Narrow Neuroanatomy Flashcards

Question 1

Q

Anterior Cerebral Artery Segments

Answer

A

A1 (horizontal): origin from the ICA to the ACOM
A2 (vertical): from ACOM to the origin of the bifurcation into pericallosal and callosomarginal arteries
A3 (callosal): runs in the pericallosal sulcus (distal to the pericallosal artery/bifurcation)

Question 2

Q

ACA branches

Answer

A

A1:  
medial lenticulostriate artery
recurrent artery of Heubner
anterior communicating artery 
A2:
orbitofrontal artery
frontopolar artery 
A3:  
pericallosal artery
callosomarginal artery

Question 3

Q

Arterial Supply of the Cerebellum - Description

Answer

A

Cerebellum is essentially supplied by three paired arteries
posterior inferior cerebellar arteries
anterior inferior cerebellar arteries
superior cerebellar arteries
Very variable is arterial supply and arterial branches

Question 4

Q

Arterial Supply of the Cerebellum - origin

Answer

A

PICA - vertebral arteries
AICA - lower third of the basilar artery
SCA - upper third of the basilar artery

Question 5

Q

Arterial Supply of the Cerebellum - course/relations

Answer

A

PICA
- anterior medullary segment - from its origin around the inferior aspect of the medullary olive
- lateral medullary segment - forms ‘caudal loop’ which is located anteroinferior to the tip of the cerebellar tonsil
- posterior medullary segment - ascends posterior to the medulla behind CN IX and CN X and along the posterior medullary velum
- supratonsillar segment - junction between the posterior medullary segment and the supratonsillar segment is upwardly convex and is the site of origin of small choroidal branches (known as the “choroid point”)
AICA
- passing backward to be distributed to the anterior part of the undersurface of the cerebellum
- anastomoses with the PICA and the SCA
SCA
passes laterally, immediately below the oculomotor nerve, which separates it from the posterior cerebral artery
winds around the cerebral peduncle, and arrives at the upper surface of the cerebellum
anastomoses with AICA and PICA
segments - prepontine segment, ambient segment, quadrigeminal segment

Question 6

Q

Arterial Supply of the Cerebellum - branches

Answer

A

PICA
anterior and lateral medullary segments - small perforating medullary branches
supratonsillar segment - tonsillohemispheric branch, inferior vermian branch
AICA
labyrinthine passes into the IAM
lateral branch passes around the flocculus and into the hemispheric fissure (supplying both superior and inferior semilunar lobules)
medial branch supplies the biventral lobule
SCA
perforating branches to pons, midbrain, inferior colliculus
lateral branch - largest branch of the SCA and gives off hemispheric branches
hemispheric branches - arise from the lateral branch, and course superiorly over the superior cerebellar hemisphere (supplies dentate nucleus, superior vermis, medial quadrigeminal lobule, superior semilunar lobule)
superior vermian branch - terminal branch(es) of the SCA and anastomose with inferior vermian branches of the PICA

Question 7

Q

Arterial Supply of the Cerebellum - Supply

Answer

A

•	PICA
o	posteriorinferior cerebellar vermis (includes cerebellar tonsils, nucleus gracilis, biventral lobule, superior semilunar lobule)
o	inferior portion of the vermis
o	lower part of the medulla
•	AICA
o	middle cerebellar peduncle
o	infrolateral portion of the pons
o	flocculus
o	anteroinferior surface of the cerebellum
•	SCA
o	whole superior surface of the cerebellar hemispheres down to the great horizontal fissure
o	the superior vermis
o	dentate nucleus
o	most of the cerebellar white matter
o	parts of the midbrain, pons

Question 8

Q

Arterial Supply of the Cerebellum - Variants

Answer

A

PICA
absence
small or large depending on PICA-AICA dominance
variable origin (basilar, extracranial vertebral)
AICA
absence
small or large depending on PICA-AICA dominance
origin from middle third, or vertebrobasilar junction
SCA
unilateral duplication: 28%
bilateral duplication: 8%
triplication: 2%
when multiple, upper branch may arise from the PCA and usually supplies the vermis, whereas the lower branch supplies the hemisphere

