Axillary vein

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~~~~Axillary vein~~~~

The axillary vein is one of the major veins of the upper limb. It is formed by union of the paired brachial veins and the basilic vein, and contributes to the drainage of the axilla, arm and superolateral chest wall.

~~Summary~~

· ~~Origin: formed by union of the paired brachial veins and the basilic vein.~~

· ~~Location: courses medial to the axillary artery in the axilla.~~

· ~~Drainage: upper limb, axilla and superolateral chest wall.~~

· ~~Tributaries: include the cephalic vein and five other tributaries which correspond to the branches of the axillary artery (see below).~~

~~Gross anatomy~~

~~Origin~~

~~The axillary vein is formed at the inferior border of the axilla by the union of the paired brachial veins (venae comitantes of the brachial artery) and the basilic vein~~ ^1,2.

~~Course~~

~~The axillary vein arises at the inferior border of the teres major muscle at the inferior border of the axilla~~ ³~~. The vein ascends through the axilla medial to the axillary artery and then courses anterior to the subclavian artery to leave the axilla at its apex. It then passes in front of the scalenus anterior~~ ¹~~, where it becomes continuous with the subclavian vein at the lateral border of the first rib~~ ².

~~Divisions~~

~~As with the axillary artery, the axillary vein can be divided into three parts by its relation to the pectoralis minor (above, behind or below)~~ ¹.

~~Tributaries~~

The second and third parts of the axillary vein have tributaries that correspond with the branches of the axillary artery. These include the thoracoacromial vein, lateral thoracic vein, subscapular vein and anterior and posterior circumflex humeral veins.

~~The cephalic vein is a tributary of the first part of the axillary vein (above the pectoralis minor) and enters the vein after piercing the clavipectoral fascia~~ ¹.

~~Termination~~

~~The axillary vein terminates by becoming continuous with the subclavian vein at the lateral border of the first rib~~ ².

~~Drainage~~

~~The axillary vein drains deoxygenated blood from the arm, axilla and superolateral chest wall~~ ⁴~~. It also receives contributions from the thoracoepigastric vein of the anterolateral abdominal wall~~ ⁵.

Summary

· Origin: formed by union of the paired brachial veins and the basilic vein.

· Location: courses medial to the axillary artery in the axilla.

· Drainage: upper limb, axilla and superolateral chest wall.

· Tributaries: include the cephalic vein and five other tributaries which correspond to the branches of the axillary artery (see below).

Gross anatomy

Origin

The axillary vein is formed at the inferior border of the axilla by the union of the paired brachial veins (venae comitantes of the brachial artery) and the basilic vein ^1,2.

Course

The axillary vein arises at the inferior border of the teres major muscle at the inferior border of the axilla ³. The vein ascends through the axilla medial to the axillary artery and then courses anterior to the subclavian artery to leave the axilla at its apex. It then passes in front of the scalenus anterior¹, where it becomes continuous with the subclavian vein at the lateral border of the first rib².

Divisions

As with the axillary artery, the axillary vein can be divided into three parts by its relation to the pectoralis minor (above, behind or below) ¹.

Tributaries

The second and third parts of the axillary vein have tributaries that correspond with the branches of the axillary artery. These include the thoracoacromial vein, lateral thoracic vein, subscapular vein, anterior circumflex humeral vein and posterior circumflex humeral vein.

The cephalic vein is a tributary of the first part of the axillary vein (above the pectoralis minor) and enters the vein after piercing the clavipectoral fascia¹.

Termination

The axillary vein terminates by becoming continuous with the subclavian vein at the lateral border of the first rib ².

Drainage

The axillary vein drains deoxygenated blood from the arm, axilla and superolateral chest wall ⁴. It also receives contributions from the thoracoepigastric vein of the anterolateral abdominal wall ⁵.

