Artery

Artery
The human main arteries, part of the circulatory system.
Latin	Arteria (plural: arteriae)

Arteries (from Greek ἀρτηρία (artēria), meaning "windpipe, artery")^[2] are blood vessels that carry blood away from the heart. While most arteries carry oxygenated blood, there are two exceptions to this norm, the pulmonary and the umbilical arteries. The effective arterial blood volume (EABV) is that extracellular fluid (ECF) which fills the arterial system.

The circulatory system is vital for sustaining life. Its normal functioning is responsible for the delivery of oxygen and nutrients to all cells, as well as the removal of carbon dioxide and waste products, the maintenance of optimum pH, and the circulation of proteins and cells of the immune system. In developed countries, the two leading causes of death, myocardial infarction (heart attack), and stroke, may each directly result from an arterial system that has been slowly and progressively compromised by years of deterioration. (See atherosclerosis).

Description

The arterial system is the higher-pressure portion of the circulatory system. Arterial pressure varies between the peak pressure during heart contraction, called the systolic pressure, and the minimum, or diastolic pressure between contractions, when the heart expands and refills. This pressure variation within the artery produces the pulse which is observable in any artery, and reflects heart activity. Arteries also aid the heart in pumping blood. Arteries carry oxygenated blood away from the heart to the tissues, except for pulmonary arteries, which carry blood to the lungs for oxygenation.(Veins carry deoxygenated blood to the heart.)^[3]

Anatomy

Diagram of an artery.

The anatomy of arteries can be separerated into gross anatomy, at the macroscopic level, and microscopic anatomy, which must be studied with the aid of a microscope.

Gross anatomy

The arterial system of the human body is divided into systemic arteries, carrying blood from the heart to the whole body, and pulmonary arteries, carrying deoxygenated blood from the heart to the lungs.

Systemic arteries

Systemic arteries are the arteries of the systemic circulation, which is the part of the cardiovascular system that carries oxygenated blood away from the heart, to the body, and returns deoxygenated blood back to the heart.

Pulmonary arteries

Pulmonary arteries are the arteries of the pulmonary circulation, which is the portion of the cardiovascular system which carries deoxygenated blood away from the heart, to the lungs, and returns oxygenated blood back to the heart.

Microscopic anatomy

The outermost layer is known as the tunica externa also known as tunica adventitia and is composed of connective tissue made up of collagen fibres. Inside this layer is the tunica media, or media, which is made up of smooth muscle cells and elastic tissue (also called connective tissue proper). The innermost layer, which is in direct contact with the flow of blood is the tunica intima, commonly called the intima. This layer is made up of mainly endothelial cells. The hollow internal cavity in which the blood flows is called the lumen.

Types of arteries

Pulmonary arteries

The pulmonary arteries carry deoxygenated blood that has just returned from the body to the heart towards the lungs, where carbon dioxide is exchanged for oxygen.

Systemic arteries

Systemic arteries can be subdivided into two types - muscular and elastic - according to the relative compositions of elastic and muscle tissue in their tunica media as well as their size and the makeup of the internal and external elastic lamina. The larger arteries (>10mm diameter) are generally elastic and the smaller ones (0.1-10mm) tend to be muscular. Systemic arteries deliver blood to the arterioles, and then to the capillaries, where nutrients and gases are exchanged.

Aorta

The aorta is the root systemic artery. It receives blood directly from the left ventricle of the heart via the aortic valve. As the aorta branches, and these arteries branch in turn, they become successively smaller in diameter, down to the arteriole. The arterioles supply capillaries which in turn empty into venules. The very first branches off of the aorta are the coronary arteries, which supply blood to the heart muscle itself. These are followed by the branches off the aortic arch, namely the brachiocephalic artery, the left common carotid and the left subclavian arteries.

Arterioles

Arterioles, the smallest of the true arteries, help in regulating blood pressure by the variable contraction of the smooth muscle of their walls, and deliver blood to the capillaries.

Arterioles and blood pressure

Arterioles have the greatest collective influence on both local blood flow and on overall blood pressure. They are the primary "adjustable nozzles" in the blood system, across which the greatest pressure drop occurs. The combination of heart output (cardiac output) and systemic vascular resistance, which refers to the collective resistance of all of the body's arterioles, are the principal determinants of arterial blood pressure at any given moment.

Capillaries

The capillaries are the smallest of the blood vessels and are part of the microcirculation. The capillaries have a width of a single cell in diameter to aid in the fast and easy diffusion of gases, sugars and nutrients to surrounding tissues.

Functions of capillaries

Capillaries have no smooth muscle surrounding them and have a diameter less than that of red blood cells; a red blood cell is typically 7 micrometers outside diameter, capillaries typically 5 micrometers inside diameter. The red blood cells must distort in order to pass through the capillaries.