Question 9

Q

Basilar Artery - Description

Answer

A

Part of the posterior cerebral circulation

Question 10

Q

Basilar artery - origin

Answer

A

Arises from the confluence of the left and right vertebral arteries at the base of the pons as they rise towards the base of the brain

Question 11

Q

Basilar artery - Course/relations

Answer

A

Ascends in the sulcus basilaris (groove in the pons) within the pontine cistern
Terminates by dividing into PCAs (P1) just inferior to the pituitary stalk (at the upper pontine border)

Question 12

Q

Basilar artery - Branches

Answer

A

Anterior inferior cerebellar artery (AICA)
Labyrinthine artery (~15% - more commonly a branch of AICA)
Pontine arteries
Superior cerebellar artery (SCA)

Question 13

Q

Basilar artery - Supply

Answer

A

Labyrinthine artery courses to internal auditory meatus to supply internal ear
AICA supplies anterior inferior quarter of cerebellum
Pontine branches supply pons and adjacent parts of midbrain
SCA runs around the cerebral peduncles laterally to supply the superior half of cerebellum and parts of the midbrain
PCA supplies posterior aspect of the brain (occipital lobe)

Question 14

Q

Basilar artery - Variants

Answer

A

Persistent carotid-vertebrobasilar anastomoses (mnemonic: TOHP)
Basilar artery fenestration / Island formation
Basilar artery forms in caudal position
Basilar artery is continuation of only one vertebral artery
Two basilar arteries with otherwise normal branches
Anastomosing network instead of a basilar artery

Question 15

Q

Circle of Willis - Description

Answer

A

This is the central arterial anastomotic ring of the brain between the internal carotid and vertebrobasilar systems
Complete circle of Willis (in which no component is absent or hypoplastic) is only seen in 20-25% of individuals
Posterior circle anomalies are seen in nearly 50% of anatomical specimens

Question 16

Q

Circle of Willis - Origin

Answer

A

The Circle of Willis has 10 components:
2 internal carotid arteries (ICA)
2 proximal anterior cerebral artery (ACA) segments
1 anterior communicating artery (ACOM)
2 posterior communicating arteries (PCOM)
Basilar artery
2 posterior cerebral artery (PCA) segments

Question 17

Q

Circle of Willis - course/relations

Answer

A

Lies within suprasellar cistern
Inferior: sella turcica, pituitary
Superior: hypothalamus, optic chiasm and pituitary stalk

Question 18

Q

Circle of Willis - embryology

Answer

A

ICAs develop from 3rd aortic arches, dorsal aortae, and the vascular plexus around the forebrain
Embryonic ICAs divide into cranial and caudal divisions
cranial gives rise to ACAs and ACOMs
caudal gives rise to PCOMS and proximal segments of the PCAs
Paired dorsal longitudinal neural arteries fuse to form the basilar artery

Question 19

Q

Circle of Willis - Supply

Answer

A

The Circle of Willis supplies the entire central base of the brain (including hypothalamus, internal capsule, optic tracts, thalamus, midbrain)

Question 20

Q

Circle of Willis - Variants

Answer

A

Variants are the rule, not exception. The textbook version is only present in 20-25% of cases
Hypoplasia of one or both PCOM ~30% (configuration D,E,F,G)
Hypoplastic/absent A1 segment of ACA ~15% (configuration C)
Absent or fenestrated ACOM ~12.5% (configuration B)
Origin of PCA from the ICA with absent/hypoplastic P1 segment (foetal PCOM) ~20% (not shown)
Infundibular dilatations of the PCOM origin
Single (Azygous) ACA trunk can be present
Persistent Primitive Carotid-Vertebrobasilar anastomoses

Question 21

Q

Circle of willis Common variants

Answer

A

Hypoplasia of one or both PCOM ~30%
Hypoplastic/absent A1 segment of ACA ~15%
Absent or fenestrated ACOM ~12.5%
Origin of PCA from the ICA with absent/hypoplastic P1 segment (foetal PCOM) ~20%
Duplicated ACOM
Absence of ICA, MCA is derived from the contralateral ICA

