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Contents

   



(Top)
  


1 Etymology  




2 Structure  


2.1  Types  






3 Function  


3.1  Constriction  




3.2  Flow  






4 Disease  




5 See also  




6 References  













Blood vessel






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From Wikipedia, the free encyclopedia
  
(Redirected from Blood vessels)
For other uses, see Blood vessel (disambiguation).
Blood vessel
Diagram blood vessels
Details
SystemCirculatory system
Identifiers
Latinvas sanguineum
MeSHD001808
TA98A12.0.00.001
TA23895
FMA63183
Anatomical terminology

[edit on Wikidata]

Blood vessels are the structures of the circulatory system that transport blood throughout the human body.[1] These vessels transport blood cells, nutrients, and oxygen to the tissues of the body. They also take waste and carbon dioxide away from the tissues. Blood vessels are needed to sustain life, because all of the body's tissues rely on their functionality.[2]

There are five types of blood vessels: the arteries, which carry the blood away from the heart; the arterioles; the capillaries, where the exchange of water and chemicals between the blood and the tissues occurs; the venules; and the veins, which carry blood from the capillaries back towards the heart.

The word vascular, meaning relating to the blood vessels, is derived from the Latin vas, meaning vessel. Some structures – such as cartilage, the epithelium, and the lens and cornea of the eye – do not contain blood vessels and are labeled avascular.

Etymology[edit]

Structure[edit]

The arteries and veins have three layers. The middle layer is thicker in the arteries than it is in the veins:[3]

Capillaries consist of a single layer of endothelial cells with a supporting subendothelium consisting of a basement membrane and connective tissue.

When blood vessels connect to form a region of diffuse vascular supply it is called an anastomosis. Anastomoses provide critical alternative routes for blood to flow in case of blockages.

Leg veins have valves which prevent backflow of the blood being pumped against gravity by the surrounding muscles.[4]

Types[edit]

There are various kinds of blood vessels:[5]

They are roughly grouped as "arterial" and "venous", determined by whether the blood in it is flowing away from (arterial) or toward (venous) the heart. The term "arterial blood" is nevertheless used to indicate blood high in oxygen, although the pulmonary artery carries "venous blood" and blood flowing in the pulmonary vein is rich in oxygen. This is because they are carrying the blood to and from the lungs, respectively, to be oxygenated.[citation needed]

Function[edit]

See also: Circulatory system

Blood vessels function to transport blood. In general, arteries and arterioles transport oxygenated blood from the lungs to the body and its organs, and veins and venules transport deoxygenated blood from the body to the lungs. Blood vessels also circulate blood throughout the circulatory system. Oxygen (bound to hemoglobininred blood cells) is the most critical nutrient carried by the blood. In all arteries apart from the pulmonary artery, hemoglobin is highly saturated (95–100%) with oxygen. In all veins apart from the pulmonary vein, the saturation of hemoglobin is about 75%.[6][7] (The values are reversed in the pulmonary circulation.) In addition to carrying oxygen, blood also carries hormones, waste products and nutrients for cells of the body.[citation needed]

Blood vessels do not actively engage in the transport of blood (they have no appreciable peristalsis). Blood is propelled through arteries and arterioles through pressure generated by the heartbeat.[8] Blood vessels also transport red blood cells which contain the oxygen necessary for daily activities. The amount of red blood cells present in your vessels has an effect on your health. Hematocrit tests can be performed to calculate the proportion of red blood cells in your blood. Higher proportions result in conditions such as dehydration or heart disease while lower proportions could lead to anemia and long-term blood loss.[9]

Permeability of the endothelium is pivotal in the release of nutrients to the tissue. It is also increased in inflammation in response to histamine, prostaglandins and interleukins, which leads to most of the symptoms of inflammation (swelling, redness, warmth and pain).[citation needed]

Constriction[edit]

Main article: Vasoconstriction
Transmission electron micrograph of a microvessel displaying an erythrocyte (E) within its lumen which is deformed due to vasoconstriction

Arteries—and veins to a degree—can regulate their inner diameter by contraction of the muscular layer. This changes the blood flow to downstream organs, and is determined by the autonomic nervous system. Vasodilation and vasoconstriction are also used antagonistically as methods of thermoregulation.[10]

