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Aortic arch

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Aortic arch
The aortic arch has three branches, the brachiocephalic trunk, left common carotid artery, and left subclavian artery.
The aortic arch and its branches shown in situ.
Details
PrecursorFourth left pharyngeal arch artery
SourceAscending aorta
Branches Continues as descending aorta, thoracic part
VeinCombination of superior and inferior vena cava
SuppliesFrom its branches, the upper body, arms, head and neck. As a part of the aorta, the entire body, with exception of the respiratory zone of the lung and the heart.
Identifiers
Latinarcus aortae
TA98A12.2.04.001
TA24177
FMA3768
Anatomical terminology

The aortic arch, arch of the aorta, or transverse aortic arch (English: /ˈɔːrtɪk/[1][2]) is the part of the aorta between the ascending and descending aorta. The arch travels backward, so that it ultimately runs to the left of the trachea.

Structure

The aorta begins at the level of the upper border of the second/third sternocostal articulation of the right side, behind the ventricular outflow tract and pulmonary trunk. The right atrial appendage overlaps it. The first few centimeters of the ascending aorta and pulmonary trunk lies in the same pericardial sheath. and runs at first upward, arches over the pulmonary trunk, right pulmonary artery, and right main bronchus to lie behind the right second coastal cartilage. The right lung and sternum lies anterior to the aorta at this point. The aorta then passes posteriorly and to the left, anterior to the trachea, and arches over left main bronchus and left pulmonary artery, and reaches to the left side of the T4 vertebral body.[3][4] Apart from T4 vertebral body, other structures such as trachea, oesophagus, and thoracic duct (from front to back) also lies to the left of the aorta.[3] Inferiorly, the arch of aorta is connected to ligamentum arteriosum while superiorly, it gives rise to three main branches.[3] Arch of aorta continues as the descending aorta after T4 vertebral body.[5]: 214 [6]

The aortic arch has three main branches on its superior aspect. The first, and largest, branch of the arch of the aorta is the brachiocephalic trunk, which is to the right and slightly anterior to the other two branches and originates behind the manubrium of the sternum. Next, the left common carotid artery originates from the aortic arch to the left of the brachiocephalic trunk, then ascends along the left side of the trachea and through the superior mediastinum. Finally, the left subclavian artery comes off of the aortic arch to the left of the left common carotid artery and ascends, with the left common carotid, through the superior mediastinum and along the left side of the trachea.[7]: 216  An anatomical variation is that the left vertebral artery can arise from the aortic arch instead of the left subclavian artery.

The arch of the aorta forms two curvatures: one with its convexity upward, the other with its convexity forward and to the left. Its upper border is usually about 2.5 cm. below the superior border to the manubrium sterni.[5] Blood flows from the upper curvature to the upper regions of the body, located above the heart - namely the arms, neck, and head.

Coming out of the heart, the thoracic aorta has a maximum diameter of 40 mm at the root. By the time it becomes the ascending aorta, the diameter should be < 35–38 mm, and 30 mm at the arch. The diameter of the descending aorta should not exceed 25 mm.[8][9]

The arch of the aorta lies within the mediastinum.

At the cellular level, the aorta and the aortic arch are composed of three layers: The tunica intima, which surrounds the lumen and is composed of simple squamal epithelial cells; the tunica media, composed of smooth cell muscles and elastic fibers; and, the tunica adventitia, composed of loose collagen fibers.[10] Innervated by barometric nerve terminals, the aortic arch is responsible for sensing changes in the dilation of the vascular walls, inducing changes in heart rate to compensate for changes in blood pressure.[11]

Development

The aortic arch is the connection between the ascending and descending aorta, and its central part is formed by the left 4th aortic arch during early development.[12]

The ductus arteriosus connects to the lower part of the arch in foetal life. This allows blood from the right ventricle to mostly bypass the pulmonary vessels as they develop.

The final section of the aortic arch is known as the aortic isthmus. This is so called because it is a narrowing (isthmus) of the aorta as a result of decreased blood flow when in foetal life.[13] As the left ventricle of the heart increases in size throughout life, the narrowing eventually dilates to become a normal size. If this does not occur, this can result in coarctation of the aorta.[14][15] The ductus arteriosus connects to the final section of the arch in foetal life. Ductus arteriosus then regresses to become ligamentum arteriosum during later life.[14]

Variation

There are three common variations in how arteries branch from the aortic arch. In about 75% of individuals, the branching is "normal", as described above. In some individuals the left common carotid artery originates from the brachiocephalic artery rather than the aortic arch. In others, the brachiocephalic artery and left common carotid artery share an origin.[16] This variant is found in approximately a 20% of the population. In a third variant, the brachiocephalic artery splits into three arteries: the left common carotid artery, the right common carotid artery and the right subclavian artery; this variant is found in an estimated 7% of individuals.[16] In rare cases, the thyroid ima artery, a variant artery supplying the thyroid gland may arise from the aortic arch.[17]

Clinical significance

The aortic knob is the prominent shadow of the aortic arch on a frontal chest radiograph.[18]

Aortopexy is a surgical procedure in which the aortic arch is fixed to the sternum in order to keep the trachea open.

