Connective Tissue Proper: Dense Connective Tissue - Video Tutorials & Practice Problems
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1
concept
Dense Connective Tissue
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In this video, we're going to continue to talk about connective tissue proper as we begin our lesson on dense connective tissue and so dense connective tissue as its name implies is going to be named for the dense arrangement of protein fibers in the extracellular matrix. Now, dense connective tissues are often going to be poorly vascularized, which means that they often are going to have very few blood vessels, especially in comparison to loose connective tissues, which recall from our previous lesson videos are very well vascularized, meaning they have lots of blood vessels and so because dense connective tissues are poorly vascularized with few blood vessels, this means that they receive relatively little nutrients from blood vessels. And that means that they are going to heal relatively slowly upon being damaged or injured in comparison to other types of tissues that are very highly vascularized and receive lots of nutrients from blood vessels. And those highly vascularized tissues tend to heal a lot more quickly because they receive the nutrients that they need. In order to heal. Now, the high and dense fiber content of dense connective tissue. Again, the high amounts of protein fibers and the dense arrangement of the protein fibers in the extracellular matrix actually increases the strength of dense connective tissues. Now, really, there are three different types of dense connective tissue and those are dense, regular connective tissue, dense, irregular connective tissue and elastic connective tissue. And so, moving forward in our course, we're going to talk about each of these three dense connective tissues in their own separate videos. But it is worthy of noting that these three different types of dense connective tissues are going to differ slightly in their fiber arrangements. But again, we'll get to talk more about that as we move forward in our course. And so notice down below what we have is an image of our map of the lesson once again on connective tissue and recall that connective tissues can be grouped into two major classes, connective tissue proper or general or fibrous connective tissue and specialized connective tissue. Now, we'll talk about the specialized connective tissues later in our course, right now, we're focused on connective tissue proper and we've already covered loose connective tissues including Ariola reticular and adipose tissues in our previous lesson videos. And so here in this video, we're focused on dense connective tissues. And again, there are three types of dense connective tissues, including regular dense, regular connective tissue, dense, irregular connective tissue, and elastic connective tissue. And so again, moving forward in our course, we're going to talk about each of these three different types of dense connective tissues in their own separate videos starting with dense regular connective tissue. And so this year concludes our brief lesson on dense connective tissues. And I'll see you all in our next video to talk more details about dense regular connective tissue.
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concept
Dense Regular Connective Tissue
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In this video, we're going to talk about the first type of dense connective tissue in our lesson, which is dense regular connective tissue. And so of course, the word dense clearly indicates this is a type of dense connective tissue where the protein fibers in the extracellular matrix are going to be really densely arranged where they're packed really closely together. And the term regular indicates that the protein fibers create a regular pattern due to the parallel arrangement of the protein fibers. And so in terms of the characteristics, we can say that dense regular connective tissue is going to have a regular or a parallel fiber arrangement, which you can actually see in this little image here where you can see the fibers are again really densely packed together but arranged in a regular pattern with a parallel fiber arrangement. Now, in terms of the composition, it's mostly going to be collagen fibers that are found in the extracellular matrix. However, in some cases, there can be a smaller amount of elastic fibers, but again, it's mostly going to be collagen fibers. And so recall from our previous lesson videos that collagen fibers are going to be made from smaller collagen proteins which are non elastic proteins that provide strength. And so these collagen fibers are going to be long and thick, unb branched or straight fibers. And that unb branched or straight fiber is going to allow collagen fibers to provide a lot of strength. And because dense regular connective tissues have mostly collagen fibers that provide a lot of strength, dense regular connective tissue is also known for its strength. Now, in terms of collagen fibers, it is worthy of noting that they are not completely stiff structures and they do provide a little bit of flexibility. And this is because collagen fibers are actually slightly wavy. And so if we take a look at this micrograph of dense regular connective tissue down below, notice the fiber blasts are going to be the darker spots that you see and the collagen fibers are going to be really, really densely packed together. And again, collagen fibers are going to be slightly wavy. And so you'll notice that this micrograph has a little bit of a wavy pattern to it. And so because collagen fibers are slightly wavy, it