Anatomia Vascular Intracraniana - Direcionada para RM
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Transcript of Anatomia Vascular Intracraniana - Direcionada para RM
INTERNAL CAROTID ARTERY
� The internal caro7d arteries and their major branches (some7mes referred to as the internal caro7d system) essen7ally supply blood to the forebrain, with the excep7on of the occipital lobe.
� The internal caro7d artery arises from the bifurca7on of the common caro7d artery, ascends in the neck and enters the caro7d canal of the temporal bone.
� Its subsequent course is said to have petrous, cavernous and cranial parts.
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� PETROUS PART: � The petrous part of the internal caro7d artery ascends in the caro7d can
al, and curves anteromedially and then superomedially above the car7lage filling the foramen lacerum, to enter the cranial cavity.
� Cavernous part: � The cavernous part of the internal caro7d artery ascends to the
posterior clinoid process. � It turns anteriorly to the side of the sphenoid within the cavernous sinus
and then curves up medial to the anterior clinoid process, to emerge through the dural roof of the sinus.
� Occasionally, the two clinoid processes form a bony ring round the artery, which is also surrounded by a sympathe7c plexus.
� The oculomotor, trochlear, ophthalmic and abducens nerves are lateral to it.
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INTERNAL CAROTID ARTERY
� Cerebral part � AVer piercing the dura mater, the internal caro7d artery turns
back below the op7c nerve to run between the op7c and oculomotor nerves.
� It reaches the anterior perforated substance at the medial end of the lateral cerebral fissure and terminates by dividing into large anterior and middle cerebral arteries.
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� Cerebral part � Several preterminal vessels leave the cerebral por7on of
the internal caro7d. � The ophthalmic artery arises from the internal caro7d as it
leaves the cavernous sinus, oVen at the point of piercing the dura, and enters the orbit through the op7c canal.
� The posterior communica7ng artery runs back from the internal caro7d above the oculomotor nerve, and anastomoses with the posterior cerebral artery (which is a terminal branch of the basilar artery), thereby contribu7ng to the circulus arteriosus around the interpeduncular fossa.
� The posterior communica7ng artery is usually very small.
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� ANTERIOR CEREBRAL ARTERY � The anterior cerebral artery is the smaller of the two
terminal branches of the internal caro7d. � The surgical nomenclature divides the vessel into three
parts: � A1: from the termina7on of the internal caro7d artery to the
junc7on with the anterior communica7ng artery; � A2:
from the junc7on with the anterior communica7ng artery to the origin of the callosomarginal artery;
� A3: distal to the origin of the callosomarginal artery. This segment is also known as the pericallosal artery
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INTERNAL CAROTID ARTERY
� ANTERIOR CEREBRAL ARTERY • The anterior cerebral artery starts at the medial end of
the stem of the lateral cerebral fissure and passes anteromedially above the op7c nerve to the great longitudinal fissure where it connects with its fellow by a short transverse anterior communica7ng artery.
• The anterior communica7ng artery is c.4 mm in length and may be double.
• It gives off numerous anteromedial central branches which supply the op7c chiasma, lamina terminalis, hypothalamus, para-‐olfactory areas, anterior columns of the fornix and the cingulate gyrus
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� ANTERIOR CEREBRAL ARTERY • The two anterior cerebral arteries travel together in the great
longitudinal fissure. • They pass around the curve of the genu of the corpus
callosum and then along its upper surface to its posterior end, where they anastomose with posterior cerebral arteries.
• They give off cor7cal and central branches
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• MIDDLE CEREBRAL ARTERY • The surgical nomenclature identifies four subdivisions:
• M1 - from the termination of the internal carotid artery to the bi/trifurcation, this segment is also known as the sphenoidal;
• M2 - the segment running in the lateral (Sylvian) fissure, also known as the insular;
• M3 - coming out of the lateral fissure, also known as the opercular;
• M4 - cortical portions.
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� MIDDLE CEREBRAL ARTERY • The middle cerebral artery runs first in the lateral cerebral
fissure, then posterosuperiorly on the insula, and divides into branches distributed to this and the adjacent lateral cerebral surface.
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INTERNAL CAROTID ARTERY
� VERTEBRAL ARTERY � The vertebral arteries and their major branches (sometimes referred to
as the 'vertebrobasilar system') essentially supply blood to the upper spinal cord, the brain stem, cerebellum and occipital lobe of the cerebrum
� The vertebral arteries are derived from the subclavian arteries. � They ascend through the neck in the foramina transversaria of the
upper six cervical vertebrae and enter the cranial cavity through the foramen magnum, close to the anterolateral aspect of the medulla .
� They converge medially as they ascend the medulla and unite to form the midline basilar artery at approximately the level of the junction between medulla and pons.
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� VERTEBRAL ARTERY � One or two meningeal branches arise from the vertebral artery
near the foramen magnum. � These ramify between the bone and dura mater in the posterior
cranial fossa, and supply bone, diploe and the falx cerebelli � The largest branch of the vertebral artery is the posterior inferior
cerebellar artery. � It arises near the lower end of the olive, which it curves back
around, and then ascends behind the roots of the glossopharyngeal and vagus nerves to reach the inferior border of the pons.
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• VERTEBRAL ARTERY � Here it curves and descends along the inferolateral border of the fourth
ventricle before it turns laterally into the cerebellar vallecula between the hemispheres, and divides into medial and lateral branches.
� The medial branch runs back between the cerebellar hemisphere and inferior vermis, and supplies both.
