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  • Technically, were all just meat.

  • Yeah, you could say that what makes us human is our emotions, or thoughts, or memories,

  • but physically, were not all that different from this.

  • Were used to thinking of meat as the muscle tissue that people cook and eat -- but the

  • fact is, you could eat that stuff raw. A chicken breast or a steak or a pork chop is tender

  • enough that it doesn’t need cooking.

  • What does need cooking is all of the connective tissue that’s in and around the muscle,

  • and gets in the way of our meal.

  • So one of the main reasons humans began to roast, and boil, and bake meat in the first

  • place, was to break down those connective tissues that we can’t chew, so we could get the meat.

  • Now, you mightve noticed that connective tissues kind of seem like a grab bag of materials

  • that don’t really fit in other groups.

  • Our muscle, nervous, and epithelial tissue types are more uniform, more obviously grouped

  • together. Sometimes, our connective tissues just seem like the leftovers you throw in the stew pot.

  • But appearances are deceiving, and our inability as a species to tolerate these tissues in

  • our food is just one reminder that no matter how different tendon, bone, or a hunk of fat

  • may appear, they are indeed very closely related.

  • They all spring from the same embryonic cells, and their structures are dominated, not by

  • cells, but by an extracellular matrix full of fibers.

  • And it’s those fibers that have given humans the most trouble in our meat-eating history.

  • It wasn’t until we figured out how to cook the stuff the that we were able to denature, or

  • change the natural structure of, those protein fibers so that they became soft and pliable.

  • Take a chicken for example. You couldn’t just pull the skin off a living bird -- like

  • ethically you couldn’t do that but also you probably couldn’t.

  • Its living skin is anchored by connective tissue that’s full of collagen fibers. But

  • if you roast that chicken, and break apart that collagen, suddenly the skin just peels

  • right off with no effort at all.

  • So connective tissues, as evidenced by this mess here, are good reminders of how sometimes

  • things are more similar than they appear.

  • Theyre also delicious . . . if youre into that.

  • So we know what our connective tissues have in common, and we know that weve got four

  • different types -- but what do they look like, what do they do, and where are they found

  • -- both in your butcher shop, and on your body?

  • Perhaps your most diverse type is your classic connective tissue proper. It comes in both

  • loose and dense subclasses, based on how many fibers it has in its ground substance.

  • Pull on the back of your hand. See that fleshy tent there? That’s one example of loose

  • connective tissue. There’s a lot of ground substance in here, and the elastin fibers

  • help it snap back into place, while the collagen helps anchor it so you can’t, like, snag

  • your skin on a zipper and watch it just fly off.

  • But try pulling on your Achillestendon, or these wing tendons here, and there isn’t

  • a lot of give. That’s because a tendon is an example of dense connective tissue, with

  • a lot more collagen. You could chew and chew and chew on a collagen-dense tendon and never

  • get anywhere. That’s why butchers trim off most dense connective tissue before selling cuts of meat.

  • So loose connective tissues have fewer fibers, and more cells and more ground substance.

  • Areolar tissue is the most common loose connective tissue you have, found ALL over your body,

  • just under your epithelial tissue, and wrapped around your organs.

  • It’s got a loose and random arrangement of fibers, with just a few fibroblast cells

  • that make those fibers. If you look at it under a microscope youll see that its most

  • obvious feature is that it looks like it has a lot of open space in it.

  • This makes areolar tissue makes it great at holding the watery, salty ground substance

  • that surrounding tissues draw from.

  • Your adipose tissue, meanwhile, is your fat tissue, the loose connective tissue that’s in here.

  • Rather than being mostly ground substance, this one is mostly cells -- adipocytes -- which

  • store lipids for later use, insulate the body against heat loss, and grow pot bellies and love handles.

  • The average person’s weight is about 18 percent adipose tissue, and it’s those fat

  • stores that keep us alive when food is scarce. With no fat stores, you’d die within a few

  • days of your last sandwich.

  • Reticular tissue is like areolar tissue, but with a woven mess of reticular fibers -- rather

  • than collagen and elastin fibers -- hence the name.

  • This tissue provides the soft internal framework, or stroma, of the spleen, lymph nodes, and

  • bone marrow, and it supports lots of developing blood cells. Just as your areolar tissue is

  • a kind of sponge for watery ground substance, your reticular tissue is what holds your blood

  • in place in many of your organs.

  • Really, all of these loose connective tissue proper types share an airy dispersal of fibers

  • ... which is why theyre easier to eat after cooking -- and why you can pull cooked chicken skin apart.

  • On the other hand, you can’t easily rip a tendon or ligament in two, or even chew

  • it, because it’s made of that dense regular tissue, full of tight bundles of collagen

  • fibers all running parallel.

  • You can see how neat and smooth a slide sample looks under a scope, the fibers being those

  • white, flexible structures. They provide great resistance to tension when that tension is

  • exerted in one direction.

  • That’s why you find this tissue in your tendons, which connect muscle to bone or other

  • muscle, and your ligaments, which bind bones together anywhere youve got a joint.

  • But what if those collagen fibers aren’t all stacked regularly in rows?

  • Then it forms dense irregular tissue, whose fibers are thicker and arranged erratically

  • -- it’s found wherever tension might be exerted in lots of different directions, like

  • the leathery dermis underlying your skin.