gives them a little bit of flexibility when they are pulled upon and when they have tension. And so those wavy collagen fibers can actually straighten out. And again, that gives it a little bit of flexibility. However, once those collagen fibers have been completely straightened out, that is when the strength of the collagen fibers really shows because once those collagen fibers are straightened out, those collagen fibers do not have a lot of give to them. And so they provide a lot of strength. Now, unlike loose connective tissues, which tend to have a variety of different cell types, dense, regular connective tissue primarily is going to have fibroblasts that actively secrete and build components of the extracellular matrix. And so it tends to lack a variety of other cell types, including adipocyte or fat cells, and migratory immune cells that defend against infection. And also unlike loose connective tissues, which are very well vascularized with lots of blood vessels, dense, regular connective tissue is actually pretty poorly vascularized, which means that it's going to have very few blood vessels. And ultimately, that means dense, regular connective tissues have a tendency to heal slowly since they are poorly vascularized, they receive relatively little nutrients from the flu few blood vessels that it does have and receiving relatively little nutrients ultimately leads to slow healing upon being damaged and uh injured. Now, in terms of the function again, because it's made of mostly collagen fibers, it's no surprise that it's going to be specialized for strength. However, because these fibers are arranged in a parallel fashion where they're all going to be parallel to one another forming that regular pattern. It's actually only going to provide strength mainly in one direction where the forces of the pulling forces, intention are actually going to be parallel to the axis of those parallel fibers. And so that means that really, it only provides strength in one particular direction, either you know, uh one particular plane, either to the left or to the right, but not multiple directions. Now, in terms of the locations where we can find dense regular connected tissue, it's important to note that they can be found in ligaments, tendons or FASA. Now, ligaments are going to be be structures that connect bone to bone tendons are going to be structures that connect muscles to bone and then fascia is going to wrap muscle. And so notice over here in this image, we're showing you some bones being connected to other bones through ligaments. And again, those ligaments are made of dense regular connective tissue. And then in this little image, we're showing you muscles being connected to bone through tendons. And again, tendons are going to be formed through dense regular connective tissue. And then notice here, we're showing you fascia which is going to wrap around muscles. And again, that is going to be made in some cases by dense regular connective tissue. And so it's really important for structures such as ligaments and tendons to have a lot of strength. Because when muscles contract again, they're going to be connected to bones through tendons. And so the tendons need to have a lot of strength because they need to be able to pull the bones in a particular direction in order to move those bones and the same goes with ligaments, ligaments need to be really, really strong because again, when they move, they need to be able to hold the bones together for proper movements. And so this year concludes our lesson on dense regular connective tissue. And as we move forward in our course, we'll be able to apply these concepts and learn more about other types of dense connective tissue. So I'll see you all in our next video.
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example
Connective Tissue Proper: Dense Connective Tissue Example 1
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So here we have an example problem that asks what type of connective tissue is shown in the image below. And we've got these four potential answer options. And so when we take a closer look at this micrograph of the tissue, notice we're focusing in on the pink colored tissue and notice that the darker spots that you can see throughout this tissue represent the nuclei of the fibroblasts. And also notice that the protein fibers in the extracellular matrix are really really densely packed together and notice that the protein fibers form a regular pattern because those protein fibers are arranged in a parallel fashion. And so what this means is that we are going to have a dense regular connective tissue here. And so notice answer option c suggests dense regular connective tissue. And so option C is going to be the correct answer for this example problem. Now, option A says Ariola connective tissue, but recall that is a type of loose connective tissue that has very loosely arranged protein fibers kind of in a random direction and it creates those pores or small open spaces. And again, we don't really see that in this really densely packed region of the tissue. So we can eliminate option A, option B says dense irregular connective tissue, which we have not yet covered in our previous lesson videos, but we will cover in our next lesson video. So we should have been able to eliminate option B and then option D is dense elastic connective tissue, which again, we have not yet covered in our previous lesson videos and will cover moving forward in our course. So again, we could have eliminated option D for those reasons. And so this is option C is the correct answer to this example and that concludes this example. So I'll see you all in our next video.
