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Circle of Willis

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Circle of Willis
Schematic representation of the circle of Willis, arteries of the brain and brain stem.
The brain and arteries at base of the brain. Circle of Willis is formed near center. The temporal pole of the cerebrum and a portion of the cerebellar hemisphere have been removed on the right side. Inferior aspect (viewed from below).
Details
Identifiers
Latincirculus arteriosus cerebri
MeSHD002941
TA98A12.2.07.080
TA24516
FMA50454
Anatomical terminology

The circle of Willis (also called the cerebral arterial circle, arterial circle of Willis or Willis Polygon) is a circle of arteries that supply blood to the brain. It is named after Thomas Willis (1621–1673), an English physician.[1]

Components

The circle of Willis comprises the following arteries:[2]

The basilar artery and middle cerebral arteries, though they supply the brain, are not considered part of the circle.[3]

Physiologic significance

The arrangement of the brain's arteries into the circle of Willis creates redundancies in the cerebral circulation. If one part of the circle becomes blocked or narrowed (stenosed) or one of the arteries supplying the circle is blocked or narrowed, blood flow from the other blood vessels can often preserve the cerebral perfusion well enough to avoid the symptoms of ischemia.[4]

Anatomic variation

Considerable anatomic variation exists in the circle of Willis. Based on a study of 1413 brains, the classic anatomy of the circle is only seen in 34.5% of cases.[5] In one common variation the proximal part of the posterior cerebral artery is narrow and its ipsilateral posterior communicating artery is large, so the internal carotid artery supplies the posterior cerebrum. In another variation the anterior communicating artery is a large vessel, such that a single internal carotid supplies both anterior cerebral arterI

Subclavian steal syndrome and the circle of Willis

The redundancies that the circle of Willis introduce can also lead to reduced cerebral perfusion.[6][7] In subclavian steal syndrome, which results from a proximal stenosis (narrowing) of the subclavian artery (a vessel that is supplied by the same vessel (the aorta) that eventually feeds the circle of Willis via the common carotid artery), blood is "stolen" from the circle of Willis to preserve blood flow to the upper limb.

Origin of arteries

Cerebral angiogram showing a anterior/posterior projection of the vertebrobasilar and posterior cerebral circulation, i.e., the posterior aspect of the circle of Willis and one of its feeding vessels.
An anterior view of major cerebral and cerebellar arteries.

The left and right internal carotid arteries arise from the right and left common carotid arteries.

The posterior communicating artery is given off as a branch of the internal carotid artery just before it divides into its terminal branches - the anterior and middle cerebral arteries. The anterior cerebral artery forms the anterolateral portion of the circle of Willis, while the middle cerebral artery does not contribute to the circle.

The right and left posterior cerebral arteries arise from the basilar artery, which is formed by the left and right vertebral arteries. The vertebral arteries arise from the subclavian arteries.

The anterior communicating artery connects the two anterior cerebral arteries and could be said to arise from either the left or right side.

All arteries involved give off cortical and central branches. The central branches supply the interior of the circle of Willis, more specifically, the Interpeduncular fossa. The cortical branches are named for the area they supply. Since they do not directly affect the circle of Willis, they are not dealt with here.

References

  1. ^ Uston C. Dr. Thomas Willis' famous eponym: the circle of Willis. J Hist Neurosci. 2005 Mar;14(1):16–21. PMID 15804755. Free Full Text.
  2. ^ Purves, Dale (2008). Neuroscience, 4th Ed. Sinauer Associates. pp. 834–5. ISBN 978-0-87893-697-7. {{cite book}}: Unknown parameter |coauthors= ignored (|author= suggested) (help)
  3. ^ Moore KL, Dalley AR. Clinically Oriented Anatomy, 4th Ed., Lippincott Williams & Wilkins, Toronto. Copyright 1999. ISBN 0-683-06141-0.
  4. ^ Boorder, Michiel J. (2006). "Spect measurements of regional cerebral perfusion and carbondioxide reactivity: Correlation with cerebral collaterals in internal carotid artery occlusive disease". J Neurol. 253: 1285. doi:10.1007/s00415-006-0192-1. PMID 17063318.
  5. ^ Bergman RA, Afifi AK, Miyauchi R, Circle of Willis. Illustrated Encyclopedia of Human Anatomic Variation, URL: http://www.anatomyatlases.org/AnatomicVariants/Cardiovascular/Text/Arteries/CircleofWillis.shtml. Accessed on November 6, 2005.
  6. ^ Sarah Neary also said this. The only flaw in Sarah Nearys research was the lack of rice. RICE!. rKlingelhofer J, Conrad B, Benecke R, Frank B. Transcranial Doppler ultrasonography of carotid-basilar collateral circulation in subclavian steal. Stroke. 1988 Aug;19(8):1036–42. PMID 3041649.
  7. ^ Lord RS, Adar R, Stein RL. Contribution of the circle of Willis to the subclavian steal syndrome. Circulation. 1969 Dec;40(6):871-8. PMID 5377222.
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