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I really like this picture that I found. It actually
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shows you really neatly where the heart sits in our body
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so you can see the heart is surrounded, on both sides, by ribs, right?
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And in fact, I didn't draw it in yet, but let me show you where the
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lungs would be. This is the right lung
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and on this side you'd have the left lung. So this is where
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your heart sits: between two lungs. And I'm saying
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left and right from the perspective of the the person who owns this
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heart. So this is their left and right, which is the opposite
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of us if we're looking at it. The heart is actually sitting between the two
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lungs within this protective casing that
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the ribs are basically there to keep all these important organs
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safe. And then below them, so if you draw
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this here. Or if I draw it, you can
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see now that below all this stuff is
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a really really important muscle. So this muscle
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people don't talk about this muscle, or this is not the kind of muscle
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that you usually see people working on at the gym, but this muscle is called the diaphragm.
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So your diaphragm muscle
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and your ribs are enclosing a space, right? The diaphragm becomes the floor, and the ribs are kind of the
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ceiling and the walls of this space.
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And if you look at the contents of this space, you'd have your lung
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and you'd have your heart. So, this entire space then
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is called your thorax.
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So what exactly does the heart do? Let's actually make a little bit of
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space now, and bring up a
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zoomed in version of the heart.
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Let me start by orienting you to the heart. This is our right lung
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and on the other side we have our left lung. And all this would be
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inside of the rib cage, but I'm not going to draw that now, because that would
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make it harder to see the heart itself. So to think
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about exactly what the heart does, I think one, kind of neat way to do it is
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to actually imagine that you're a cell. So put yourself in the perspective
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of a cell, and let's say you're a cell hanging out
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over here. This is you. And you can
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think about any part of the body that you could be. Let's say a little
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toe cell. So let's say you're a toe cell
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and your job, of course, is to live and be happy,and you've got
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near by, a little blood vessel. And in fact, every cell in our body
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has a little blood vessel that's near by. And this toe cell
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is just trying to make a living. And toe
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cells need certain things, right? They need, for example, let's say oxygen.
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I'll write it in white so it's very clear. They need oxygen
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and they need nutrients, right?
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So cells need certain things to live and be happy.
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And on the flip-side, they also make waste. They're in
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a sense just like us, they make waste. And that waste could be
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all sorts of things, and one that kind of jumps to mind is
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carbon dioxide (CO2). So carbon dioxide is waste
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for this cell. So it's making some
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waste and for the moment let's imagine that there's no blood flow.
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So, even though there's a blood vessel near by,
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really, no flow is happening, so I'll just write "no flow".
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So as the little cell
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makes waste. That waste, let's draw a little ball right here,
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it's going to start accumulating, you're going to start collecting more and more of it
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since the blood is not really flowing. And it might kind of
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end up getting all the way around our toe cell. So our toe cell is getting
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swamped, literally getting kind of covered by its own waste.
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And on the flip-side, is it getting oxygen or nutrients? No.
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It's not getting either of these things. So, before very
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long, I would say within minutes, our toe cell
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is thinking, "Well this is not a very happy way to live!" this is
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actually really very sad, this is awful. And if this continues
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the toe cell would die. So, what a toe
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cell needs, and what every cell needs, and that could be a finger cell or a
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skin cell, or really any cell that's living, needs
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flow. Right? It needs this blood to be flowing nicely
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and smoothly. And if there is flow
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then you get a very different picture, right? If there's flow then all the sudden all the
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waste product is actually now lifted and taken away.
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It's flowing away, and it's a little bit like having
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someone come by and pick up the trash, then you don't have trash all over the house.
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So then you have nice flow, and
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in return, oxygen and nutrients are delivered. So this stuff
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gets delivered as well. So, all of the sudden the cell is going to be
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very, very happy, and is going to be living just fine.
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So, really if you want all of the cells in your body to be living just fine
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like this cell here, you really want good flow throughout the
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body. And so this is really point number one. Is that you really
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need, somehow, to have blood flow moving and pushing
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blood constantly through the body. So,
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to do this for billions and billions of cells you would need a pretty powerful
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pump, right? Something that's going to be able to pull
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in all the blood from the body, and then push it back out. And that's what the heart
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is. I mean at its core, that's exactly what the heart is doing.
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It's an amazing pump, pushing blood, so that
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you have good blood flow. And so I'm
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going to write that on the side as kind of job number one. These are the jobs of the heart.
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So jobs, and number one, would be
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blood flow. And I'll write systemic
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flow. Systemic flow. And all
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that systemic means is that I'm refering to the entire body. So systemic
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when I say that word, I just mean the entire body. All the cells
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in the body. Now, exactly how that happens actually
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you can see on this picture. So, here you have a giant
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vein, this is a vein, and you have an artery.
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This is an artery.
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And blood is actually going through the artery, that way.
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And it's actually coming into two veins, the one
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at the top, this is called the superior, superior just kind of means
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at the top. Superior vena cava. That's the
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name of the vein. And at the bottom here, you can't see it because
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it's on the other side of the heart, but there's another vein called the inferior vena cava.
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And these two veins, this is also a vein,
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these two veins are actually dragging blood in from all over the body,
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into the heart.
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And then, when the heart is ready to pump it back out, it goes into this
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artery, and the name of it is the aorta.
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So if you've heard of the aorta, this is the artery that people
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are talking about. So this is how blood comes and gets pumped
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around. But this isn't actually the only job of the heart. The job,
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the second job of the heart, is actually
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also in this picture, and it's called pulmonary flow.
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Pulmonary flow. So, what does that
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mean? Well, we know that cells are expecting
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oxygen, right? We know this. And that they have a lot of carbon dioxide
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waste. Well, it's good to move things around. It's good
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to move blood around. But if you actually never got rid of that carbon dioxide
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or brought in new oxygen, then a cell is not going to be very happy either.
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I mean, you can have blood flow, but at some point it's also going to want some oxygen.
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And it's going to want to get rid of that carbon dioxide. So, that's where the
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lungs come in. So what happens is that the heart, before
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sending blood out the aorta, before just dishing it out back into the body,
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it actually sends the blood over to the
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lungs. And it goes over to the left lung, and over to the right lung.
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And the blood comes back from the right lung
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and the left lung, and gets pushed back into
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the heart, and then gets squeezed through the aorta. So there's this
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actual extra little step here, where blood is going to
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and from the lungs, and that's the pulmonary flow.
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So the final thing you'll notice, if you look at this picture it's hard not to notice,
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is that there are these, kind of wriggly looking little
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blood vessels all over the heart. And what are these
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exactly? I mean, you've got red ones, and blue ones, and
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the blue ones are the veins, and the red ones are the arteries
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but are they part of the systemic flow, or pulmonary flow, or something else?
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Well, these vessels, all of them,
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together are called coronary vessels.
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And so specifically you might hear about
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a coronary artery, or a coronary vein, but together you can call them
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coronary blood vessels. I'll add the word blood here. So these
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coronary blood vessels are actually serving the heart muscle
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itself. I mean remember, the heart
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is made up of thousands and thousands, actually tens of thousands of cells
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and those cells, just like our toe cell that we drew,
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they also need oxygen, nutrients, and have waste.
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So, those cells are going to need blood vessels supplying
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them as well. So, that's what the coronary blood vessels are. They're literally
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the blood vessels that go to and serve
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the heart. So these are the ones that serve the heart.
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Now, if they're serving the heart muscles
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and the heart cells, then, think about it, would they fit under
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the systemic flow, or pulmonary flow? Well if the
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main job is to serve the needs of cells, then
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the coronary vessels fall under the systemic flow.
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