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Example Questions
Example Question #51 : Circulatory And Respiratory Physiology
Which scenario causes fluid to return to the capillaries from the interstitial fluid?
The interstitial osmotic pressure becomes greater than the capillary hydrostatic pressure
The interstitial hydrostatic pressure becomes greater than the capillary hydrostatic pressure
The interstitial osmotic pressure becomes greater than the arteriole hydrostatic pressure
The interstitial osmotic pressure becomes weaker than the capillary hydrostatic pressure
The interstitial osmotic pressure becomes greater than the capillary hydrostatic pressure
Fluid movement into and out of capillaries is mainly dependent on two forces: hydrostatic pressure and osmotic pressure. Hydrostatic pressure is determined by fluid volume and the pressure of the fluid against the capillary walls. Osmotic pressure is determined by osmotic gradient, pulling water in the direction of higher protein concentration. Osmotic pressure is largely directed into the capillary due to the high concentration of albumin in the plasma. The osmotic pressure outside of the capillary remains relatively constant, however, as the capillary moves from the arteriole end to the venule end the hydrostatic pressure drops significantly. Eventually, the osmotic pressure in the interstitium becomes greater than the hydrostatic pressure in the capillary, and fluid returns to the capillaries.
Example Question #1 : Help With Capillary Physiology
Which of the following types of blood vessels allow for diffusion into the interstitium?
Capillaries only
Arterioles only
Venules only
Arteries, veins and capillaries
Both arterioles and venules
Capillaries only
The walls of arteries, arterioles, veins, and venules are all much too thick to allow for the diffusion of substances. However, capillaries only have simple squamous endothelial cells lining their walls, without muscular and/or elastic tissue surrounding them. Their walls are thin enough to allow for diffusion of substances into the interstitium.
Example Question #3 : Help With Capillary Physiology
What type of cells are found wrapped around the endothelial cells of capillaries?
Pericytes (Rouget cells)
Purkinje fibers
Schwann cells
Monocytes
None of these
Pericytes (Rouget cells)
Pericytes, sometimes referred to as Rouget cells, are cells that wrap around the endothelial cells of capillaries. These cells play an important role in angiogenesis, the process of formation of new blood vessels. Monocytes are macrophages of the immune system, Purkinje fibers are found in the heart, and allow conductance of electricity to the cardiomyocytes, Schwann cells are glial cells in the peripheral nervous system that myelinate axons.
Example Question #1 : Help With Capillary Physiology
Which of the following is true in regards to capillaries?
They have thick walls
They contain an extensive layer of smooth muscle
They have the largest total cross sectional and surface area
They are under high pressure
They have the largest total cross sectional and surface area
Capillaries have the largest total cross sectional and surface area. They are thin-walled and consist of a single layer of endothelial cells surrounded by basal lamina. Capillaries are the site of exchange of nutrients, water, and gases.
Arteries are thick-walled, with extensive elastic tissue and smooth muscle. Arteries are under high pressure.
Example Question #2 : Help With Capillary Physiology
Which component of the circulatory system contains the largest percentage of blood volume?
Aorta
Pulmonary arteries
Systemic veins
Capillary networks
Systemic arteries
Systemic veins
At any given moment, the majority of blood in the human body can be found in the venous network. Veins contain 64% of the body's blood, making it the largest reservoir of blood in the body. Capillary networks contain the largest surface area of blood, however, not the largest percentage of blood volume.