Blood vessels are tube-like structures that facilitate blood movement to specific tissues in the body. One can compare blood vessels to transport networks in a city.
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Jetzt kostenlos anmeldenBlood vessels are tube-like structures that facilitate blood movement to specific tissues in the body. One can compare blood vessels to transport networks in a city.
There are five types of blood vessels: arteries, arterioles, capillaries, venules, and veins. We will look in more detail at the characteristics of each type later on in the explanation.
You also need to know the names of blood vessels that supply blood to the heart, lungs, and kidneys, as summarised in the table:
Organ | Vessel | The direction of blood flow |
Heart | Vena cava | To the heart |
Aorta | Away from the heart | |
Lungs | Pulmonary vein | Away from the lungs |
Pulmonary artery | To the lungs | |
Kidneys | Renal vein | Away from the kidneys |
Renal artery | To the kidneys |
The structures of arteries, veins, and capillaries differ from each other. Arterioles branch off from arteries and venules branch off from veins, similar to how bronchioles branch off from bronchi (you can find out more about this in the Human Gas Exchange explanation).
Thus, arterioles and venules have similar structures to their ‘parent vessels’ – arteries and veins. However, arterioles have a thicker muscle wall and a thinner elastic layer.
To look at the structure of these blood vessels in a bit more detail, we can do a cross-section of arteries, capillaries and veins to see the layers making up these blood vessels, as shown in the table below:
Artery | Capillary | Vein |
Thick wall Wall has four layers:
Narrower lumen than vein | Wall is a one-cell thick layer. Narrow diameter, thus narrow lumen | Thinner wall than artery Wall has four layers:
Wide lumen |
Lumen is the hollow cavity of an organ or blood vessel.
Study tip: tunica is the Latin name given to the layers of the blood vessel. Furthermore, students may be confused between epithelium and endothelium. Epithelium covers other organs (e.g., airways, small intestine) whereas endothelium is specific to blood vessels.
In an exam, you may be asked to draw out the structures of blood vessels based on microscope slides. The diagram below demonstrates how to draw these blood vessels out. Do note the relative proportions of each layer comprising the vessel wall.
Given how the structure of these blood vessels differs from each other, you may have guessed that each type of blood vessel functions differently. Below is a summary of the role of these blood vessels:
Arteries and arterioles carry oxygenated blood, whereas veins and venules carry deoxygenated blood.
However, there are exceptions to this rule: pulmonary vessels and umbilical vessels (which supply blood from the mother to the fetus during pregnancy) do not carry oxygenated blood. Pulmonary and umbilical arteries carry deoxygenated blood whereas pulmonary and umbilical veins carry oxygenated blood.
Study tip: some students may confuse bronchi and bronchioles as blood vessels. These are not blood vessels. Instead, they belong to the respiratory system and transport air into and out of the lungs.
We will explore in detail how the structure of blood vessels affects their function.
First off, we will look at how the structure of arteries affects their function. Arteries have:
Considering arterioles have thicker muscle layers and thinner elastic layers than arteries, how does the structure of arterioles affect their function? The thicker muscle layers of arterioles allows arterioles to either increase or decrease blood into capillaries. This plays an important role in temperature control. Arterioles have thinner elastic layers because blood travels in arterioles at lower pressures, reducing the need for an elastin layer. This lower pressure is due to the fact that arterioles are further away from the heart when compared to arteries, which have more elastin.
Now, let's take a look at the relationship between the structure of capillaries and their function. Capillaries are sites of substance exchange, for instance, gas exchange occurs in the alveoli capillaries. As such, they have:
As for veins, they have:
Furthermore, veins have adapted to prevent a backflow of blood by being located in muscular regions of the body (e.g., the legs and chest). The contraction of these muscles helps push blood to the heart.
Study tip: make sure you use the keywords that refer specifically to blood flow when writing your answers. For example, the muscle walls constrict and dilate, whereas the elastic walls stretch and recoil.
Is all the detail behind all the blood vessels overwhelming? The table below compares the blood vessels to help you grasp the addressed concepts:
Artery | Capillary | Vein | |
Wall | Thick | Thin (one cell thick) | Thin |
Muscle layer | Thick | Absent | Thin |
Elastic layer | Thick | Absent | Thin |
Size of lumen | Small | Very small (10μm) | Large |
Valves | Absent | Absent | Present |
Blood vessels are pipe-like structures that transport blood from the heart to tissues in the body and vice versa.
Veins and venules contain valves, essentially blood vessels whose blood flow is under low pressure.
Arteries and arterioles carry oxygenated blood, except for the pulmonary artery.
The five major blood vessels include arteries, arterioles, capillaries, venules, and veins.
Arteries carry blood away from the heart, including the pulmonary artery.
Venules and arterioles are blood vessels that branch off veins and arteries. They are similar in structure and function as veins and arteries, though they are smaller in diameter.
Arteries and veins (including arterioles and venules) have three layers to them. These layers include the external layer, internal layer, and endothelial layer.
The pressure in the atria is greater than in the ventricles. What is the direction of blood flow in this case?
Blood flows from the atria to the ventricles as the direction of blood flow in the heart is from a region of high pressure to a region of low pressure.
Choose the correct options
When the heart muscle (contracts/ relaxes), this results in a region of (high/ low) pressure. Whereas when the heart muscle (contracts/ relaxes), this creates a region of (high/ low) pressure. (Systole/ diastole) is the term to describe the contraction of the heart muscle, whereas (systole/ diastole) is when the heart muscle relaxes.
When the heart muscle contracts, this results in a region of high pressure. Whereas when the heart muscle relaxes, this creates a region of low pressure. Systole is the term to describe the heart muscle contraction, whereas diastole is when the heart muscle relaxes.
Valves ensure blood flows in one direction (True/ False)
True
Valves contract and relax, whereas the heart muscle opens and closes. (True/ False)
False - valves open and close
Choose the correct options.
Pressure changes affect the function of valves. Valves (open/close) when the pressure difference is against the direction of blood flow and (open/ close) when the pressure difference follows the direction of blood flow.
Pressure changes affect the function of valves. Valves close when the pressure difference is against the direction of blood flow and open when the pressure difference follows the direction of blood flow.
Name the three stages of the cardiac cycle.
Atrial systole, ventricular systole, and ventricular diastole.
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