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Problem
Problem
What feature about dense regular connective tissue makes them well suited for tendons?
A
The uniform direction of fibers make it extremely strong.
B
The multidirectional fibers withstand forces from different directions.
C
The elastic fibers optimize for recoil.
D
The high adipocyte content cushions joints.
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concept
Dense Irregular Connective Tissue
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In this video, we're going to talk about the second type of dense connective tissue in our lesson, which is dense irregular connective tissue, which is pretty much made of the same structural components as dense regular connective tissue. And the biggest difference is that the protein fibers in the extracellular matrix are going to form an irregular or a random protein fiber arrangement. And so we can say that dense irregular connective tissue is going to have really densely packed protein fibers in the extracellular matrix that form an irregular or a random protein fiber arrangement instead of being parallel arrangement like dense regular connective tissue. Now, in terms of the composition, again, it's mostly going to be collagen protein fibers that make up the fibers in the extracellular matrix. However, there can be a smaller amount of elastic protein fibers as well. But again, it's mostly collagen fibers. And so recall that the collagen fibers are made up of smaller collagen proteins which are non elastic proteins that are designed for strength. And so recall that these collagen fibers are going to be relatively long, thick unbranded and straight protein fibers, which gives them a lot of strength However, the collagen fibers are not completely stiff and they have a little bit of a wave to them, which gives them a little bit of flexibility. But again, once those fibers have been straightened out, that is when their strength truly shows because they are going to uh again, resist pulling forces and tension. Now, in terms of the function, because the collagen fibers are randomly arranged in all kinds of directions. This means that dense irregular connective tissue is going to be specialized for shrink but actually in multiple different directions, unlike being specialized for shrink in just one particular direction along the axis of the parallel fibers and dense regular connective tissue. And so because these fibers are again randomly arranged in dense irregular connective tissue, that means that all of the fibers are not going to be working together in the same direction. And so that means that it's not going to be quite as strong as dense regular connective tissue, which has parallel arranged collagen fibers that are all working in the same direction. And so in terms of its functions, it is going to provide structural strength and protection again because it can resist forces in multiple directions. And so we can expect to find it in locations of the body where they need to be able to resist forces in multiple directions. For example, dense irregular connective tissue is actually going to be found beneath the ollar loose connective tissue in our skin and so dense, irregular connective tissue actually makes up the larger portion of the dermis, which is part of our skin. And there it's going to help prevent tearing of the skin again because it can resist forces in multiple directions. And dense irregular connective tissue can also be found wrapping joints, organs such as the heart, for example, it makes up the pericardium around the heart or part of it and it can be found wrapping around bones as well. And so notice over here, we have an image showing a diagram of the skin. And recall from our previous lesson videos that the outermost layers of the skin is made of an epithelial tissue known as stratified squamous epithelia, which is this outer layer that you can see highlighted right there. And then beneath that this light blue layer that's very thin represents the areolar connective tissue, a type of loose connective tissue that we talked about in our previous lesson videos and then beneath the areolar connective tissue as we indicated over here in the text is going to be where the dense irregular connective tissue can be found in the skin. And so that's going to be represented by this darker larger blue region that you can see indicated here. And so the dense irregular connective tissue makes up the vast majority of the layer of the skin known as the dermis. And there it's going to provide again resistance to forces in multiple directions which is really important for the skin to have. In fact, an interesting note is that the product leather is made from the dermis of animal skins and in the dermis, again, it's made of mostly dense irregular connective tissue. And the ability for dense irregular connective tissue to resist forces in multiple directions is what gives the product leather its durability. Now, beneath the dense irregular connective tissue is a layer known as the subcutaneous layer, which is mostly made of adipose tissue. Now, later in our course, in a different chapter, when we're talking about the integumentary system, we're going to talk a lot more details about the skin. And so we'll revisit all of this again. Now, dense irregular connective tissue again can also be found wrapping joints. And so notice over here, we can see the dense irregular connective tissue, wrapping the joints again, allowing it to resist forces in multiple directions, which is important for joints. And so notice here, we have a micrograph of the ele uh the dense irregular connective tissue. And what you'll notice is that the fibers are going to be very, very thick fibers and the darker spots that you can see in a purpleish or bluish color, those are the fibroblasts. And so notice that again, the fibers are going to be made of mostly collagen fibers and you can see that they have some regions here that are kind of longitudinal, you know, uh collagen fibers. But then there are other regions that you can clearly see are more dense and irregularly shaped uh collagen fibers. And so these irregularly shaped collagen fibers that have this random arrangement allows this entire dense irregular connective tissue to resist forces again in multiple different directions. And so this year concludes our lesson on dense irregular connective tissue. And moving forward, we'll be able to apply these concepts and talk about the last type of dense connective tissue. So I'll see you all in our next video.