-<![endif]-->Axillary veinThe axillary vein is one of the major veins of the upper limb. It is formed by union of the paired brachial veins and the basilic vein, and contributes to the drainage of the axilla, arm and superolateral chest wall. Summary· Origin: formed by union of the paired brachial veins and the basilic vein.· Location: courses medial to the axillary artery in the axilla.· Drainage: upper limb, axilla and superolateral chest wall.· Tributaries: include the cephalic vein and five other tributaries which correspond to the branches of the axillary artery (see below). Gross anatomy OriginThe axillary vein is formed at the inferior border of the axilla by the union of the paired brachial veins (venae comitantes of the brachial artery) and the basilic vein 1,2. CourseThe axillary vein arises at the inferior border of the teres major muscle at the inferior border of the axilla 3. The vein ascends through the axilla medial to the axillary artery and then courses anterior to the subclavian artery to leave the axilla at its apex. It then passes in front of the scalenus anterior 1, where it becomes continuous with the subclavian vein at the lateral border of the first rib 2. DivisionsAs with the axillary artery, the axillary vein can be divided into three parts by its relation to the pectoralis minor (above, behind or below) 1. TributariesThe second and third parts of the axillary vein have tributaries that correspond with the branches of the axillary artery. These include the thoracoacromial vein, lateral thoracic vein, subscapular vein and anterior and posterior circumflex humeral veins.The cephalic vein is a tributary of the first part of the axillary vein (above the pectoralis minor) and enters the vein after piercing the clavipectoral fascia 1. TerminationThe axillary vein terminates by becoming continuous with the subclavian vein at the lateral border of the first rib 2. DrainageThe axillary vein drains deoxygenated blood from the arm, axilla and superolateral chest wall 4. It also receives contributions from the thoracoepigastric vein of the anterolateral abdominal wall 5.
+<![endif]-->The axillary vein is one of the major veins of the upper limb. It is formed by union of the paired <a href="/articles/brachial-veins">brachial veins </a>and the <a href="/articles/basilic-vein">basilic vein</a>, and contributes to the drainage of the <a href="/articles/axilla">axilla</a>, arm and superolateral chest wall.<h4>Summary</h4>· Origin: formed by union of the paired brachial veins and the basilic vein.· Location: courses medial to the <a href="/articles/axillary-artery">axillary artery </a>in the axilla.· Drainage: upper limb, axilla and superolateral chest wall.· Tributaries: include the <a href="/articles/cephalic-vein">cephalic vein</a> and five other tributaries which correspond to the branches of the axillary artery (see below).<h4>Gross anatomy</h4><h5>Origin</h5>The axillary vein is formed at the inferior border of the axilla by the union of the paired brachial veins (venae comitantes of the brachial artery) and the basilic vein 1,2.<h5>Course</h5>The axillary vein arises at the inferior border of the <a href="/articles/teres-major">teres major</a> muscle at the inferior border of the axilla 3. The vein ascends through the axilla medial to the axillary artery and then courses anterior to the <a href="/articles/subclavian-artery">subclavian artery</a> to leave the axilla at its apex. It then passes in front of the <a href="/articles/scalenus-anterior-muscle-1">scalenus anterior</a> 1, where it becomes continuous with the <a href="/articles/subclavian-vein">subclavian vein</a> at the lateral border of the <a href="/articles/first-rib">first rib</a> 2.<h5>Divisions</h5>As with the axillary artery, the axillary vein can be divided into three parts by its relation to the <a href="/articles/pectoralis-minor">pectoralis minor </a>(above, behind or below) 1.<h5>Tributaries</h5>The second and third parts of the axillary vein have tributaries that correspond with the branches of the axillary artery. These include the <a href="/articles/thoracoacromial-vein">thoracoacromial vein</a>, <a href="/articles/lateral-thoracic-vein">lateral thoracic vein</a>, <a href="/articles/subscapular-vein">subscapular vein</a>, <a href="/articles/anterior-circumflex-humeral-vein">anterior circumflex humeral vein</a> and <a href="/articles/posterior-circumflex-humeral-vein">posterior circumflex humeral vein</a>.The cephalic vein is a tributary of the first part of the axillary vein (above the pectoralis minor) and enters the vein after piercing the <a href="/articles/clavipectoral-fascia">clavipectoral fascia</a> 1.<h5>Termination</h5>The axillary vein terminates by becoming continuous with the subclavian vein at the lateral border of the first rib 2.<h5>Drainage</h5>The axillary vein drains deoxygenated blood from the arm, axilla and superolateral chest wall 4. It also receives contributions from the <a href="/articles/thoracoepigastric-vein">thoracoepigastric vein </a>of the anterolateral abdominal wall 5.