The size of blood vessels is different for each of them. It ranges from a diameter of about 25 millimeters for the aorta to only 8 micrometers in the capillaries. This comes out to about a 3000-fold range.[11] Vasoconstriction is the constriction of blood vessels (narrowing, becoming smaller in cross-sectional area) by contracting the vascular smooth muscle in the vessel walls. It is regulated by vasoconstrictors (agents that cause vasoconstriction). These include paracrine factors (e.g. prostaglandins), a number of hormones (e.g. vasopressin and angiotensin) and neurotransmitters (e.g. epinephrine) from the nervous system.[citation needed]

Vasodilation is a similar process mediated by antagonistically acting mediators. The most prominent vasodilator is nitric oxide (termed endothelium-derived relaxing factor for this reason).[12]

Flow[edit]

Main article: Vascular resistance

The circulatory system uses the channel of blood vessels to deliver blood to all parts of the body. This is a result of the left and right side of the heart working together to allow blood to flow continuously to the lungs and other parts of the body. Oxygen-poor blood enters the right side of the heart through two large veins. Oxygen-rich blood from the lungs enters through the pulmonary veins on the left side of the heart into the aorta and then reaches the rest of the body. The capillaries are responsible for allowing the blood to receive oxygen through tiny air sacs in the lungs. This is also the site where carbon dioxide exits the blood. This all occurs in the lungs where blood is oxygenated.[13]

The blood pressure in blood vessels is traditionally expressed in millimetres of mercury (1 mmHg = 133 Pa). In the arterial system, this is usually around 120 mmHg systolic (high pressure wave due to contraction of the heart) and 80 mmHg diastolic (low pressure wave). In contrast, pressures in the venous system are constant and rarely exceed 10 mmHg.[citation needed]

Vascular resistance occurs where the vessels away from the heart oppose the flow of blood. Resistance is an accumulation of three different factors: blood viscosity, blood vessel length, and vessel radius.[14]

Blood viscosity is the thickness of the blood and its resistance to flow as a result of the different components of the blood. Blood is 92% water by weight and the rest of blood is composed of protein, nutrients, electrolytes, wastes, and dissolved gases. Depending on the health of an individual, the blood viscosity can vary (i.e. anemia causing relatively lower concentrations of protein, high blood pressure an increase in dissolved salts or lipids, etc.).[14]

Vessel length is the total length of the vessel measured as the distance away from the heart. As the total length of the vessel increases, the total resistance as a result of friction will increase.[14]

Vessel radius also affects the total resistance as a result of contact with the vessel wall. As the radius of the wall gets smaller, the proportion of the blood making contact with the wall will increase. The greater amount of contact with the wall will increase the total resistance against the blood flow.[15]

Disease[edit]

Main article: Vascular disease

Blood vessels play a huge role in virtually every medical condition. Cancer, for example, cannot progress unless the tumor causes angiogenesis (formation of new blood vessels) to supply the malignant cells' metabolic demand.[16] Atherosclerosis, the narrowing of the blood vessels due to the buildup of plaque, and the coronary artery disease that often follows can cause heart attacksorcardiac arrest and is the leading cause of death worldwide resulting in 8.9 million deaths or 16% of all deaths.[17][18]

Blood vessel permeability is increased in inflammation. Damage, due to trauma or spontaneously, may lead to hemorrhage due to mechanical damage to the vessel endothelium. In contrast, occlusion of the blood vessel by atherosclerotic plaque, by an embolised blood clot or a foreign body leads to downstream ischemia (insufficient blood supply) and possibly infarction (necrosis due to lack of blood supply). Vessel occlusion tends to be a positive feedback system; an occluded vessel creates eddies in the normally laminar floworplug flow blood currents. These eddies create abnormal fluid velocity gradients which push blood elements such as cholesterol or chylomicron bodies to the endothelium. These deposit onto the arterial walls which are already partially occluded and build upon the blockage.[19]