These small diameters of the capillaries provide a relatively large surface area for the exchange of gases and nutrients.

What capillaries do

• In the lungs, carbon dioxide is exchanged for oxygen
• In the tissues, oxygen and carbon dioxide and nutrients and wastes are exchanged
• In the kidneys, wastes are released to be eliminated from the body
• In the intestine, nutrients are picked up, and wastes released

Embryonic development

Arterial formation begins, when endothelial cells begin to express arterial specific genes, such as Ephrin B2.^[4]

Pathology

The condition of the arteries can give rise to a number of pathological conditions.

Blood pressure

Systemic arterial pressures, are generated by the forceful contractions of the heart's left ventricle. (See blood pressure)

Healthy resting arterial pressures, are relatively low, mean systemic pressures typically being under 100 mmHg, about 1.8 lbf/in², above surrounding atmospheric pressure (about 760 mmHg or 14.7 lbf/in² at sea level).

To withstand and adapt to the pressures within, arteries are surrounded by varying thicknesses of smooth muscle which have extensive elastic and inelastic connective tissues.

The pulse pressure, i.e. systolic vs. diastolic difference, is determined primarily by the amount of blood ejected by each heart beat, stroke volume, versus the volume and elasticity of the major arteries.

Over time, factors such as elevated arterial blood sugar (see Diabetes Mellitus), lipoprotein, cholesterol, high blood pressure, stress and smoking, are all implicated in damaging both the endothelium and walls of the arteries, resulting in atherosclerosis.

Atheroma

An atheroma or plaque in the artery wall is a build up of cell debris, that contain lipids, (cholesterol and fatty acids), calcium^[1][5] and a variable amount of fibrous connective tissue.

History

Among the ancient Greeks, the arteries were considered to be "air holders" that were responsible for the transport of air to the tissues and were connected to the trachea. This was as a result of finding the arteries of the dead devoid of blood.

In medieval times, it was recognized that arteries carried a fluid, called "spiritual blood" or "vital spirits", considered to be different from the contents of the veins. This theory went back to Galen. In the late medieval period, the trachea,^[6] and ligaments were also called "arteries".^[7]

William Harvey described and popularized the modern concept of the circulatory system and the roles of arteries and veins in the 17th century.

Alexis Carrel at the beginning of 20th century first described the technique for vascular suturing and anastomosis and successfully performed many organ transplantations in animals; he thus actually opened the way to modern vascular surgery that was before limited to vessels permanent ligatation.

Theodor Kocher the Swiss researcher, reported that atherosclerosis often developed in patients who had undergone a thyroidectomy and suggested that hypothyroidism favors atherosclerosis, which was, in the 1900s at autopsies, seen more frequently in iodine-deficient Austrians compared to Icelanders, which are not deficient in iodine. Turner reported the effectiveness of iodide and dried extracts of thyroid in the prevention of atherosclerosis in laboratory rabbits.^{[citation needed]}

See also

• Arterial gush
• Blood
• Peripheral arteries
• Vein

Additional images

• 

  Illustration of an arterial cross-section

References

External links

Look up artery in Wiktionary, the free dictionary.

Wikimedia Commons has media related to Arteries.

• Human Arterial System

v t e Human systems and organs TA 2–4: MS Skeletal system Bone Carpus Collar bone (clavicle) Thigh bone (femur) Fibula Humerus Mandible Metacarpus Metatarsus Ossicles Patella Phalanges Radius Skull (cranium) Tarsus Tibia Ulna Rib Vertebra Pelvis Sternum Cartilage Joints Fibrous joint Cartilaginous joint Synovial joint Muscular system Muscle Tendon Diaphragm TA 5–11: splanchnic/ viscus mostly Thoracic Respiratory system URT Nose Nasopharynx Larynx LRT Trachea Bronchus Lung mostly Abdominopelvic Digestive system+ adnexa Mouth Salivary gland Tongue upper GI Oropharynx Laryngopharynx Esophagus Stomach lower GI Small intestine Appendix Colon Rectum Anus accessory Liver Biliary tract Pancreas GU: Urinary system Kidney Ureter Bladder Urethra GU: Reproductive system Female Uterus Vagina Vulva Ovary Placenta Male Scrotum Penis Prostate Testicle Seminal vesicle Endocrine system Pituitary Pineal Thyroid Parathyroid Adrenal Islets of Langerhans TA 12–16 Circulatory system Cardiovascular system peripheral Artery Vein Lymphatic vessel Heart Lymphatic system primary Bone marrow Thymus secondary Spleen Lymph node CNS equivalent Glymphatic system Nervous system Brain Spinal cord Nerve Sensory system Ear Eye Integumentary system Skin Subcutaneous tissue Breast Mammary gland Blood (Non-TA) Myeloid Myeloid immune system Lymphoid Lymphoid immune system General anatomy: systems and organs, regional anatomy, planes and lines, superficial axial anatomy, superficial anatomy of limbs