References changed:

1. Mcminn. Last's Anatomy. <a href="https://books.google.co.uk/books?vid=ISBN9780729537520">ISBN: 9780729537520</a>
1. Mcminn. Last's Anatomy. <a href="https://books.google.co.uk/books?vid=ISBN9780729537520">ISBN: 9780729537520</a>
1. Mcminn. Last's Anatomy. <a href="https://books.google.co.uk/books?vid=ISBN9780729537520">ISBN: 9780729537520</a>
2. Michael P. McKinley, Valerie Dean O'Loughlin. Human Anatomy. <a href="https://books.google.co.uk/books?vid=ISBN9780077213404">ISBN: 9780077213404</a>
3. Richard L. Drake, Wayne Vogl, Adam W. M. Mitchell. Gray's Anatomy for Students. <a href="https://books.google.co.uk/books?vid=ISBN9780443069529">ISBN: 9780443069529</a>
4. Gerard J. Tortora, Bryan H. Derrickson. Principles of Anatomy and Physiology, Atlas and Registration Card. <a href="https://books.google.co.uk/books?vid=ISBN9780471689348">ISBN: 9780471689348</a>
5. Anne M. Gilroy. Anatomy. <a href="https://books.google.co.uk/books?vid=ISBN9781604062076">ISBN: 9781604062076</a>
1. Mcminn. Last's Anatomy. <a href="https://books.google.co.uk/books?vid=ISBN9780729537520">ISBN: 9780729537520</a> 2. Michael P. McKinley, Valerie Dean O'Loughlin. Human Anatomy. <a href="https://books.google.co.uk/books?vid=ISBN9780077213404">ISBN: 9780077213404</a> 3. Richard L. Drake, Wayne Vogl, Adam W. M. Mitchell. Gray's Anatomy for Students. <a href="https://books.google.co.uk/books?vid=ISBN9780443069529">ISBN: 9780443069529</a> 4. Gerard J. Tortora, Bryan H. Derrickson. Principles of Anatomy and Physiology, Atlas and Registration Card. <a href="https://books.google.co.uk/books?vid=ISBN9780471689348">ISBN: 9780471689348</a> 5. Anne M. Gilroy. Anatomy. <a href="https://books.google.co.uk/books?vid=ISBN9781604062076">ISBN: 9781604062076</a>
1. Mcminn. Last's Anatomy. <a href="https://books.google.co.uk/books?vid=ISBN9780729537520">ISBN: 9780729537520</a> 2. Michael P. McKinley, Valerie Dean O'Loughlin. Human Anatomy. <a href="https://books.google.co.uk/books?vid=ISBN9780077213404">ISBN: 9780077213404</a> 3. Richard L. Drake, Wayne Vogl, Adam W. M. Mitchell. Gray's Anatomy for Students. <a href="https://books.google.co.uk/books?vid=ISBN9780443069529">ISBN: 9780443069529</a> 4. Gerard J. Tortora, Bryan H. Derrickson. Principles of Anatomy and Physiology, Atlas and Registration Card. <a href="https://books.google.co.uk/books?vid=ISBN9780471689348">ISBN: 9780471689348</a> 5. Anne M. Gilroy. Anatomy. <a href="https://books.google.co.uk/books?vid=ISBN9781604062076">ISBN: 9781604062076</a>

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Vascular

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Anatomy

Updates to Article Attributes

Summary

Gross anatomy

Origin

Course

Divisions

Tributaries

Termination

Drainage

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