Question 22

Q

Middle Cerebral Artery - Description

Answer

A

MCA is one of the three major paired arteries that supply blood to the brain
The MCA is divided into three segments:
M1 (horizontal segment): from the origin to bifurcation/trifurcation (the limen insulae)
M2 (sylvian segment): runs posteriorly within the sylvian fissure, makes a hairpin turn, then to the cortical surface
M3 (cortical segment): branches emerging from the Sylvian fissure onto the convex surface of the hemisphere

Question 23

Q

Middle Cerebral Artery - Origin

Answer

A

Arises from the ICA as the larger of the two main terminal branches (lateral to the optic chiasm)

Question 24

Q

Middle Cerebral Artery - Course/relations

Answer

A

Continues into the lateral sulcus where it branches and provides many branches that supply the cerebral cortex
Medial: optic chiasm, pituitary fossa

Question 25

Q

Middle Cerebral Artery - branches

Answer

A

M1 (FOUR)
- (Some medial lenticulostriate)
lateral lenticulostriate penetrating arteries: supplies - 
- basal ganglia
- anterior temporal artery
- polar temporal artery
- uncal artery (with branches also from the anterior choroidal artery)
M2 (TWO trunks)
- most commonly, it divides into two trunks-superior and inferior (may trifurcate into a third inferior division):
- superior terminal branch
lateral frontobasal artery
prefrontal sulcal artery
precentral sulcal (pre-Rolandic) artery
central sulcal (Rolandic) arteries
inferior terminal branch
three temporal branches (middle, posterior)
branch to the angular gyrus
two parietal branches (anterior, posterior)
M3
cortical branches

Question 26

Q

Middle Cerebral Artery - Supply

Answer

A

Supplies the majority of the lateral surface of the hemisphere, except the superior portion of the parietal lobe (via ACA) and the inferior portion of the temporal and occipital lobes (via PCA)
Also supplies part of the internal capsule and basal ganglia

Question 27

Q

Middle Cerebral Artery - Variants

Answer

A

MCA duplication: parallels the main MCA
Accessory MCA
MCA fenestration
Early branching of the M1 segment within 1 cm of origin
MCA originates from the contralateral ICA

Question 28

Q

Pituitary arterial supply - Description

Answer

A

The pituitary has rich blood supply, with both a portal circulation (to the anterior pituitary) and arterial supply (to the posterior pituitary)
Anterior pituitary receives blood which descends from the hypothalamus along the infundibulum as a portal system (venous channels connecting two capillary beds)

Question 29

Q

Pituitary arterial supply - Portal system

Answer

A

Superior hypophyseal arteries give superior branches which supply the superior most infundibulum which receives axons from a number of hypothalamic nuclei
These axons release various releasing and inhibiting factors which are then taken down the infundibulum in the hypophyseal portal venous plexus, and thus delivered to the anterior pituitary where they control the release of its numerous hormones

Question 30

Q

Pituitary arterial supply - arterial system

Answer

A

Inferior hypophyseal artery forms rich network of arterial supply
circuminfundibular anastomosis: surrounds the pituitary stalk (ascending and descending infundibular branches)
inferior hypophyseal arterial circle (inferior capsular arterial rete): surrounds the base of the pituitary

Question 31

Q

Pituitary arterial supply - branches

Answer

A

From above
superior hypophyseal artery (ICA C6)
infundibular artery
prechiasmal artery
From below/side
inferior hypophyseal artery (from the meningohypophyseal trunk ICA C4)
capsular artery
artery of the inferior cavernous sinus

Question 32

Q

Posterior Cerebral artery - segments

Answer

A

P1: origin to the PCOM, located within the interpeduncular cistern
P2: from PCOM around the mid-brain, divided into P2A (anterior) and P2P (posterior) sub-segments
P3: quadrigeminal segment (within the quadrigeminal cistern)
P4: cortical segment

