Organization of the Body: Serous Membranes - Online Tutor, Practice Problems & Exam Prep

We just talked about how we can divide the anterior cavity into smaller body cavities, but we can divide it even further. We're going to say that the body cavities are further divided by serous membranes. So these serous membranes are sometimes called the serosa. These are thin sheets of tissue that form a double-layer membrane, and this double-layer membrane, these two layers, are going to wrap many organs. We are calling them the viscera, the organs of the thoracic and abdominal pelvic region. So, you want to imagine the serous membrane is like pushing your hand into a soft balloon. And so we have this diagram down here of a hand being pushed into a soft balloon. And you've probably seen this in your textbook or maybe in a lecture. I'm going to go into this analogy in a lot more detail in just one second. But first, I want to just identify the different layers of this 2-layer membrane. So first off, we're going to have the visceral layer and that's going to be the inside layer. It

This example tells us that the lungs are surrounded by a serous membrane called the pleura. The image below shows the right lung and the pleural membranes that surround it. Label the visceral and parietal layers of the pleural membrane. Okay. So we see a picture of the right lung. We see the trachea coming down and the airways entering the lung. In this picture, we're concerned about the double-layer membrane that is surrounding the lung, and we want to identify the two layers. So first off, on the top line here, we have an arrow pointing to the outer layer. Remember that the outer layer we said is going to be fused to the body wall, and we said that in Latin, the word for "wall" had to do with "parietal". So the parietal layer is going to be fused to the body wall, the outer side of the membrane. The inner side of the membrane here is going to be up against the organ. And we learned this vocabulary word that the organs of the thoracic and abdominal pelvic regions, we call them the viscera. So if it's fused to the viscera, we call it the visceral layer. Alright. With that, we'll see you in the next video.

Just defined the serous membranes or the serosa, and we identified the visceral and parietal layers of those membranes. Now we want to talk about what happens between those two layers because that's where things get a little interesting. So remember, the serous membranes are a double-layer membrane and we're going to say that the serous cavity is going to be the space or sometimes potential space between that double-layered serosa. So the space between the layers is the cavity. We say potential space because sometimes those two layers are just pushed right up against each other. So there actually isn't space between them. But they're not attached to each other. So, you could, you know, blow them up like a balloon if you wanted to. Alright. So what's in that cavity? What's in that space? What's in the space is serous fluid. Serous fluid is the fluid found in the serous cavity. Serous fluid is there for a really good reason. It lubricates the membrane so organs can move easily. Now, t

This example tells us that the disease pleurisy causes an increase in serous fluid in the serosa surrounding the lungs. How do you think this might affect breathing? And we have this picture of a lung over here on the right, and the important thing is that we see this double-layer membrane surrounding it. Remember the inner layer is the visceral layer, the outer layer the parietal layer, and between those layers is the cavity, And the cavity is what's filled with the fluid. So let's think, if you got more fluid in that cavity, how would that affect the lung? Well, more fluid would kind of blow that cavity up like a balloon. In your chest, it's inside the ribs, so the cavity can't push outwards. So the only way it can push is if it gets more fluid in it, is it can push inwards towards the lung, and the lung is a really flexible tissue. It inflates and deflates all the time. So if you get too much fluid in here, it might just squeeze the lung down, and now you're going to have a much bigger cavity that takes up this space where the lungs used to be. So a bigger cavity means a smaller lung. Smaller lung is going to be harder to breathe. So for this, in just short sort of shorthand, what I would write is that, more fluid equals larger cavity. Larger cavity equals less space for lungs, and that means it's harder to breathe. Alright. The real important thing to take away here though, remember the layers of that serous membrane and remember the cavity is between those layers. The lung is not in the cavity. The cavity surrounds the lung. What's in the cavity is the serous fluid. For that, we'll see you in the next video.