
|
| 39:38 | back back and forth in one I can also rock back and forth |
|
| 39:42 | this direction right? But I can't because if I spin along this |
|
| 39:48 | I'm actually popping the con dial outside the cup can't happen. Alright so |
|
| 39:56 | we're doing is we're providing two types movement. We're going back and forth |
|
| 40:01 | way and back and forth that Alright and where do we see the |
|
| 40:06 | dial? Well we can see them the wrists, we can also see |
|
| 40:09 | in the figures. You ready for finger. Everyone go no no no |
|
| 40:15 | one direction and then you can do red room talk, you guys have |
|
| 40:20 | shining right? So I can go way, I can go that |
|
| 40:26 | I can do those two movements but I can't spin my finger in |
|
| 40:30 | direction, can I? He doesn't to go that way because that would |
|
| 40:34 | it out of joint and pop it of its socket. Alright, so |
|
| 40:39 | , I'll will be back and Excuse me. The saddle joints is |
|
| 40:44 | , very similar. This is what going to see in our thumb. |
|
| 40:46 | is what provides that oppositional movement in thumb. And so here you have |
|
| 40:51 | things that are shaped like saddles, ? So you have one bone that's |
|
| 40:55 | of shaped like this, another bone shaped exactly the same way. So |
|
| 40:59 | of two Pringles. You guys know , right? You take the two |
|
| 41:04 | and you can kind of cut them so this bone moves back and |
|
| 41:08 | like so along its saddle. This can move back and forth along its |
|
| 41:12 | . And so together they provide that movement so I can go back and |
|
| 41:17 | this way and go back and forth way and that's the two saddles but |
|
| 41:21 | can't twist them right so I can't my thumb, it doesn't want to |
|
| 41:25 | that direction. Alright so these two provide by actual movement, con dial |
|
| 41:34 | condo Lloyd and uh the saddle Bye axel, the last type of |
|
| 41:44 | , the sock and this is the joint, this is the one we |
|
| 41:47 | to make all the joints right? and socket is you have, the |
|
| 41:50 | of the bone is spherical. The bone that it's articulating with is a |
|
| 41:57 | . Alright, that's also spherical. if I have something that spherical I |
|
| 42:01 | move back and forth I can move and right right and I can twist |
|
| 42:06 | it right, That kind of makes . So again I know my fist |
|
| 42:11 | not round but pretend my fist is , my cup is round, I |
|
| 42:16 | go in it, I can go direction, I can go that direction |
|
| 42:19 | I can go this direction because I'm gonna pop out of the joint, |
|
| 42:22 | is a perfect example of this I can go this way, I |
|
| 42:25 | go that way, I can go way and I can go that |
|
| 42:30 | Now notice I can't spin it around right and the reason for that is |
|
| 42:35 | I have ligament and stuff holding it place right, but I can move |
|
| 42:41 | another way? You can do that take your foot foot is pointing |
|
| 42:45 | start moving your foot this way I'm Right? So if I move my |
|
| 42:51 | 90°, that's up here has taken place the hip. So this is a |
|
| 42:59 | axle or what we would say is multi axle that's greater than two. |
|
| 43:07 | you guys yeah go ahead more than . Alright, so a hinge. |
|
| 43:20 | what I'm It's more like a So my cup sits in one direction |
|
| 43:25 | I can only rotate in one right? So think of a hinge |
|
| 43:29 | a door which we can't see. don't think we can see. |
|
| 43:33 | these are totally useless. Um So idea is here this is the end |
|
| 43:40 | the bone, right? So you imagine here's the bone belong shaft. |
|
| 43:44 | end of the bonus kind of shaped this. So what I can do |
|
| 43:46 | I can rotate this way, can't that way. Can't go that |
|
| 43:50 | All I can do is move that . So that's why it's uni axial |
|
| 43:55 | the hinge. Yeah. Yes, so good to the table and stocking |
|
| 44:03 | ? Except condolence is an oval So think of think of the cup |
|
| 44:08 | being oval shaped as well. Can twist an oval inside an oval, |
|
| 44:14 | ? So try try to think about this. All right, just make |
|
| 44:16 | like this if if I want to my my fist in my cup right |
|
| 44:20 | , it's gonna have to come isn't it? Right? So now |
|
| 44:24 | separated away from from the socket in I'm located. If I'm a ball |
|
| 44:29 | I'm in a spherical cup and um spherical head, I can twist all |
|
| 44:32 | way around without moving outside of the . This is much better if I |
|
| 44:40 | had a thing. Let me see I can do this with the |
|
| 44:42 | I don't know. Alright. Everyone that the pin works alright. Maybe |
|
| 44:52 | see. All right. I'm trying draw in three dimensions. Please don't |
|
| 44:58 | mad at me. Alright, so I have something that is shaped like |
|
| 45:05 | right there is my cup. The that's gonna have to fit into it |
|
| 45:09 | gonna have to have that exact same , right? So if I'm around |
|
| 45:15 | gonna try to around now. I that's not very helpful, right? |
|
| 45:19 | if it's around then this thing is be round as well. So when |
|
| 45:23 | goes in there it can rotate all way around without coming out. If |
|
| 45:28 | comes into this socket, then what's happen is when it turns um it's |
|