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concept
Putting It Together: What is Under Your Skin?
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So now that we've covered loose connective tissues and some types of dense connective tissues. In this video, we're going to be putting it all together and briefly talking about what's under your skin. Now, it's important to note that later in our course, in a different chapter, when we're talking about the integumentary system, we'll talk a lot more details about the skin. But here in this video, we're only briefly going to talk about what's under your skin. And so there are actually many layers of connected tissue and epithelial tissue that come together to create the skin. And so notice down below, we have a diagram showing you what's under our skin. And notice on the left, we are focusing on the layers, whereas on the right, we have the functions for each of those layers. And so recall from our previous lesson videos that the outermost layers of our skin is made of epithelial tissue. And so notice that the outermost layer here again, is made of epithelial tissue, more specifically stratified squamous epithelium, which recall means that it's going to have multiple layers of these flat or squish cells on the apical surface and the stratified squamous epithelium actually has multiple functions but its primary function is protection. It does protect and it protects by preventing chemicals and microbes from penetrating through the skin into deeper tissues. Now, beneath the stratified squamous epithelium is going to be areolar connective tissue which recalls a type of loose connective tissue and it is going to be highly vascular, meaning it has lots and lots of blood vessels which is going to allow it to support the epithelial tissue, which is avascular. Now notice beneath the areolar connective tissue here in this darker blue region, we have the dense irregular connective tissue where the collagen fibers in the extracellular matrix take on an irregular or random fiber arrangement which allows it to resist multidirectional forces, which is important for the skin to be able to do. And so notice that the dense irregular connective tissue here is making up a pretty large portion of the skin. Now deeper to the densely regular connective tissue is the subcutaneous layer which has adipose connective tissue and adipose connective tissue has multiple functions including providing insulation, helping to keep the body warm. And so once again, later in our course, we'll talk a lot more details about the skin. But hopefully this little diagram here putting it all together was helpful to show you how the skin comes together with these multiple layers of connective tissue and epithelial tissue. So that concludes this video and I'll see you all in our next video.
