Blood supply

Question 1

Two paired arteries which are responsible for the blood supply to the brain

Answer 1

Vertebral arteries

Internal carotid arteries.

Question 2

What proportion and area do the vertebral arteries supply?

Answer 2

20% of the total, and supply the posterior part of the cerebrum and the contents of the posterior cranial fossa

Question 3

What proportion and area do the internal carotid arteries supply?

Answer 3

Supply the remaining 80% and distribute to the anterior and middle parts of the cerebrum and the diencephalon.

Question 4

Where is the circle of willis located?

Answer 4

The ‘Circle of Willis’ is located in the interpeduncular cistern and enclosing the optic chiasm

Question 5

Where do the internal carotid arteries arise?

Answer 5

Bifurcation of the left and right common carotid arteries, at the level of the fourth cervical vertebrae (C4)

Question 6

How do the internal carotid arteries enter the skull?

Answer 6

Carotid canal of the temporal bone.

Question 7

Initial branches of the ICA?

Answer 7

Anterior cerebral artery and middle cerebral artery

Question 8

Anterior cerebral artery branches and anastomoses

Answer 8

Gives off the short anterior communicating artery (connects with opposite anterior cerebral, circle of willis)

Posteriorly it anastomoses with branches of the posterior cerebral artery.

Question 9

Middle cerebral artery supplies mainly

Answer 9

Lateral surface of the cerebral hemisphere

Question 10

Internal carotid artery branches and anastomoses

Answer 10

A posterior communicating artery - which joins the posterior cerebral artery - ‘connecting vessel’ in the Circle of Willis

A small artery to the choroid plexus of the lateral ventricle.

The ophthalmic artery - supplies the structures of the orbit

Anterior choroidal artery - supplies structures in the brain important for motor control and vision.

Superior hypophyseal arteries - branch from the internal carotid arteries to supply the hypothalamus.

Question 11

What is the ophthalmic artery a branch of?

Answer 11

ICA

Question 12

Where does the ophthalmic artery arise?

Answer 12

First branch distal to cavernous sinus

Question 13

Where do the superior hypophyseal arteries arise from?

Answer 13

ICA

Question 14

Where does posterior communicating artery arise from?

Answer 14

MCA

Question 15

What do the vertebral arteries arise from?

Answer 15

Subclavian arteries

Question 16

How do vertebral arteries ascend?

Answer 16

Ascend the posterior aspect of the neck, through holes in the transverse processes of the cervical vertebrae, known as foramen transversum.

Question 17

How do vertebral arteries enter the cranial cavity?

Answer 17

Foramen magnum

Question 18

Branches of the vertebral arteries prior to basilar convergence

Answer 18

Meningeal branch – supplies the falx cerebelli, a sheet of dura mater.

Anterior and posterior spinal arteries – supplies the spinal cord, spanning its entire length.

Posterior inferior cerebellar artery – supplies the cerebellum.

Anterior inferior cerebellar artery - supplies cerebellum

Superior cerebellar artery - supplies cerebellum

Question 19

What happens to the vertebral arteries at the lower border of the pons?

Answer 19

Vertebral arteries converge to form the basilar artery.

Question 20

Where does the basilar artery travel initially?

Answer 20

Passes rostrally within the pontine cistern, lying in a shallow groove, the anterior median fissure, or basilar groove, of the pons.

Question 21

How does the basilar artery terminate?

Answer 21

By bifurcating into the posterior cerebral arteries.

Question 22

Where do the posterior cerebral arteries lie?

Answer 22

They can be seen at the rostral border of the pons, and can be traced some distance laterally around the cerebral peduncles towards the posterior surface of the cerebrum.

Question 23

What do the posterior cerebral arteries supply?

Answer 23

The main terminal portions of the posterior cerebral arteries distribute to the occipital and temporal cortex.

Question 24

Three main (paired) constituents of the Circle of Willis and two connecting vessels

Answer 24

Anterior cerebral arteries – terminal branches of the internal carotid arteries.

Internal carotid arteries – located immediately proximal to the origin of the middle cerebral arteries.