The most common disease of the blood vessels is hypertension or high blood pressure. This is caused by an increase in the pressure of the blood flowing through the vessels. Hypertension can lead to more serious conditions such as heart failure and stroke. To prevent these diseases, the most common treatment option is medication as opposed to surgery. Aspirin helps prevent blood clots and can also help limit inflammation.[20]

Vasculitisisinflammation of the vessel wall, due to autoimmune diseaseorinfection.[citation needed]

Another Blood Vessel Disease is called Broken Blood Vessel. Broken blood vessels, also known as spider veins or telangiectasias, are small, damaged blood vessels that appear as red, purple, or blue lines on the skin's surface. They are most commonly found on the face, legs, and chest. These unsightly blemishes can be caused by various factors, and their appearance may cause concerns about both aesthetics and potential health issues.[21]

See also[edit]

References[edit]

  1. ^ Shea MJ. "Blood Vessels – Heart and Blood Vessel Disorders". Merck Manuals Consumer Version. Merck Sharp & Dohme Corp. Archived from the original on 24 April 2015. Retrieved 2016-12-22.
  • ^ "How Does Blood Flow Through Your Body". Cleveland Clinic.
  • ^ Taylor, Anthony M.; Bordoni, Bruno (2024), "Histology, Blood Vascular System", StatPearls, Treasure Island (FL): StatPearls Publishing, PMID 31985998, retrieved 2024-04-07
  • ^ "Blood Vessel Structure and Function". Boundless Anatomy and Physiology.
  • ^ Tucker, William D.; Arora, Yingyot; Mahajan, Kunal (2024), "Anatomy, Blood Vessels", StatPearls, Treasure Island (FL): StatPearls Publishing, PMID 29262226, retrieved 2024-04-17
  • ^ "Central Venous/Mixed Venous Oxygen Saturation". London Health Sciences Centre. London, Ontario, CA. Retrieved 2021-08-08.
  • ^ "Hypoxemia (low blood oxygen)". Mayo Clinic. Retrieved 2021-08-08.
  • ^ Khan MG (2006). "Anatomy of the Heart and Circulation". Encyclopedia of Heart Disease. Amsterdam: Academic Press. pp. 13–22. ISBN 978-0-08-045481-8.
  • ^ "Hematocrit test – Mayo Clinic". www.mayoclinic.org.
  • ^ Charkoudian N (October 2010). "Mechanisms and modifiers of reflex induced cutaneous vasodilation and vasoconstriction in humans". Journal of Applied Physiology. 109 (4): 1221–1228. doi:10.1152/japplphysiol.00298.2010. PMC 2963327. PMID 20448028.
  • ^ "Blood Vessels". Encyclopedia.com.
  • ^ Cooke, John P (2000). "The endothelium: a new target for therapy". Vascular Medicine. 5 (1): 49–53. doi:10.1177/1358836X0000500108. ISSN 1358-863X.
  • ^ Nazario B (17 September 2021). "How Your Heart Works". WebMD.
  • ^ a b c Saladin KS (2012). Anatomy & physiology : the unity of form and function (6th ed.). New York, NY: McGraw-Hill. ISBN 978-0-07-131638-5.
  • ^ "Factors that Affect Blood Pressure" (PDF). Archived from the original (PDF) on 17 May 2017. Retrieved 21 October 2018.
  • ^ Nishida N, Yano H, Nishida T, Kamura T, Kojiro M (September 2006). "Angiogenesis in cancer". Vascular Health and Risk Management. 2 (3): 213–219. doi:10.2147/vhrm.2006.2.3.213. PMC 1993983. PMID 17326328.
  • ^ "The top 10 causes of death". www.who.int. Retrieved 2021-08-08.
  • ^ "Arteriosclerosis / atherosclerosis - Symptoms and causes". Mayo Clinic. Retrieved 2021-08-08.
  • ^ Gidaspow D (1994). Multiphase flow and fluidization : continuum and kinetic theory descriptions. Boston: Academic Press. ISBN 978-0-12-282470-8.
  • ^ "Blood Vessel Diseases – Mercy Health System". www.mercyhealth.org. Archived from the original on 18 October 2016.
  • ^ Singh, Rambir (9 August 2023). "Broken Blood Vessels: Causes & Treatments". Healthy Geeks.

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