Vein
In
biology, a
vein is a
blood vessel which carries
blood toward the
heart. Veins form part of the
circulatory system. The vessels that carry blood away from the heart are known as
arteries.
 |
Cross section of a vein showing a valve which prevents backflow |
In
systemic circulation de-
oxygenated blood from the
capillary blood vessels is taken by veins to the right part of theheart. As an exception, in the
pulmonary circulation oxygenated blood from the
lungs is taken to the left part of the heart by
pulmonary veins.
Another special case is
portal circulation where the
portal vein transports blood rich in products of digestion from the
intestines to the
liver.
Most veins have one-way valves called
venous valves to prevent backflow caused by gravity. They also have a thick
collagen outer layer, which helps maintain
blood pressure and stop blood pooling. The hollow internal cavity in which the blood flows is called the
lumen.
Names of important veins:
*
Pulmonary veins
*
Portal vein *
Superior vena cava*
Inferior vena cava*
Femoral vein*
Great saphenous veinNames of important venule systems:
*
Portal venous system*
Pulmonary venous system*
Systemic venous system |
Venous valves prevent reverse blood flow. |
Veins are used medically as points of access to the blood stream, permitting the withdrawal of blood specimens (
venipuncture) for testing purposes, and enabling the infusion of fluid,
electrolytes, nutrition, and medications. The latter is called
intravenous delivery. It can be done by an injection with a
syringe, or by inserting a
catheter (a flexible tube).
If an intravenous catheter has to be inserted, for most purposes this is done into a peripheral vein (a vein near the surface of the skin in the
hand or
arm, or less desirably, the
leg.) Some highly concentrated fluids or irritating medications must flow into the large central veins, which are sometimes used when peripheral access cannot be obtained. Catheters can be threaded into the superior vena cava for these uses: if long term use is thought to be needed, a more permanent access point can be inserted surgically.
The precise location of veins is much more variable from person to person than that of arteries.
In the light, blood appears red because most colors are absorbed except for red, which bounces back from the blood. Every colour but red is absorbed by the oxygen-carrying pigment
hemoglobin (Hb). If a filter that blocks the reflected color is positioned between the blood and the eyes of the person watching, the perceived color changes. In the case of humans, the skin serves as a filter for the color red, and the remaining color ends up being green. The exact
color spectra is determined by the relative levels of oxygenated iron (HbO) and
CO2 in the blood. High oxygen reflects red and high CO
2 reflects blue, which mixed with the yellowish color of the fat and/or skin ends up showing as green.
*
Deep vein*
Deep vein thrombosis*
Phlebology*
Superficial vein*
Varicose vein