Posterior cerebral arteries – terminal branches of the basilar artery

Anterior communicating artery – connects the two anterior cerebral arteries.

Posterior communicating artery – branch of the internal carotid, this artery connects the ICA to the posterior cerebral artery.

Question 25

Anterior cerebral arteries mainly supply

Answer 25

Anteromedial cerebrum

Question 26

Posterior cerebral arteries mainly supply

Answer 26

Medial and lateral posterior brain

Question 27

What are the three longitudinal arteries, that primarily supply the spinal cord as it descends from the brainstem to the conus medullaris?

Answer 27

Anterior spinal artery – formed from branches of the vertebral arteries, travelling in the anterior median fissure.

Gives rise to the sulcal arteries, which enter the spinal cord.

Two posterior spinal arteries – originate from the vertebral artery or the posteroinferior cerebellar artery,

Question 28

Where do the two posterior spinal arteries anastomose

Answer 28

Pia mater

Question 29

What arteries support the spinal cord supply from cervical level down?

Answer 29

Segmental medullary and radicular arteries.

Question 30

Describe origin and passage of the anterior and posterior medullary arteries

Answer 30

The anterior and posterior segmental medullary arteries are derived from spinal branches of a number of arteries, before entering the vertebral canal through the intervertebral foramina.

The great anterior segmental artery of Adamkiewicz reinforces circulation to the inferior 2/3 of the spinal cord, and is found on the left in the majority of individuals.

Question 31

Where does the great anterior segmental artery of Adamkiewicz reinforce circulation? t

Answer 31

Inferior 2/3 of the spinal cord

Question 32

What is the path of the radicular arteries?

Answer 32

The radicular arteries supply (and follow the path of) the anterior and posterior nerve roots. Some radicular arteries may also contribute to supplying the spinal cord.

Question 33

Does CNS venous drainage follow arterial supply?

Answer 33

No

Question 34

Where do the veins from the brainstem, cerebellum and cerebrum drain?

Answer 34

Empty into the dural venous sinuses.

Question 35

Where do the spinal veins drain?

Answer 35

Internal and external vertebral plexuses.

Question 36

Where do the dural venous sinuses lie?

Answer 36

Between the periosteal and meningeal layers of the dura mater.

Question 37

All the dural venous sinuses ultimately drain into the

Answer 37

Internal jugular vein.

Question 38

Do dural venous sinuses have valves?

Answer 38

No

Question 39

How many dural venous sinuses?

Answer 39

11

Question 40

What sinuses converge at the confluence of sinuses?

Answer 40

Straight, superior and inferior

Question 41

How does blood drain out from the confluence of sinuses?

Answer 41

Out transverse sinus, down sigmoid, into internal jugular vein

Question 42

Upon exiting the cerebral parenchyma, where do the veins run?

Answer 42

In the subarachnoid space and pierce the meninges to drain into the dural venous sinuses.

Question 43

Superficial System of veins is largely responsible for

Answer 43

Draining the cerebral cortex

Question 44

Superficial veins (3 main ones)

Answer 44

Superior cerebral veins: Drain the superior surface, carrying blood to the superior sagittal sinus.

Superficial middle cerebral vein: Drains the lateral surface of each hemisphere, carrying blood to the cavernous or sphenopalatine sinuses.

Inferior cerebral veins: Drain the inferior aspect of each cerebral hemisphere, depositing blood into cavernous and transverse sinuses.

Question 45

Connects the superficial middle cerebral vein to the superior sagittal sinus.

Answer 45

Superior anastomotic vein (Trolard)

Question 46

Connects the superficial middle cerebral vein to the transverse sinus.

Answer 46

Inferior anastomotic vein (Labbé)

Question 47

Deep veins

Answer 47

Subependymal veins receive blood from the medullary veins and carry it to the dural venous sinuses.

The great cerebral vein (vein of Galen) is formed by the union of two of the deep veins, and drains into the straight sinus.

Medullary veins: Originate 1-2cm below the cortical grey matter, and drain into subependymal veins. These drain the deep areas of the brain.