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example
Connective Tissue Proper: Dense Connective Tissue Example 2
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So here we have an example problem that asks what property of dense irregular connective tissue makes it well suited to withstand the wear and tear experienced by the skin. And we've got these four potential answer options down below. And so recall from our previous lesson videos that dense irregular connective tissue does not have a uniform direction of fibers because those fibers are going to be irregularly or randomly arranged and it's actually dense regular connective tissue that has the uniform direction of fiber since those fibers are arranged in a parallel fashion. And so because of this, we can actually eliminate answer option A. Now notice option B says the multidirectional collagen fibers resist force from multiple different directions. And so this is actually going to be the correct answer. Again, recall that the collagen fibers and dense irregular connective tissue are irregularly randomly arranged and that random arrangement allows those collagen fibers that provide strength to resist forces from different or multiple directions. And so answer option B is going to be the correct answer for this example problem. Now notice option C says the elastic fibers optimize for recoil. Now recall that there can be elastic fibers in the extracellular matrix, but they're going to be in much smaller amounts than the collagen fibers. And so for that reason, we can eliminate answer option C and also those elastic fibers are not going to uh help with the wear and tear if you will because they don't necessarily provide strength, they provide a little bit of flexibility which can also be important for wear and tear. But again, it's more the multidirectional collagen fibers that are going to make the skin well suited for wear and tear. Now, answer option D says the high adipocyte content cushions the skin. But recall from our previous lesson videos that dense, irregular connective tissue, like dense regular connective tissue does not have a variety of cell types like loose connective tissue does. And so it actually does not have a high adipocyte content. And so for that reason, we can eliminate option D. So again, option B here is the correct answer to this example. So I'll see you all in our next video.
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concept
Elastic Connective Tissue
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In this video, we're going to talk about the third and final type of dense connective tissue in our lesson, which is elastic connective tissue. And so elastic connective tissue is sometimes considered a subtype of dense regular connective tissue because they both have really densely arranged protein fibers that form a regular or a parallel protein fiber arrangement. And so notice here in this little image, you can see the densely packed and parallel arranged protein fibers in the extracellular matrix of elastic connective tissue, which we saw was also the case for dense regular connective tissue. And so really the way that dense regular connective tissue differs from elastic connective tissue is as this name implies with the term elastic elastic connective tissue has an extracellular matrix dominated by elastic protein fibers. And so the elastic protein fibers are going to outnumber the collagen fibers, which recall was the opposite for dense regular connective tissue which had mostly collagen fibers and smaller amounts of elastic fibers. And so recall from our previous lesson videos that elastic protein fibers are made of the smaller protein elastin, which is going to allow for elasticity or the ability to stretch significantly but then equally as importantly, return back to its original shape after being stretched. And so again, because elastic connective tissue has an extracellular matrix dominated by elastic protein fibers that's going to contribute directly to its function, which uh elastic connective tissue is actually specialized for elasticity again, which refers to its ability to stretch and again, return back to its original shape after stretching. And so elastic connective tissue is going to be really important for body structures that need to rely on the elastic ability so that they can bend, expand and contract. And so, for example, we can expect to find elastic connective tissue and body locations such as the walls of arteries, including the aorta, which is the artery highlighted here coming out of the heart, which need to be able to expand when larger volumes of blood are coming through, but then recoil back to its original shape. In order to maintain blood pressure, we can also find elastic connective tissue in the respiratory passage ways including the trachea, the bronchial tubes and other lung tissue as well, which need to be able to expand when we inhale and then recoil back to its original shape when we exhale. And we can also find elastic connective tissue in the ligaments of the spine, for example, which allows our spine to have some flexibility and allows us to be able to bend, for example. And so notice over here, we have a micrograph of elastic connective tissue. And what you can clearly see is that it is going to be, it's going to have these really densely arranged elastic fibers in a regular or parallel fashion. And so you can see here, I'll use a different color green that you can see better that these elastic fibers are very wavy and they can also be branched. And what you'll notice is that they're really densely packed together. And because of these elastic fibers, this is what really gives elastic connective tissue its elastic ability. And so this year concludes our lesson on elastic connective tissue. And as we move forward, we'll be able to apply these concepts. So I'll see you all in our next video.
