Blood flows from digestive system heart to
arteries, which narrow into
arterioles, and then narrow further still into capillaries. After the tissue has been
perfused, capillaries widen to become venules and then widen more to become veins, which return blood to the heart.
'Capillaries' are the smallest of a body's
blood vessels, measuring 5-10
μm, which connect
arterioles and
venules, and are important for the interchange of
oxygen,
carbon dioxide, and other substances between
blood and tissue cells.
[1]
Structure
The walls of capillaries are composed of only a single layer of
cells, the
endothelium. This layer is so thin that
molecules such as
oxygen,
water and
lipids can pass through them by
diffusion and enter the tissues. Waste products such as
carbon dioxide and
urea can diffuse back into the
blood to be carried away for removal from the body.
Capillary
permeability can be increased by the release of certain
cytokines.
Transport across endothelium
The endothelium also
actively transports nutrients, messengers and other substances.
Large molecules may be too big to diffuse across
endothelial cells. In some cases,
vesicles contained in the capillary membrane use
endocytosis and
exocytosis to transport material between
blood and the tissues. Blood hydrostatic pressure varies along the length of the capillar, and is roughly 40 mm Hg at the atreiolar end and 15 mm Hg at the venus end. The opposing force from outside the capillary is osmotic pressure and is 25 mm Hg. The result is an outward movement of fluid and ions at the atreiolar end, and an influx of fluid at the venus end of the capillary.
Immune response
In an
immune response, the
endothelial cells of the capillary will upregulate
receptor molecules, thus "catching"
immune cells as they pass by the site of
infection and aiding
extravasation of these cells into the tissue.
Capillary bed
The "capillary bed" is the network of capillaries supplying an
organ. The more
metabolically active the cells, the more capillaries it will require to supply nutrients.
The capillary bed usually carries no more than 25% of the amount of blood it could contain, although this amount can be increased through
autoregulation by inducing relaxation of
smooth muscle.
The capillaries do not possess this smooth muscle in their own walls, and so any change in their
diameter is passive. Any signalling molecules they release (such as
endothelin for constriction and
nitric oxide for dilation) act on the smooth muscle cells in the walls of nearby, larger vessels, e.g.
arterioles.
Types
Capillaries come in three types:
★ Continuous - Continuous capillaries have a sealed endothelium and only allow small molecules, water and ions to diffuse.
★ Fenestrated - Fenestrated capillaries (derived from "fenestra," the
Latin word for "window") have openings that allow larger molecules to diffuse.
[1]
★
Sinusoidal - Sinusoidal capillaries are special forms of fenestrated capillaries that have larger openings in the epithelium allowing
red blood cells and serum proteins to enter.
See also
★
Alveolar-capillary barrier
★
Blood brain barrier
References
1.
2.
External links
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