| 45:33 | be out of out of Fames or of shape of that, it would |
|
| 45:37 | like this, right? It pop like what? Well, I know |
|
| 45:48 | told you I'm not an artist. of this is you have to kind |
|
| 45:53 | visualize it yourself. But the point is that spheres fit, fit |
|
| 45:58 | Their their uniform right there uniform all way around in terms of the radius |
|
| 46:03 | you're dealing with an oval, it's uniform. So the long side as |
|
| 46:08 | try to twist would start popping out it gets too short side when you're |
|
| 46:12 | with an oval and that's condo But if your sphere there is no |
|
| 46:16 | short side it can go anywhere because whole thing think of the bottom of |
|
| 46:20 | rolling chair. We don't have a chair in here, right? Those |
|
| 46:23 | chairs, you remember the old ones like 40 years ago that you may |
|
| 46:27 | in the house is still not the ones that have the two wheels that |
|
| 46:30 | off when you buy from Office Never mind. See this is a |
|
| 46:34 | . You guys are too young. don't know everything. All right |
|
| 46:40 | spherical. Our our our uniforms so can spend without disengaging from the joint |
|
| 46:47 | you're a condo Lloyd your oval. will disengage because you have a long |
|
| 46:51 | a short side and it'll pop out that's not workable. Yeah. Oh |
|
| 47:02 | like that ping pong ball. A egg is a better example. See |
|
| 47:11 | . So put the think of the class. Everyone's familiar with Shot |
|
| 47:17 | No, that's a good answer. since I'm recording right? No, |
|
| 47:23 | have no idea what a shot glasses wayne. Alright, ping pong |
|
| 47:26 | putting the shot glass. Can you ? Can spin this ping pong ball |
|
| 47:29 | the shot glass right? Now. the egg on its side in that |
|
| 47:33 | glass. Right? What would happen you try to spin it? It |
|
| 47:38 | ? Right. Wouldn't work? Good . Let's talk about some some important |
|
| 47:49 | . Alright. Ready for the first . TmJ temporomandibular joint, boy. |
|
| 47:58 | is a big mouthful, Right? your job. All right, temporal |
|
| 48:04 | mandible. That's where it comes. where it gets its name from. |
|
| 48:08 | right. The things that we need be aware of here. All |
|
| 48:11 | You can see the mandibular conned. . Alright, so that's the mandibular |
|
| 48:17 | . That's the part that's sitting into socket. The socket portion. |
|
| 48:22 | Here is the mandibular fossa. next to the mandibular fossa. Is |
|
| 48:28 | articular to brickell boy. These names hard, don't they? After a |
|
| 48:34 | . All right, This is an one. Alright. I'm looking around |
|
| 48:38 | room to see if I see anyone gum. This is where everyone pretends |
|
| 48:42 | they're not chewing gum. Oh, gonna be my example. She's trying |
|
| 48:45 | hide it. It's like why not gum? This is not high |
|
| 48:50 | I'm not the little old lady that's come spin it, spin it in |
|
| 48:52 | hand. Yeah, that's what our used to do, and it's |
|
| 48:58 | really? You want me to spit your hand. Okay. All |
|
| 49:02 | now there's a hinge joint, Think about what your jaw does open |
|
| 49:06 | close. It doesn't do anything Kind of. You can kind of |
|
| 49:12 | , But not real. Well, what happens is when you open your |
|
| 49:16 | and put food in and you close mouth. What's gonna happen is is |
|
| 49:20 | con dial the mandibular condo falls forward that articular to brickell. Alright? |
|
| 49:27 | when you bite down now you have structure that is thick enough to create |
|
| 49:33 | . Look at the thinness here relative their if you bite down, you |
|
| 49:37 | break that. But when you bite that condo sits against that to brickell |
|
| 49:42 | now you have something that you can against. And so that resistance as |
|
| 49:47 | begin biting against the food and the is going to provide resistance is going |
|
| 49:51 | cause the jaw. The mandible to to the side and it slides to |
|
| 49:57 | side and then slips back down into fossil and creates a grinding motion. |
|
| 50:03 | the gum now chew your gum like like, you're supposed to write for |
|
| 50:08 | ? You're chewing your gum. What ? And tell me what is your |
|
| 50:11 | doing while you're chewing gum? What of motion can you feel it? |
|
| 50:17 | you feel your mouth grinding? All ? What do we do? We |
|
| 50:21 | choo? We're like a cow. you're not cows, but that's what |
|
| 50:25 | like when we chew we grind to side, cows have it very very |
|
| 50:29 | motion. And you see that and what you do is you get |
|
| 50:31 | then you slip that gum over to other side and then you chew and |
|
| 50:34 | jaw slips the other direction. And creates that grinding motion. That's how |
|
| 50:40 | break down food, temporal mandibular Alright, so the motion is called |
|
| 50:46 | gliding motion. But we're grinding down food. All right, it's a |
|
| 50:50 | excursion. So that's how that joint . Right? It's a hinge joint |
|
| 50:56 | when it closes it creates the gliding to the side your shoulder joint. |
|
| 51:05 | oh, humor. Will notice the of the bones are both named in |
|
| 51:08 | joint. So, it kind of this kind of easy when you look |
|
| 51:11 | all right, So, we're dealing the glen oid cavity of the |
|
| 51:15 | we're dealing with the humerus and the of the humerus. Now this joint |