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example
Connective Tissue Proper: Dense Connective Tissue Example 3
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So here we have a true or false example problem that says elastic connective tissue is high in adipocyte. And so we've got two potential answer options down below. Option A says true elastic connective tissue has high quantities of adipocyte to assist in recoil. And then option B says false elastic connective tissues has high quantities of elastic fibers to assist in recoil. And so recall from our previous lesson, videos that adipocyte are fat cells and so they store fats or triglycerides as these relatively large lipid droplets within the cell. And so these adipocyte can be found in loose connective tissues including adipose connective tissue and ollar connective tissue. But these adipocyte are not found in dense connective tissues including elastic connective tissue, which is a type of dense connective tissue. And so these adipocyte are not going to play a role in recoil. And so uh that's another way we could have eliminated this option. And so uh option A is not going to be correct. It's option B that is the correct answer to this example which says false elastic connective tissue has high quantities of elastic fibers to assist in recoil. And so we can go ahead and indicate that option B here is the correct answer to this example that concludes this example. So I'll see you all in our next video.
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Problem
Problem
Marfan syndrome is a genetic condition that affects production and maintenance of elastic fibers in the ECM. Based on this information, what may be a regular serious complication of Marfan syndrome?
A
An inability to store nutrients as production of adipose tissue is inhibited significantly.
B
Regular rupture of ligaments as the fibers in dense regular connective tissue would not be produced properly.
C
Hyper elasticity of skin as dense irregular connective tissue of the dermis would stretch more.
D
Rupture of the aorta, as elastic connective tissue in large blood vessels allows for stretching and recoil.
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Problem
Problem
During a dissection, you are asked to identify a tough connective tissue that connects 2 of the bones of the arm. What type of connective tissue makes up that structure?
A
Dense Regular Connective Tissue.
B
Dense Irregular Connective Tissue.
C
Dense Elastic Connective Tissue.
D
Cartilage.
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concept
Review of Dense Connective Tissues
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In this video, we're going to do a review of the three different types of dense connective tissues. And so because this video is a review really, there's no new information covered in this video that we haven't already covered in our previous lesson videos. And so because that's the case, if you're already feeling really good about dense connective tissues, then you can feel free to skip this video. But if you're looking for a little bit of a review, then stick around because this video could be really helpful for you. And so that being said, notice down below, we have a table of the different types of dense connective tissues. And so notice the first column has the particular type. The second column has some key characteristics. The third column has some important functions and the fourth column has some example locations of where these tissues can be found in the body. And so recall that with dense connective tissues, they are all going to have really densely packed protein fibers in their extracellular matrix. And so that will be key for all three of these different types of dense connective tissues. Now recall that the first type of dense connective tissue that we covered in our lesson was dense, regular connective tissue. And it's called regular because the protein fibers create a regular pattern or a parallel arrangement of the collagen fibers in the extracellular matrix. And recall that collagen fibers are going to predominate in the extracellular matrix. And so they're going to be the most abundant fibers. Now there can be some smaller amounts of elastic fibers as well. But again, it's the collagen fibers that predominate and recall that these collagen fibers are designed to be strong, but they do have a little bit of flexibility to them as well. And so dense, regular connective tissue is actually going to lack adipocyte or fat cells as well as migratory immune cells. And it's also going to be very poorly vascularized, which means that it has very few blood vessels and that's actually going to be the case of all dense connective tissues. And so, uh because they are poorly vascularized, that means that they have a tendency to heal slowly. So notice down below, we have this micrograph of dense regular connective tissue and the darker spots represent the fibroblasts that are in the tissue. And what you'll notice is that the collagen fibers are really, really densely packed in a parallel arrangement or a regular arrangement. And notice that there is a little bit of waviness to these collagen fibers, which gives them a little bit of flexibility. But once those collagen fibers straighten out, then that's when their strength really shows because they don't really give much or have much give once they are straightened. Now, in terms of the function again, because it consists mostly of collagen fibers that are in a parallel fashion, those fibers are going to all work together in the same direction, providing a lot of strength. And so it is going to be specialized for strength, but particularly in one specific direction. And that's in the direction that