Question 33

Q

Posterior Cerebral artery - branches/supply

Answer

A

Supplies thalamus (thalamogeniculate branches)
posteromedial ganglionic branches
posterolateral ganglionic branches
Fornix, thalamus, caudate nucleus, and choroid plexus
posterior choroidal branches (medial and lateral)
Cortical branches
anterior temporal
posterior temporal
lateral occipital
medial occipital
posterior pericallosal (supplies corpus callosum)

Question 34

Q

Cavernous Sinus - Description

Answer

A

Cavernous sinus is one of the paired dural venous sinuses
Located on either side of the pituitary fossa, between two layers of the dura
Anteriorly it is bounded by the superior orbital fissure and posteriorly by the petrous apex

Question 35

Q

Cavernous Sinus - tributaries

Answer

A

Superior ophthalmic vein
Inferior ophthalmic vein
Sphenoparietal sinus
Superficial middle cerebral vein

Question 36

Q

Cavernous Sinus - drainage

Answer

A

Superior petrosal sinus to the transverse sinus (ultimately into the IJV)
Inferior petrosal sinus directly to the jugular bulb (ultimately into the IJV)
Emissary viens passing through the foramen ovale to the pterygoid plexus
emissary veins connect the extracranial venous system with the intracranial venous sinuses
Cavernous sinuses connect to each other via the intercavernous sinuses

Question 37

Q

Cavernous Sinus - relations

Answer

A

Medial: pituitary fossa
Lateral: temporal lobe
Anterior: superior and inferior orbital fissures, globe
Posterior: Meckel’s cave
Superior: clinoid processes, optic chiasm/nerves/tracts, ICA, AComA
Inferior: (ROS) Foramen rotundum connecting to the pterygopalatine fossa (anteriorly), foramen ovale and spinosum connecting to the infratemporal fossa (posteriorly)

Question 38

Q

Cavernous Sinus - Contents

Answer

A

Cavernous sinus transmits multiple cranial nerves to the superior orbital fissure and foramen ovale: OTOMCA
O: oculomotor nerve
T: trochlear nerve
O: opthalmic branch of trigeminal nerve
M: maxillary branch of trigeminal nerve
C: internal carotid artery + sympathetics
A: abducent nerve
Note
OTOM runs within the lateral wall of the cavernous sinus, CA runs within cavernous sinus
mandibular branch of trigeminal nerve is not associated with the cavernous sinus since it has descended vertically through the foramen ovale underneath the trigeminal ganglion (Gasser ganglion)
ICA has two cavernous sinus branches: meningohypophyseal trunk and inferolateral trunk

Question 39

Q

Cerebral Dural Venous Sinus - Unpaired dural sinuses

Answer

A

Superior saggittal sinus
Inferior saggittal sinus
Straight Sinus 
Occipital sinus 
Intercavernous sinus

Question 40

Q

Superior saggittal sinus

Answer

A

runs from the anterior aspect of the falx cerebri to its termination at the confluence of sinuses at the occipital protuberance
receives venous blood from the cortical veins through the cerebral hemispheres

Question 41

Q

Inferior saggittal sinus

Answer

A

runs along the inferior edge of the falx cerebri and drains into the straight sinus
receives tributaries from the falx and some small veins from the medial surface of the cerebral hemispheres

Question 42

Q

Straight Sinus

Answer

A

found at the junction between the falx cerebri and the tentorium cerebelli
receives the inferior sagittal sinus, the vein of Galen, some superior cerebellar veins
runs posteroinferiorly towards the confluence of sinuses, although the exact drainage is variable: confluence of sinuses (56%), left transverse sinus (21%), right transverse sinus (13%)
occasionally duplicated, hypoplastic or absent
when absent a persistent falcine sinus drains directly into the superior sagittal sinus

Question 43

Q

Occipital sinus

Answer

A

located on the inner surface of the occipital bone and drains postero-superiorly to the confluence of the sinuses
receives tributaries from the margins of the foramen magnum