|
| 51:20 | a ball and socket joint. And , you can see you can have |
|
| 51:24 | incredible range of motion in your shoulder you can twist and you have you |
|
| 51:29 | go over here and scratch your shoulder way right? Because it allows your |
|
| 51:33 | to go way up and you can way back. So and so |
|
| 51:37 | Alright, So here what we have we have very little stability in that |
|
| 51:43 | . In fact, what stability is is provided primarily by a bunch of |
|
| 51:50 | . If you look at the cavity , it's actually very, very |
|
| 51:55 | See how it's almost flat and in what we have is we have a |
|
| 51:59 | bit of tissue called the Glenwood Um That actually creates a little bit |
|
| 52:05 | a lip to kind of hold the of the humerus in place in the |
|
| 52:08 | cavity. And so that's what you're there. Right? There's the |
|
| 52:14 | there's the labrum right there. So fossa very, very, very |
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| 52:19 | So the three important ligaments, they're for what they're attached to core kodachrome |
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| 52:26 | . So if you look at the from the core coid process to the |
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| 52:31 | . So basically crosses over cork cork to the humerus. And then |
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| 52:37 | Glenna humor basically is going from the and across again. And what you're |
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| 52:41 | is you're basically just crisscrossing this joint of create a certain degree of stability |
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| 52:45 | without that you would basically slip your out completely and it would probably rotate |
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| 52:50 | . Which would be a very, bad thing. All right. Cut |
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| 52:54 | blood vessels. Cut off nerves, sorts of horrible things. And then |
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| 52:57 | have muscles that are going to cross and provide stability as well. So |
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| 53:03 | the muscle that, you know, should be an easy one. Even |
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| 53:06 | we haven't learned it. What's the that sits on our shoulder. |
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| 53:10 | Right. And so that muscle is of the things that reinforces and strengthens |
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| 53:16 | shoulder. All right, so that be an example and then there's a |
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| 53:20 | bunch of birth so that we're not bother mentioning here uh in the |
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| 53:23 | I think when you look at that you'll see the different structures that are |
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| 53:29 | . So glenn or humor, well very stable bunch of ligaments. Um |
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| 53:36 | , loads of fun elbow joint is three different joints. All right. |
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| 53:42 | you gotta remember each joint is a plus another bone here in this |
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| 53:46 | So we have the humerus ulnar. that's the humerus and ulna. We |
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| 53:52 | the humor radio sets of humorous in radius. And then we have the |
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| 53:56 | of the radius. So that would the radio owner. So those three |
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| 54:00 | together make up this entire joint. right now the humor owner joint is |
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| 54:06 | hinge joint. We talked about the on the humerus. We talked about |
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| 54:09 | truck clear notch. So there's your hinge portion. Right? So the |
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| 54:14 | leah was kind of this roundish That's kind of this shape Trow clear |
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| 54:22 | was this shape. You put that the other one. So what you |
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| 54:25 | is you create the hinge. And that's the primary movement that the shoulder |
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| 54:30 | the humor radio basically articulates, but doesn't play any sort of appreciable |
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| 54:36 | It just kind of helps stabilize that that you've created with the Oh |
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| 54:42 | the radio owner joint on the other provides movement between those two bones. |
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| 54:49 | it's what allows pro nation separate Alright so this is allowed because of |
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| 54:56 | radio and owner joint. This is of the humerus and the ulna. |
