The potential space between the pleural membranes is called the thoracic cavity. This is also known as the pleural cavity in some instances.
The thin watery fluid that occurs between the pleural membranes is called pleural fluid. This fluid helps to reduce friction between the two layers of the pleura, allowing smooth movement of the lungs during breathing.
The space between the breasts is called the cleavage.
The chemical gradient refers to the imbalance of substances across the membrane. The Electrical Gradient refers to the difference of charges between substances on different sides of the Membrane. The Electrochemical Gradient refers to the combination of the previous two gradients. The short answer is MEMBRANE POTENTIAL.
The fluid that lubricates the lungs is called pleural fluid. It is found in the pleural space between the two layers of the pleura, which is a membrane surrounding the lungs. This fluid reduces friction during breathing, allowing the lungs to expand and contract smoothly.
The electrical charge resulting from the difference between positive and negative ions outside a cell is called the membrane potential. This potential difference is essential for processes like nerve impulses and muscle contractions. The cell membrane selectively allows ions to move in and out, creating an imbalance that generates the membrane potential.
The [mucosal] Pleural membrane.
The serous membrane, also known as serosa, provides lubrication to the pleural, pericardial, and peritoneal cavities. This membrane secretes a fluid called serous fluid, which reduces friction between organs as they move within these cavities.
The parietal pleura.Pleura is the outer covering of LungsThe pleurae are the membranes covering the lungs.The membrane is called the pleura, which is named the parietal pleura for the portion of the membrane covering the inner chest wall and the visceral pleura for the portion of the membrane covering the lung. The potential space between the visceral and parietal pleurae is called the pleural cavity.its called pleural membrane surrounding the lungs n also contain pleural fluid reduces friction during breathing
The pleural membrane which contains fluid to prevent friction
The thin watery fluid that occurs between the pleural membranes is called pleural fluid. This fluid helps to reduce friction between the two layers of the pleura, allowing smooth movement of the lungs during breathing.
Pleural Cavity is the body cavity that surrounds the right and left lung. The pleura is a serous membrane which folds back to form a two-layered, membrane structure. The thin space between the two pleural layers is known as the pleural cavity; it normally contains a small amount of pleural fluid. The outer pleura parietal pleura is attached to the chest wall. The inner pleura, visceral pleura covers the lungs and adjoining structures.
The pleural membrane is a thin fluid filled lining that lines the lungs. Whenever the layer dries and friction begins, it can turn into a condition called pleurisy.
The lung is "held" to the thoracic wall by a vacuum or a "potential" space. The thoracic wall has a thin membrane attached to it called the parietal pleura. The lung also has this membrane attached to it but is called the visceral pleura. The two pleura touch each other and slide against each other but are not attached. There is no space between them in the same way there is no space between the sides of a balloon when you suck out the air. If you are stabbed in the chest, an opening is created and air rushes in the hole. The "potential" space becomes an actual space as the lung collapses (a condition called a pneumothorax).
The space between the breasts is called the cleavage.
The chemical gradient refers to the imbalance of substances across the membrane. The Electrical Gradient refers to the difference of charges between substances on different sides of the Membrane. The Electrochemical Gradient refers to the combination of the previous two gradients. The short answer is MEMBRANE POTENTIAL.
If the pleural membrane secretes too much fluid, it can build up in the pleural space, causing a condition called pleural effusion, which can put pressure on the lungs and limit their expansion. If the pleural membrane doesn't produce enough fluid, it can lead to a condition called dry pleurisy, causing the pleural layers to rub against each other and result in pain and inflammation.
The mediastinum.