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INTERNAL CAROTID ARTERY
• VERTEBRAL ARTERY � The lateral branch supplies the inferior cerebellar surface as far as its
lateral border and anastomoses with the anterior inferior and superior cerebellar arteries (from the basilar artery).
� The trunk of the posterior inferior cerebellar artery supplies the medulla oblongata dorsal to the olivary nucleus and lateral to the hypoglossal nucleus and its emerging nerve roots.
� It also supplies the choroid plexus of the fourth ventricle and sends a branch lateral to the cerebellar tonsil to supply the dentate nucleus. The posterior inferior cerebellar artery is some7mes absent
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• BASILAR ARTERY � This large median vessel is formed by the union of the vertebral arteries
at the mid-‐medullary level and extends to the upper border of the pons � It lies in the pon7ne cistern, and follows a shallow median groove on the
ventral pon7ne surface. � The basilar artery terminates by dividing into two posterior cerebral
arteries at a variable level but most frequently in the interpeduncular cistern, behind the dorsum sellae.
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INTERNAL CAROTID ARTERY
• BASILAR ARTERY � The anterior inferior cerebellar artery is given off from the lower part of
the basilar artery and runs posterolaterally, usually ventral to the abducens, facial and ves7bulocochlear nerves.
� It commonly exhibits a loop into the internal acous7c meatus below the nerves, and when this occurs, the labyrinthine artery may arise from the loop.
� The anterior inferior cerebellar artery supplies the inferior cerebellar surface anterolaterally and anastomoses with the posterior inferior cerebellar branch of the vertebral artery.
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INTERNAL CAROTID ARTERY
• BASILAR ARTERY � The superior cerebellar artery arises near the distal por?on of the basilar
artery, immediately before the forma?on of the posterior cerebral arteries.
� It passes laterally below the oculomotor nerve, which separates it from the posterior cerebral artery, and curves round the cerebral peduncle below the trochlear nerve to gain the superior cerebellar surface.
� Here it divides into branches which ramify in the pia mater and supply this aspect of the cerebellum, and also anastomose with branches of the inferior cerebellar arteries.
� The superior cerebellar artery supplies the pons, pineal body, superior medullary velum and tela choroidea of the third ventricle.
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INTERNAL CAROTID ARTERY
• POSTERIOR CEREBRAL ARTERY � The posterior cerebral artery is a terminal branch of the
basilar artery � The surgical nomenclature iden7fies three segments:
� P1 -‐ from the basilar bifurca7on to the junc7on with the posterior communica7ng artery;
� P2 -‐ from the junc7on with the posterior communica7ng artery to the por7on in the perimesencephalic cistern;
� P3 -‐ the por7on running in the calcarine fissure
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INTERNAL CAROTID ARTERY
• POSTERIOR CEREBRAL ARTERY � The posterior cerebral artery is larger than the superior cerebellar artery,
from which it is separated near its origin by the oculomotor nerve, and, lateral to the midbrain, by the trochlear nerve.
� It passes laterally, parallel with the superior cerebellar artery, and receives the posterior communica7ng artery.
� It then winds round the cerebral peduncle and reaches the tentorial cerebral surface, where it supplies the temporal and occipital lobes.
� Like the anterior and middle cerebral arteries, the posterior cerebral artery has cor7cal and central branches
� The posterior cerebral artery supplies the visual areas of the cerebral cortex and other structures in the visual pathway.
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• CIRCULUS ARTERIOSUS � The circulus arteriosus (circle of Willis) is a large arterial anastomosis
which unites the internal caro7d and vertebrobasilar systems. � It lies in the subarachnoid space within the deep interpeduncular cistern,
and surrounds the op7c chiasma, the infundibulum and other structures of the interpeduncular fossa.
� Anteriorly, the anterior cerebral arteries, which are derived from the internal caro7d arteries, are joined by the small anterior communica7ng artery.
� Posteriorly, the two posterior cerebral arteries, which are formed by the division of the basilar artery, are joined to the ipsilateral internal caro7d artery by a posterior communica7ng artery.
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INTERNAL CAROTID ARTERY
• CIRCULUS ARTERIOSUS � In the majority of instances, the posterior communica?ng arteries are
very small, however, and a limited flow is possible between the anterior and posterior circula?ons.
� This is important because the primary purpose of the vascular circle is to provide anastomo7c channels if one vessel is occluded.
� There is considerable individual varia7on in the pacern and calibre of vessels which make up the circulus arteriosus.
� Although a complete circular channel almost always exists, one vessel is usually sufficiently narrowed to reduce its role as a collateral route.
� Cerebral and communica7ng arteries individually may all be absent, variably hypoplas7c, double or even triple. The circle is rarely func7onally complete.
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• CIRCULUS ARTERIOSUS � The greatest varia7on in calibre between individuals occurs in the posterior
communica7ng artery. � Commonly, the diameter of the precommunica?ng part of the posterior
cerebral artery is larger than that of the posterior communica?ng artery; In which case the blood supply to the occipital lobes is mainly from the vertebrobasilar system.
� Some7mes, however, the diameter of the precommunica?ng part of the posterior cerebral artery is smaller than that of the posterior communica?ng artery, in which case the blood supply to the occipital lobes is mainly from the internal caro?ds via the posterior communica?ng arteries.
� Agenesis or hypoplasia of the ini?al segment of the anterior cerebral artery are more frequent than anomalies in the anterior communica?ng artery and contribute to defec7ve circula7on in about a third of individuals.
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