Question 48

What veins are responsible for the venous drainage of the cerebellum?

Answer 48

The superior and inferior cerebellar veins.

They empty into the superior petrosal, transverse and straight dural venous sinuses.

Question 49

Spinal cord venous drainage

Answer 49

The spinal cord is supplied by three anterior and three posterior spinal veins.

These veins are valveless, and form an anastamotic network along the surface of the spinal cord.

They also receive venous blood from the radicular veins.

Question 50

Where do spinal cord veins drain?

Answer 50

The spinal veins drain into the internal and external vertebral plexuses, which in turn empty into the systemic segmental veins.

The internal vertebral plexus also empties into the dural venous sinuses superiorly.

Question 51

A skull fracture at the pterion is likely to cause - and why?

Answer 51

Epidural haemotoma (by rupture of middle meningeal artery)/ extra dural haemorrhage

Question 52

State the expected consequence of a lesion resulting from occlusion of anterior cerebral artery.

Answer 52

Contralateral loss of motor and sensory function of the lower limb

Question 53

State expected consequence of a lesion resulting from occlusion of middle cerebral artery

Answer 53

Contralateral loss of motor and sensory function in upper limb

Question 54

State expected consequence of a lesion resulting from occlusion of posterior cerebral artery

Answer 54

Contralateral loss of hemifield vision (homonymous hemianopsia)

Question 55

State expected consequence of a lesion resulting from occlusion of anterior spinal artery branches to medial medulla

Answer 55

Medial medullary syndrome

A deviation of the tongue to the side of the infarct caused by ipsilateral muscle weakness.

Limb weakness on the contralateral side of the infarct and a loss of discriminative touch, conscious proprioception, and vibration sense on the contralateral side of the infarct

Question 56

State expected consequence of a lesion resulting from occlusion of hypothalamo-hypophysial portal veins

Answer 56

Pickardt syndrome - a type of hypothyroidism

Question 57

The pterion is found at the junction of which four bones?

Answer 57

Frontal, Parietal, Temporal and Sphenoid

Question 58

The main artery that supplies the visual cortex bordering the calcarine sulcus?

Answer 58

Posterior cerebral

Question 59

The artery from which the labyrinthine artery to the inner ear branches?

Answer 59

Anterior inferior cerebellar/Basilar

Question 60

Rupture of a berry aneurysm on the posterior communicating artery will cause

Answer 60

Oculomotor nerve palsy

Question 61

Lesions of the posterior parietal cortex cause

Answer 61

Neglect syndromes

Question 62

When does the common carotid artery divide?

Answer 62

C4

Question 63

Branches of the external carotid artery?

Answer 63

Superior thyroid, ascending pharyngeal, lingual, facial, then it terminates into the maxillary and the superficial temporal

Question 64

What does the superior thyroid branch of external carotid supply?

Answer 64

Superior thyroid and the larynx

Question 65

What supplies the tonsils?

Answer 65

Ascending pharyngeal branch of the external carotid

Question 66

What does the maxillary artery supply

Answer 66

Deep structures

Question 67

What supplies the tongue?

Answer 67

Lingual

Question 68

What does the superficial temporal artery lie behind?

Answer 68

Masseter

Question 69

What drains the head and neck?

Answer 69

Many veins which drain into both the internal and external jugular

Question 70

What veins are notably valveless why is this significant?

Answer 70

Emissary veins drain into the cavernous sinus, likely to pass infection into the brain from regions around the nose and upper lip

Question 71

What joins to form the external jugular?

Answer 71

Retromandibular and posterior auricle vein

Question 72

Lymphatic drainage of head and neck

Answer 72

Lymph from the head, face and neck drains to the submental, submandibular, parotid, mastoid and occipital nodes

Then ultimately into deep cervical nodes then jugular lymphatic trunk then thoracic duct on left and IJV ON RIGHT

Question 73

What does anterior jugular drain?

Answer 73

Subligual region

Question 74

What drains lymph from the tongue?

Answer 74

Submental and submandibular

Question 75

What drains lymph from nasopharynx and auditory meati?

Answer 75

Retropharnygeal