(Redirected from Venous system)
Cross section of a vein showing a valve which prevents backflow
In the
circulatory system, a 'vein' is a
blood vessel that carries
blood toward the
heart. The majority of veins in the body carry low-oxygen blood from the tissues back to the heart; the exceptions being the
pulmonary and
umbilical veins which both carry oxygenated blood.
Anatomy
Veins function to return deoxygenated blood to the
heart, and are essentially tubes that collapse when their
lumens are not filled with blood. The thick, outer-most layer of a vein is comprised of
collagen, wrapped in bands of
smooth muscle, while the interior is lined with
endothelial cells. Most veins have one-way flaps called venous valves that prevent blood from backflowing and pooling in the lower extremities due to the effects of
gravity. The precise location of veins is much more variable from person to person than that of
arteries.
Venous tone
The total capacity of the veins is more than sufficient to hold the entire blood volume of the body; this capacity is reduced through the venous tone of the smooth muscles, minimizing the cross-sectional area (and hence volume) of the individual veins and therefore total venous system. The
helical bands of
smooth muscles which wrap around veins help maintain blood flow to the right atrium. In cases of
vasovagal syncope, the smooth muscles relax and the veins of the extremities below the heart fill up with blood, failing to return sufficient volume to maintain
cardiac output and blood flow to the
brain.
Function
Veins serve to return blood from organs to the heart. In
systemic circulation oxygenated blood is pumped by the
left ventricle through the
arteries to the muscles and organs of the body, where its nutrients and gases are exchanged at
capillaries, entering the veins filled with cellular waste and
carbon dioxide. The de-
oxygenated blood is taken by veins to the
right atrium of the heart, which transfers the blood to the
right ventricle, where it is then pumped to the pulmonary arteries and eventually the
lungs. In
pulmonary circulation the
pulmonary veins return oxygenated blood from the lungs to the
left atrium, which empties into the left ventricle, completing the cycle of blood circulation.
The return of blood to the heart is assisted by the action of the
skeletal-muscle pump which helps maintain the extremely low
blood pressure of the venous system.
Fainting can be caused by failure of the skeletal-muscular pump. Long periods of standing can result in blood pooling in the legs, with blood pressure too low to return blood to the heart.
Neurogenic and
hypovolaemic shock can also cause fainting. In these cases the smooth muscles surrounding the veins become slack and the veins fill with blood, absorbing a large portion of the total blood volume, keeping blood away from the brain and causing unconsciousness.
Often the generalization is made that
arteries carry
oxygenated blood to the tissues, the tissues consume the oxygen, and the remaining deoxygenated blood is carried back to the heart for reoxygenation. This is an oversimplification: all veins carry oxygenated blood,
[1] although the blood carried by the veins is usually considerably less oxygenated than the blood carried by most arteries.
Medical interest
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). In contrast to arterial blood which is uniform throughout the body, the blood removed from veins for testing can vary in its contents depending on the part of the body the vein drains. In example, blood drained from a working muscle will contain significantly less oxygen and
glucose than blood drained from the
liver. However the more blood from different veins mixes as it returns to the heart, the more homogeneous it becomes.
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.
Common diseases
The most common vein disorder is venous insufficiency, usually manifested by
spider veins or
varicose veins. A variety of treatments are used depending on the patient's particular type and pattern of veins and on the physician's preferences. Treatment can include
radio-frequency ablation,
vein stripping,
ambulatory phlebectomy, foam
sclerotherapy,
sclerotherapy,
lasers or compression.
Deep vein thrombosis
Main articles: Deep vein thrombosis
Deep vein thrombosis is a condition where a
blood clot forms in a deep vein, which can lead to
pulmonary embolism and chronic venous insufficiency.
Phlebology
'Phlebology' is the medical discipline that involves the diagnosis and treatment of disorders of venous origin. Diagnostic techniques used include the history and physical examination, venous imaging techniques and laboratory evaluation related to venous
thromboembolism.
The American Medical Association has added 'Phlebology' to their list of Self-Designated Practice Specialties.
Notable veins and vein systems
The
pulmonary veins carry relatively oxygenated blood from the lungs to the heart. The
superior and
inferior venae cavae carry relatively deoxygenated blood from the upper and lower systemic circulations, respectively.
A portal venous system is a series of veins or venules that directly connect two
capillary beds. Examples of such systems include the and
hypophyseal portal system.
Color
The blood carried by veins is dark red due to its high percentage of
CO2 as it returns to the heart (in contrast to the high levels of
O2 in arterial blood, which is bright red). Veins appear blue because the
subcutaneous fat in the skin absorbs lower-frequency light, permitting only the highly energetic blue wavelengths to penetrate through to the dark vein and reflect off. This physical effect can also be seen in the
iris of blue eyes (pigmentless iris in the front, dark
retina in the back) and is called
Rayleigh scattering.
Types of veins
Veins can be classified into:
★
portal vein vs. non-portal (most common)
★
superficial veins vs.
deep veins
★
pulmonary veins vs.
systemic veins
List of important named veins
★
Jugular veins
★
Pulmonary veins
★
★
Superior vena cava
★
Inferior vena cava
★
Iliac vein
★
Femoral vein
★
Popliteal vein
★
Great saphenous vein
★
Small saphenous vein
Names of important venule systems
★
Portal venous system
★
Systemic venous system
References
1.
See also
★
Peripheral vein
★
Deep vein
★
Deep vein thrombosis
★
Superficial vein
★
Varicose veins
★
Pulmonary circulation
External links
★
Merck Manual article on veins.
★
American College of Phlebology
Scientific publications
★
Phlebology - international journal of venous diseases
★
Phlebology: The Journal of Venous Disease
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