Aortic isthmus is the relatively fixed part of the aortic arch. It is prone to shearing force and trauma that can cause it to tear and result in massive bleeding.[3]

Additional images

Murine model aortic arch and branches of aorta in species Rattus rattus

References

Public domain This article incorporates text in the public domain from page 547 of the 20th edition of Gray's Anatomy (1918)

  1. ^ OED 2nd edition, 1989, as /eɪ'ɔ:ɹtɪk/.
  2. ^ Entry "aortic" in Merriam-Webster Online Dictionary.
  3. ^ a b c d Ryan, Stephanie (2011). "Chapter 3". Anatomy for diagnostic imaging (Third ed.). Elsevier Ltd. p. 141-143. ISBN 9780702029714.
  4. ^ S. Standring. Gray's Anatomy The Anatomical Basis Of Clinical Practice, 40th Edition. Elsevier Health Sciences UK.
  5. ^ a b Kulkarni, Neeta V. (2006). Clinical anatomy for students : problem solving approach. New Delhi: Jaypee Bros. Medical Publishers. p. 211. ISBN 978-8180617348.
  6. ^ Singh, Inderbir (2011). Textbook of anatomy (5th ed.). New Delhi: Jaypee Brothers Medical Publishers. p. 465. ISBN 978-9350253823.
  7. ^ Drake, Richard L.; Vogl, Wayne; Tibbitts, Adam W.M. Mitchell; illustrations by Richard; Richardson, Paul (2005). Gray's anatomy for students. Philadelphia: Elsevier/Churchill Livingstone. ISBN 978-0-8089-2306-0.
  8. ^ Mao, SS; Ahmadi, N; Shah, B; Beckmann, D; Chen, A; Ngo, L; Flores, FR; Gao, YL; Budoff, MJ (2008). "Normal thoracic aorta diameter on cardiac computed tomography in healthy asymptomatic adults: impact of age and gender". Acad Radiol. 15 (7): 827–34. doi:10.1016/j.acra.2008.02.001. PMC 2577848. PMID 18572117.
  9. ^ Wolak, A; Gransar, H; Thomson, LE; Friedman, JD; Hachamovitch, R; Gutstein, A; Shaw, LJ; Polk, D; Wong, ND; Saouaf, R; Hayes, SW; Rozanski, A; Slomka, PJ; Germano, G; Berman, DS (2008). "Aortic size assessment by noncontrast cardiac computed tomography: normal limits by age, gender, and body surface area". JACC Cardiovasc Imaging. 1 (2): 200–9. doi:10.1016/j.jcmg.2007.11.005. PMID 19356429.
  10. ^ "The Cardiovascular System (Blood Vessels)". www2.highlands.edu. Archived from the original on 2018-05-03. Retrieved 2017-04-22.
  11. ^ webmaster@studentconsult.com. "Printed from STUDENT CONSULT: Berne and Levy Physiology 6E - The Online Medical Library for Students plus USMLE Steps 123 (ver. 2.9)". users.atw.hu. Retrieved 2017-04-22.
  12. ^ Bamforth, Simon D.; Chaudhry, Bill; Bennett, Michael; Wilson, Robert; Mohun, Timothy J.; Van Mierop, Lodewyk H.S.; Henderson, Deborah J.; Anderson, Robert H. (2013-03-01). "Clarification of the identity of the mammalian fifth pharyngeal arch artery". Clinical Anatomy. 26 (2): 173–182. doi:10.1002/ca.22101. ISSN 1098-2353. PMID 22623372. S2CID 7927804.
  13. ^ Tynan D, Alphonse J, Henry A, Welsh AW (2016). "The Aortic Isthmus: A Significant yet Underexplored Watershed of the Fetal Circulation". Fetal Diagnosis and Therapy. 40 (2): 81–93. doi:10.1159/000446942. PMID 27379710.
  14. ^ a b Rubin, Raphael; Strayer, David S., eds. (2008). Rubin's Pathology: clinicopathologic foundations of medicine (5th ed.). Philadelphia [u.a.]: Wolters Kluwer/Lippincott Williams & Wilkins. p. 442. ISBN 978-0-7817-9516-6.
  15. ^ David P. Naidich; W. Richard Webb; Nester L. Muller; Ioannis Vlahos; Glenn A. Krinsky, eds. (2007). Computed tomography and magnetic resonance of the thorax (4th ed.). Philadelphia: Wolters Kluwer/Lippincott Williams & Wilkins. p. 100. ISBN 978-0-7817-5765-2.
  16. ^ a b Spacek, Miloslav; Veselka, Josef (2012). "Letters to Editor Bovine arch". Archives of Medical Science. 8 (1): 166–167. doi:10.5114/aoms.2012.27297. ISSN 1734-1922. PMC 3309453. PMID 22457691.
  17. ^ Tohno, S.; Tohno, Y.; Matsumoto, H.; Fujimoto, S.; Fujimoto, T.; Futamura, N.; Furuta, K. (1989). "[A case of the thyroidea ima artery arising from the aortic arch]". Kaibogaku Zasshi. Journal of Anatomy. 64 (5): 490–494. ISSN 0022-7722. PMID 2618573.
  18. ^ wrongdiagnosis.com > Aortic knob Citing: Stedman's Medical Spellchecker, 2006 Lippincott Williams & Wilkins.

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