  • And finally, your body has places that require more elasticity than rigidity, like say, around

  • your joints. That’s where youll find dense elastic tissue -- for example, connecting

  • your vertebrae so that your spine can curve and twist.

  • Some of our largest artery walls are made of this stretchy elastic tissue, too, which

  • provides both support and flexibility.

  • From fat to tendons, connective tissue proper is the most diverse group in this tissue family.

  • But for the last few minutes youve also been watching a different type of connective

  • tissue bob up and down as I talk -- cartilage

  • Cartilage doesn’t have any blood or nerves, and it stands up against both tension and

  • compression pretty well -- it’s that whitish gristle you see at the end of pork ribs or

  • chicken wings in your grocer’s freezer -- and it’s another thing that youre not going

  • to have much luck chewing.

  • Hyaline cartilage is your most common type -- it’s kind of glassy looking and provides

  • pliable support. It connects your ribs to your sternum and keeps the tip of your nose all perky.

  • Its ground substance is rich with those sticky, starchy proteoglycans, and although it has

  • collagen fibers, when you look at it under a scope, you can’t really see them -- instead

  • the tissue looks glassy, hence the namehyalmeaning glassy, or transparent.

  • Elastic cartilage is very similar to hyaline, but with more elastic fibers that are easier

  • to see, and it’s found in places where strength and stretchability are needed. Like, it’s

  • why I can pull on my ear without it ripping off.

  • And just as your body needs firm parts and stretchy parts, it also needs shock absorbers.

  • That’s where your fibrocartilage comes in. It’s dominated by thick fibers of collagen

  • and is good at withstanding lots of pressure, so it makes up the discs between your vertebrae,

  • and your knee joints where it keeps your bones from grinding together.

  • And speaking of bones!

  • Although you might not think of something so hard and durable as living tissue, bones

  • definitely are.

  • The wordbonecan refer to an entire organ -- like your femur or scapula -- or

  • just bone tissue. And that bone, or osseous tissue, is just calcified connective tissue,

  • perfect for supporting and protecting your body’s various structures.

  • Spongy bone tissue is typically found in the heads of long bones and in the inner layer

  • of flat bones like the sternum. This spongy tissue is strong, but porous, even to the

  • naked eye, and it uses this extra room to make and store bone marrow.

  • Compact bone tissue on the other hand is quite dense, with no visible spaces. It forms the

  • external layer of your bones and stores calcium for bone cells to use to make more tissue.

  • Now, if bone doesn’t conjure up your traditional image of a tissue, blood probably doesn’t

  • either -- I mean, it doesn’t seem to connect things, or lend support, and yet, blood is

  • our fourth type of connective tissue.

  • And when you think about it, it clearly does connect distant parts of your body and provides

  • some rigidity to other parts.

  • Just like other connective tissues, blood develops from mesenchyme and is made up of

  • cells surrounded by an extracellular nonliving matrix: In this case, the ground substance

  • is your blood plasma, which has protein fibers floating around in it.

  • Your blood’s main job, of course, is delivering goods -- it transports cells, and nutrients,

  • and hormones, and wastes, and all kinds of other stuff, keeping all the parts of your

  • body connected in the process.

  • Most of your blood cells are erythrocytes, or your famous red blood cells that zoom around,

  • carrying oxygen and carbon dioxide through your body. Youve also got larger, infection-fighting

  • white blood cells, or leukocytes in the mix, and your platelets, the small cell fragments

  • needed for blood clotting so that a paper cut doesn’t bleed you dry.

  • Unlike other connective tissues, it doesn’t really have what you would call fibers, but

  • instead has a bunch of protein dissolved in the plasma, and those protein molecules will

  • form fiber-like structures when your blood needs to clot.

  • So. You take your four primary types of tissues, and all of the subtypes of each that’s taken

  • us weeks to explore, and you can probably see how they can come together in many, many

  • combinations to form all of your body’s organs.

  • And just like that chaotic cafeteria packed with middle-schoolers -- we’d be hopeless

  • messes without our hierarchy of organization, our inner and outer boundaries, and the ability

  • of our systems to communicate with each other.

  • THAT is what our tissues do for us, and we wouldn’t exist without them.

  • Today we wrapped up our four-episode series on tissues, with a survey of the sub-groups

  • of loose and dense connective tissue, including areolar, adipose, reticular, tendons, ligaments,

  • dense irregular, and dense elastic tissue. We also talked about the three cartilage types,

  • spongy and compact bone connective tissue, and how and why our blood is also a connective tissue type.

  • Thanks to all of you for watching, especially to our Subbable subscribers, who make Crash Course

  • possible to themselves and also to the rest of the world. To find out how you can become a supporter, you

  • can go to Subbable.com. And don’t forget to go to Youtube.com/CrashCourse and subscribe.

  • This episode was written by Kathleen Yale, the script was edited by Blake de Pastino,

  • and our consultant is Dr. Brandon Jackson. It was directed by Nicholas Jenkins & Michael

  • Aranda and our graphics team is Thought Cafe.

Technically, were all just meat.

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組織,第4部分--結締組織的類型。速成班A&P #5 (Tissues, Part 4 - Types of Connective Tissues: Crash Course A&P #5)

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