is going to be in the same axis of the parallel fibers. And so in this case, it would be either to the right or to the left. Since again, the parallel fibers are arranged in this fashion from right to left. Now, in terms of the example, locations, dense regular connective tissue is going to be found forming ligaments which connect bones to bones tendons which connect muscles to bones and fascia which wraps around muscles. And so notice here we have a little image of some muscle with some fascia around it. Here, we're showing you a tendon that's connecting the muscles to the bone. And over here, we're showing you some ligaments which are connecting bones to bones. And again, they need to be very, very strong in one particular direction in order to keep these structures intact and held together. Now, the next type of dense connective tissue that we covered in our lesson was dense, irregular connective tissue and so dense irregular connective tissue is pretty much going to be the same structurally as dense regular connective tissue. But the biggest difference is that the protein fibers are going to have an irregular pattern or a random fiber arrangement. And again, it is going to be made mostly of collagen fibers that provide strength. But again, because these fibers are arranged in a random direction, they're not all working in the same direction. And so it allows for uh the specialization of strength but in multiple or many directions, unlike again, with dense regular connective tissue, which only allows for strength in one particular direction. And so notice here in the micrograph, you can see that the darker blue spots are going to be the fibroblasts. And you'll notice that uh these pink areas represent the irregular uh fibers, collagen fibers. And notice that there are some longitudinal areas here that are horizontal, but then there are also these thicker bundles, these really dense bundles of collagen fibers throughout that are irregularly arranged in a random pattern. Again, allowing it to specialize in strength in many directions and resist forces in many directions. Now, uh dense irregular connective tissue can be found beneath the alar tissue in the skin which is going to help prevent tearing again because it helps to resist forces in multiple directions. And it can also be found wrapping joints, organs and bones. And so notice here we have a little diagram of the skin and the dense irregular connective tissue is this thicker uh darker blue area that you can see uh highlighted right here and recall that the product leather is actually made from the dermis of animal skins, which again is made mostly of a dense irregular connective tissue. And the uh randomly arranged fibers are going to allow it to resist forces in multiple directions. And that is what allows leather to be a durable product. And so over here, you can see that there's also dense irregular connective tissue wrapping this joint again, allowing it to resist forces in multiple directions. Now, the last type of dense connective tissue that we covered in our lesson was elastic connective tissue and elastic connective tissue. In some textbooks is actually categorized as a subtype of dense regular connective tissue because both dense regular connective tissue and elastic connective tissue have a regular pattern or a parallel fiber arrangement. And so that is going to be the same for both dense regular connective tissue and elastic connective tissue. And so really the biggest difference between dense regular connective tissue and elastic connective tissue is that elastic connective tissue as its name implies, is going to have lots of elastic fibers dominating the extracellular matrix. And so the elastic fibers are going to greatly outnumber the collagen fibers. And recall that elastic fibers allow for elasticity, the ability to stretch significantly, but then return back to its original shape after being stretched. And so uh recall that elastic fibers are branched and wavy. And in this micrograph here, you can clearly see those branched and wavy fibers uh that are elastic fibers. Now again, because elastic connective tissue has those elastic fibers. It is going to be specialized for elasticity, again, the ability to stretch but then return back to its original shape after being stretched. And so elastic connective tissue is going to be important for body structures that need to be able to bend, expand and contract. And so some example, locations of where elastic connective tissue can be found is in the walls of arteries such as the aorta, for example, which is the artery that comes out of the heart that you can see highlighted here. It's also found in the respiratory passage ways including the trachea and the bronchial tubes and other lung tissue, which need to be able to expand when we inhale and then recoil back to their original shape when we exhale. And it can also be found in the ligaments of our spine, allowing us to be able to bend and again, uh have some flexibility. And so this here concludes our review of dense connective tissues and we'll be able to get some practice applying these concepts as we move forward and then we'll talk about specialized connective tissues. So I'll see you all in our next video.
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Problem
Problem
An anterior cruciate ligament (ACL) tear is a common knee injury among athletes. The function of ligaments is to attach bones to each other and keep them stable. Given what you know about connective tissue, what type of tissue do you expect would be involved?
A
Loose Connective Tissue Proper.
B
Dense Regular Connective Tissue.
C
Areolar Connective Tissue.
D
Dense Irregular Connective Tissue.
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