Difference between revisions of "Aortic Arches - Anatomy & Physiology"

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==Overview==
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|backcolour = FFADB9
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|linkpage =Cardiorespiratory System - Anatomy & Physiology
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|linktext =Cardiorespiratory System
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|maplink = Cardiorespiratory System (Content Map) - Anatomy & Physiology
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|pagetype =Anatomy
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|sublink1=Heart - Anatomy & Physiology
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|subtext1 = HEART
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After emerging from the heart the Aortic artery divides into the right and left Dorsal branches. Each branch feeds into a set of arches which are unique to the embryo. Most higher vertebrates have have 6 paris of aortic arches. In the mammal the 5th pair do not form. These arches evolve to form some of the structures of the mammalian circulation. The fate of each arch varies.
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* Arches 1 and 2 degenerate completely.
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* The dorsal Aorta that runs between arches 3 and 4 degenerates on both the left and right sides.
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* The third arches form the internal carotid arteries
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* The left fourth aortic arch contributes to the arch of the aorta.
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* The right fourth aortic arch forms the proximal segment of the right subclavian artery
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* The fifth aortic arches are never present in the mammal
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* The proxiaml segment of the right sixth aortic arch forms part of the right pulmonary artery while the distal segment atrophies.
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* The proxiaml segment of the left sixth arch forms part of the pulmonary artery while the distal segment forms the Ductus arteriosus.
  
After emerging from the heart, the aortic artery divides into the right and left dorsal branches. Each branch feeds into a set of arches which are unique to the embryo. Most higher vertebrates have have 6 pairs of aortic arches. In the mammal the 5th pair do not form. These arches evolve to form some of the structures of the mammalian circulation. The fate of each arch varies.
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These changes occur in the thrid and fourth weeks of gestation, at which point the foetal circulation begins to resemble that of the adult.
 
 
'''Arches 1 & 2'''
 
 
 
Arches 1 and 2 degenerate completely, the dorsal Aorta that runs between arches 3 and 4 degenerates on both the left and right sides.
 
 
 
'''Arch 3'''
 
 
 
The third arches form the internal carotid arteries.
 
 
 
'''Arch 4'''
 
 
 
The left fourth aortic arch contributes to the arch of the aorta. The right fourth aortic arch forms the proximal segment of the right subclavian artery.
 
 
 
'''Arch 5'''
 
 
 
The fifth aortic arches are never present in the mammal.
 
 
 
'''Arch 6'''
 
 
 
The proximal segment of the right sixth aortic arch forms part of the right pulmonary artery while the distal segment atrophies. The proximal segment of the left sixth arch forms part of the pulmonary artery while the distal segment forms the ductus arteriosus.
 
 
 
These changes occur in the third and fourth weeks of gestation, at which point the foetal circulation begins to resemble that of the adult.
 
 
 
{{OpenPages}}
 
[[Category:Vascular System - Anatomy & Physiology]]
 
[[Category:A&P Done]]
 
[[Category:Cardiology Section]]
 

Revision as of 14:47, 3 September 2008

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HEART



After emerging from the heart the Aortic artery divides into the right and left Dorsal branches. Each branch feeds into a set of arches which are unique to the embryo. Most higher vertebrates have have 6 paris of aortic arches. In the mammal the 5th pair do not form. These arches evolve to form some of the structures of the mammalian circulation. The fate of each arch varies.

  • Arches 1 and 2 degenerate completely.
  • The dorsal Aorta that runs between arches 3 and 4 degenerates on both the left and right sides.
  • The third arches form the internal carotid arteries
  • The left fourth aortic arch contributes to the arch of the aorta.
  • The right fourth aortic arch forms the proximal segment of the right subclavian artery
  • The fifth aortic arches are never present in the mammal
  • The proxiaml segment of the right sixth aortic arch forms part of the right pulmonary artery while the distal segment atrophies.
  • The proxiaml segment of the left sixth arch forms part of the pulmonary artery while the distal segment forms the Ductus arteriosus.

These changes occur in the thrid and fourth weeks of gestation, at which point the foetal circulation begins to resemble that of the adult.