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| 55:03 | help from the humerus and the Alright so that was the capitulate. |
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| 55:10 | here. Alright so how do we this stuff? Well we have a |
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| 55:15 | of ligaments, radial collateral ligament. which side of the arm do you |
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| 55:19 | that's gonna be lateral and medial Very good. Why where's the radius |
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| 55:27 | ? Alright when you see the word , think about collateral damage. What |
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| 55:32 | collateral mean? On the outside on edges? Alright. So radial collateral |
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| 55:39 | on the lateral side, owner collateral side. All right. And then |
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| 55:47 | annual ligament was the thing that allows that rotation. That's that pivot |
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| 55:52 | All right so what you're doing is going around the neck of the |
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| 55:56 | So here's your radius. Here's your . It's a ligament that goes around |
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| 56:02 | from one side of the ulna goes the radius head and around to the |
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| 56:05 | side of the ulna attaches. So is what allows the radius to rotate |
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| 56:10 | annular ligament. Okay so that's what for the pro nation insemination to occur |
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| 56:20 | far? We. Okay. All hip joint Like the shoulder joints. |
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| 56:27 | and socket. Alright differences. Is the ball and socket of the |
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| 56:33 | The Illinois cavity? The fossa there very very limited. Very very shallow |
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| 56:39 | the socket at the A. Tabula um is very very deep and |
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| 56:43 | also reinforced by a labrum. Alright you have already a deep socket then |
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| 56:48 | gonna put some more stuff on the to make it even deeper to lock |
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| 56:51 | in place. Alright so there's some there. These are gonna be reinforcing |
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| 56:57 | capsule. So we have the What are those between the ilium and |
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| 57:07 | S. S. Femur. Thank . So ephemeral the scheme and the |
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| 57:17 | and the ephemeral between the pubis. do you see what we're doing |
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| 57:22 | I'm attaching in different ways to make that I'm locking in that humorous. |
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| 57:29 | ? Not that humorous that femur into so that we strengthen that joint and |
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| 57:34 | have a whole bunch of muscles. have the gluteal muscles for example we |
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| 57:38 | the quadriceps for example that are gonna over that reinforce that. And this |
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| 57:44 | for a large range of motion but though than the shoulder girdle. Now |
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| 57:51 | old and feeble so my movement in hips are less but you can see |
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| 57:56 | can move my leg. Okay. . I know some of you can |
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| 58:02 | it a little bit better you know can do the hokey pokey. Put |
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| 58:06 | left foot in. Put the left out. Put your left foot in |
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| 58:11 | then we Yeah, that's right That's a lot of the work |
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| 58:16 | But you get the idea what does hip do? Can I lift my |
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| 58:21 | ? Can I lift my my my , my leg really at my hip |
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| 58:25 | up to my ear? I can't can some of you probably. |
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| 58:31 | so range of motion. Lots of of motion but not as much as |
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| 58:37 | shoulder. It's a ball and socket for the last one. I don't |
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| 58:45 | the joint. Alright, primarily a joint, but it's a weird hinge |
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| 58:50 | . All right. So when you about the hinge joint, what do |
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| 58:52 | think about you think about the receiving ? Right? The cup the fossa |