v t e Circulatory system: Arteries and veins (TA A12.0, TH H3.09.02, GA 6.543/GA 7.641) Systemic circulation (Left heart) → Aorta → Arteries → Arterioles → Capillaries → Venules → Veins → Vena cava → (Right heart) Pulmonary circulation (Right heart) → Pulmonary arteries → (Lungs) → Pulmonary vein → (Left heart) Blood vessels Tunica intima (Endothelium, Internal elastic lamina) Tunica media Tunica externa Vasa vasorum Vasa nervorum Rete mirabile Circulatory anastomosis Arteries Nutrient artery Arteriole Metarteriole Capillaries (Continuous, Fenestrated, Sinusoidal) Precapillary sphincter Precapillary resistance Veins Vena comitans Superficial vein Deep vein Emissary veins Venous plexus Venule Lymphatic Lymphatic vessel Lymph Lymph capillary M: VAS anat (a:h/u/t/a/l,v:h/u/t/a/l)/phys/devp/cell/prot noco/syva/cong/lyvd/tumr, sysi/epon, injr proc, drug (C2s+n/3/4/5/7/8/9)

v t e List of arteries of head and neck (TA A12.2.05–08, GA 6.549) CC EC sup. thyroid superior laryngeal sternocleidomastoid branch infrahyoid branch cricothyroid branch glandular branches asc. pharyngeal posterior meningeal pharyngeal branches inferior tympanic lingual suprahyoid dorsal lingual deep lingual sublingual facial cervical branches (ascending palatine, tonsillar, submental, glandular) facial branches (inferior labial superior labial / nasal septum lateral nasal angular) occipital sternocleidomastoid meningeal occipital auricular descending post. auricular stylomastoid stapedial auricular occipital sup. temporal transverse facial middle temporal (zygomatico-orbital) anterior auricular frontal parietal maxillary 1st part / mandibular anterior tympanic deep auricular middle meningeal (superior tympanic, petrosal) accessory meningeal inferior alveolar (mental, mylohyoid) 2nd part / pterygoid to muscles of mastication (deep temporal, pterygoid, masseteric) buccal 3rd part / pterygopalatine posterior superior alveolar infraorbital (anterior superior alveolar) descending palatine (greater palatine, lesser palatine) artery of the pterygoid canal sphenopalatine (posterior septal branches, posterior lateral nasal) pharyngeal IC cervical carotid sinus petrous Vidian caroticotympanic cavernous/ ophthalmic orbital group:anterior ethmoidal (anterior septal, anterior lateral nasal, anterior meningeal) posterior ethmoidal lacrimal (lateral palpebral) medial palpebral terminal (supraorbital, supratrochlear, dorsal nasal) ocular group: central retinal ciliary (short posterior, long posterior, anterior) hypophysial (superior, inferior) Willis/Cerebral ACA (anterior communicating, medial striate) MCA (anterolateral central, Orbitofrontal artery, Prefrontal artery, Superior terminal branch, Inferior terminal branch, Anterior temporal branch) posterior communicating anterior choroidal SC vertebral artery meningeal spinal (posterior, anterior) basilar: pontine labyrinthine cerebellar (AICA, SCA, PICA) cerebral (PCA) thyrocervical trunk inferior thyroid inferior laryngeal tracheal esophageal ascending cervical pharyngeal glandular branches transverse cervical superficial branch deep branch / dorsal scapular suprascapular acromial branch costocervical trunk deep cervical Supreme Intercostal artery M: VAS anat (a:h/u/t/a/l,v:h/u/t/a/l)/phys/devp/cell/prot noco/syva/cong/lyvd/tumr, sysi/epon, injr proc, drug (C2s+n/3/4/5/7/8/9)

v t e List of arteries of upper limbs (TA A12.2.09, GA 6.575) Axillary Shoulder scapular anastomosis 1st part superior thoracic 2nd part thoracoacromial deltoid branch lateral thoracic 3rd part subscapular circumflex scapular thoracodorsal anterior humeral circumflex posterior humeral circumflex Brachial Before split profunda brachii radial collateral medial collateral ulnar collateral superior inferior Radial forearm: radial recurrent wrist/carpus: dorsal carpal branch palmar carpal branch hand: superficial palmar branch princeps pollicis Radialis indices artery radial of index finger Ulnar forearm: ulnar recurrent anterior posterior common interosseous anterior posterior recurrent wrist/carpus: dorsal carpal branch palmar carpal branch hand: deep palmar branch Arches dorsal carpal arch: dorsal metacarpal dorsal digital palmar carpal arch superficial palmar arch: common palmar digital proper palmar digital deep palmar arch: palmar metacarpal M: VAS anat (a:h/u/t/a/l,v:h/u/t/a/l)/phys/devp/cell/prot noco/syva/cong/lyvd/tumr, sysi/epon, injr proc, drug (C2s+n/3/4/5/7/8/9)