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| 58:56 | be shaped like this. You expect end of the other bone right to |
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| 59:00 | inserted in that so that you can in there here. What we have |
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| 59:04 | we have a by cond alor All right. And so remember at |
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| 59:09 | end of the femur we have the con dials. Remember I kind of |
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| 59:12 | like this. And so you have lateral and medial con dial. And |
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| 59:17 | they're doing is they're sitting on top the tibia. The tibia is for |
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| 59:20 | most part is fairly flat. So we do is we need to create |
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| 59:24 | of a socket for those con dials sit in. And this is what |
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| 59:28 | menace Keilar for. All right. here is the meniscus, that's basically |
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| 59:33 | cartilage that C shaped, there's there's two. And so what we've |
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| 59:37 | is we've now created sockets for each those con dials. Alright, So |
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| 59:42 | got my two little sees, I've my condo sitting in them. And |
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| 59:47 | what that's gonna do is I'm gonna for rotation in that condo because they're |
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| 59:54 | . I'm not gonna try to go way and I'm not gonna try to |
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| 59:57 | that way because then I'd be separating the bones from each other. So |
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| 60:02 | knees don't appreciably go left and right and laterally right. If I stood |
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| 60:08 | and was able to hold my my femur in place, I can't bring |
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| 60:16 | tibia and my favorite my lower leg , can I? Right. It |
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| 60:22 | it doesn't want to go that And really it's because there's very limited |
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| 60:27 | there. But what I can do I can flex right, and I |
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| 60:33 | extend and so what I'm doing is basically creating two structures that allow for |
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| 60:38 | hinge to be formed by those two dials. Now, if I'm |
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| 60:45 | So, you know, just picture getting kissed. Right, look at |
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| 60:51 | , I have more flexion or I I have more movement. There's still |
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| 60:54 | lot of movement up here in the , but I have quite a bit |
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| 60:58 | movement than when I'm in the extended . There's also another joint in |
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| 61:05 | that's patella femoral joint. What do think that's between the patella and the |
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| 61:09 | ? Do you see how there's there's tricks to any of this stuff. |
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| 61:13 | just if you know the names of bones, you know the names of |
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| 61:16 | . Alright. I'm just gonna tell right now. I mean you've heard |
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| 61:19 | say before we can name things really . This is also true in the |
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| 61:23 | system. Once you learn the names the parts you're gonna find out, |
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| 61:26 | this is going from here to there that's just the nomenclature. All right |
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| 61:33 | we said with synovial joints that we articular cartilage or an articular capsule that |
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| 61:39 | the joint, The knees. We have three sides, not four |
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| 61:44 | covered the reason we don't need the side coverage. We have the have |
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| 61:48 | patella plus the tendon and the ligament protects the front part of the |
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| 61:53 | All right, so the articular cartilage the articular capsule is responsible for the |
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| 61:59 | , the medial side as well as dorsal side. Whole bunch of muscle |
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| 62:06 | and stuff crisscrossing. So that's what this structure. And so whatever movement |
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| 62:12 | there's gonna be restricted by those joint as well as some tendons. Last |
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| 62:17 | the ligaments. What ligaments do we to know? All right. There's |
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| 62:21 | fun ones. Alright. There's the ones or you know? Or the |
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| 62:26 | ones. We have the cruciatus and we have the patellar ligament. Those |
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| 62:30 | the only ones I need you to about. All right. So what |
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| 62:33 | the collateral ones they can be You'll see them sometimes like in this |
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| 62:37 | they're referred to as the lateral and medial collateral ligaments. Historically they're named |
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| 62:42 | the bone that they're attached to. the fibula one and the tibial |
|
| 62:48 | So it's just basically saying if you which side of those bones on. |
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| 62:50 | remember fibula is on the lateral tibia is on the medial side. |
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| 62:54 | fibula collateral ligament, tibial lateral ca . It's just referring to the ligaments |
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| 63:00 | are reinforcing on the outside on the and the lateral side. These you've |
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| 63:07 | of before right here torn the it's anyone a cl both you told |
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| 63:16 | man that's the worst. All right called the cruciate ligaments because they cross |
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| 63:24 | are intrinsic ligaments meaning they are found the articular capsule. You can see |
|
| 63:31 | here being drawn here is the anterior the posterior purpose of the anterior cruciate |
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| 63:37 | is to create hyperextension. Alright, what it does is supposed to stop |
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| 63:43 | knee from going backwards. The posterior ligament is to prevent hyper flexion. |
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| 63:50 | right now not a lot of people hyper flex their knees. I have |
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| 63:54 | flexed my knee and I've got to the story and then you can go |
|
| 63:58 | I see you try to back All right long time ago I was |
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| 64:08 | with my then girlfriend who's now my and her family. You've never been |
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| 64:13 | . Oh my goodness. Alright. is fall. This is not the |
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| 64:17 | to go tubing, it's too Alright, tubing is when you go |
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| 64:20 | a river out in the hill you get a whole bunch of |
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| 64:24 | a whole bunch of friends, you rent a bunch of tubes and you |
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| 64:28 | to the river, they drop you and they say you're going down the |
|
| 64:32 | and then there's white water like in . Whitewater's you know, it's not |
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| 64:37 | much right, but we happen to on the frio river and there happened |
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| 64:41 | be some white water. There was a four ft waterfall, right? |
|
| 64:45 | going over. It's like we you , they go over, well I |
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| 64:48 | to go down the wrong way and foot got stuck underneath the tube and |
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| 64:52 | got squished, my foot tried to through my but it was really the |
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| 64:57 | way to describe it. I heard crunch but I was there with my |
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| 65:00 | and her family and so I had get up and walk around. |
|
| 65:03 | I'm cool. You know because everyone the crunch and it was like |
|
| 65:06 | no, I'm good. I'm I don't think I ripped anything but |
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| 65:10 | PCL is there to prevent that from . The last one is the patellar |
|
| 65:15 | , you can see here it's attached the tibia and the patella. It |
|
| 65:19 | is there to hold the pull the into place. All right. I |
|
| 65:23 | you guys are running out of You think you guys have it? |
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| 65:27 | . I'm gonna warn you now. next lecture is going to be less |
|
| 65:32 | and more physiology and it's more So I'm just gonna prepare you for |
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| 65:37 | one week till the exam. That's right. Lots of fun. |
|
| 65:45 | we got out |
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