v t e List of arteries of torso · chest (TA A12.2.01–04,11, GA 6.598) Pulmonary Right pulmonary artery Left pulmonary artery (Ligamentum arteriosum) Coronary Right coronary: SA nodal AV nodal Atrial Right marginal Posterior interventricular Left coronary: Anterior interventricular Left circumflex (Left marginal) Ascending aorta/ aortic arch Brachiocephalic Thyreoidea ima Right subclavian Right common carotid Left common carotid External carotid Internal carotid Carotid body Carotid sinus Carotid bifurcation Left subclavian Internal thoracic: Anterior intercostal Thymic Pericardiacophrenic Perforating branches terminal (Musculophrenic, superior epigastric) Kacheshmarova's artery (Arteria xiphia (Arteria africana)) Costocervical trunk: Highest intercostal (Posterior intercostal 1–2) Deep cervical Other Aortic body Descending/ thoracic aorta visceral: Bronchial Esophageal Mediastinal parietal: Posterior intercostal 3·11 Subcostal Superior phrenic M: VAS anat (a:h/u/t/a/l,v:h/u/t/a/l)/phys/devp/cell/prot noco/syva/cong/lyvd/tumr, sysi/epon, injr proc, drug (C2s+n/3/4/5/7/8/9)

v t e List of arteries of torso – abdomen AA Parietal inferior phrenic (superior suprarenal) lumbar median sacral Coccygeal glomus Anterior celiac left gastric esophageal branches common hepatic proper hepatic (cystic) right gastric gastroduodenal (right gastro-omental, superior pancreaticoduodenal, supraduodenal) splenic pancreatic branches (greater, dorsal) short gastric left gastro-omental SMA inferior pancreaticoduodenal intestinal (jejunal, ileal, arcades, vasa recta) ileocolic (colic, anterior cecal, posterior cecal, ileal branch, appendicular) right colic middle colic IMA left colic sigmoid superior rectal marginal Posterior visceral middle suprarenal renal (inferior suprarenal, ureteral) gonadal (testicular ♂ / ovarian ♀) terminal/ common iliac IIA Anterior umbilical superior vesical to ductus deferens ♂ medial umbilical ligament obturator anterior branch posterior branch middle rectal vaginal branch ♀ uterine ♀ arcuate vaginal of uterine ovarian of uterine tubal of uterine spiral V/IV vaginal ♀ inferior vesical ♂ inferior gluteal accompanying of ischiadic nerve crucial anastomosis internal pudendal inferior rectal perineal (posterior scrotal ♂/labial ♀) bulb of penis ♂/vestibule ♀ urethral deep artery of the penis ♂ (helicine)/clitoris ♀ dorsal of the penis ♂/clitoris ♀ Posterior iliolumbar (lumbar, iliac) lateral sacral superior gluteal EIA see arteries of lower limbs M: VAS anat (a:h/u/t/a/l,v:h/u/t/a/l)/phys/devp/cell/prot noco/syva/cong/lyvd/tumr, sysi/epon, injr proc, drug (C2s+n/3/4/5/7/8/9)

v t e List of arteries of lower limbs / EIA (TA A12.2.16, GA 6.623) Inferior epigastric cremasteric ♂ / round ligament ♀ Deep circumflex iliac ascending branch of deep circumflex iliac Femoral (EIA after IL) In femoral canal superficial epigastric superficial circumflex iliac superficial external pudendal deep external pudendal (anterior scrotal ♂) Descending genicular saphenous branch articular branches Profunda femoris medial circumflex femoral (ascending, superficial, deep, acetabular) lateral circumflex femoral (descending, transverse, ascending) perforating Popliteal (FA after AH) Genicular superior genicular (medial, lateral) middle genicular inferior genicular (medial, lateral) Sural no major branches Anterior tibial tibial recurrent (posterior anterior) anterior malleolar (medial, lateral) dorsalis pedis: tarsal (medial, lateral) Posterior tibial circumflex fibular fibular medial plantar lateral plantar Arches arcuate: dorsal metatarsal / first dorsal metatarsal deep plantar dorsal digital arteries plantar arch: plantar metatarsal common plantar digital proper plantar digital M: VAS anat (a:h/u/t/a/l,v:h/u/t/a/l)/phys/devp/cell/prot noco/syva/cong/lyvd/tumr, sysi/epon, injr proc, drug (C2s+n/3/4/5/7/8/9)