Question 44

Q

Intercavernous sinus

Answer

A

connect the left and right cavernous sinuses (along with the basilar sinus)
has anterior and posterior parts
lies in the anterior and posterior borders of the diaphragma sellae

Question 45

Q

Intercavernous sinus

Answer

A

connect the left and right cavernous sinuses (along with the basilar sinus)
has anterior and posterior parts
lies in the anterior and posterior borders of the diaphragma sellae

Question 46

Q

Paired cerebral dural sinuses

Answer

A

Transverse sinus
Sigmoid sinus
Inferior petrosal sinus
Superior petrosal sinus
Cavernous sinus 
Sphenoparietal sinus
Basilar venous sinus

Question 47

Q

Transverse sinus

Answer

A

drains the superior sagittal sinus, the occipital sinus, superior petrosal sinus and the straight sinus
empties into the sigmoid sinus which in turn reaches the jugular bulb
highly variable anatomy: aplasia/hypoplasia of the left more common than right

Question 48

Q

Sigmoid sinus

Answer

A

continuation of the transverse sinus (and is similarly variable in size)
passes inferiorly in an S shaped groove posteromedial to the mastoid air-cells to the jugular foramen and ends in the jugular bulb

Question 49

Q

Inferior petrosal sinus

Answer

A

drains blood from the cavernous sinus to the jugular foramen
runs in a shallow groove between the petrous temporal bone and basilar occipital bone (on either side of the clivus)
connected across the midline by the basilar plexus
receives tributaries from the medulla oblongata, pons, inferior surface of the cerebellum and labyrinthine veins

Question 50

Q

Superior petrosal sinus

Answer

A

drains the cavernous sinus to the transverse sinus
runs along superior aspect of the petrous temporal bone
receives cerebellar veins, inferior cerebral veins, labyrinthine vein

Question 51

Q

Cavernous sinus

Answer

A

located on either side of the pituitary fossa and body of the sphenoid bone
receives venous blood from the superior opthalmic vein, inferior ophthalmic vein and the sphenoparietal sinus
contains the OTOMCA structures
drains into inferior petrosal sinus, superior petrosal sinus and the pterygoid plexus via emissary veins

Question 52

Q

Sphenoparietal sinus

Answer

A

located along the posteroinferior ridge of the lesser wing of the sphenoid bone
drains into the cavernous sinus
receives tributaries from the superficial middle cerebral vein, middle meningeal vein, anterior temporal diploic vein

Question 53

Q

Basilar venous sinus

Answer

A

connects the: inferior petrosal sinuses, cavernous sinuses, intercavernous sinus, superior petrosal sinuses, internal vertebral venous plexus, marginal sinus (around the margins of foramen magnum)

Question 54

Q

Cerebral veins - descriptions

Answer

A

Cerebral veins drain the brain parenchyma and are located in the subarachnoid space
Pierce the meninges and drain further into the dural venous sinuses
Cerebral venous system can be divided into: superficial (cortical) cerebral veins and deep (subependymal) cerebral veins

Question 55

Q

Cerebral veins (superficial) - course/relations

Answer

A

superficial venous system comprises the sagittal sinuses and cortical veins
cortical veins course along the cortical sulci, drain the cortex and some of the adjacent white matter
numerous cortical veins and most of them are unnamed; large cortical veins can be named according to their location
cortical venous system can be subdivided into superior, middle and inferior groups
three important veins of the superficial system (SIS):
Superior Anastomotic Vein (of Trolard): runs superoposteriorly from the posterior border of the lateral sulcus to the superior sagittal sinus in the parietal region
Inferior Anastomotic Vein (of Labbe): runs inferoposteriorly from the posterior end of the lateral sulcus to the transverse sinus
Superficial Middle Cerebral Vein: runs anteriorly along the lateral sulcus to drain via the sphenoid sinus to the cavernous sinus

Question 56

Q

Cerebral veins (deep) - course/relations

Answer

A

three important veins of the deep system (BIG):
Internal Cerebral Vein: formed posterior to the interventricular foramen (of Munro) at the venous angle
major tributaries are the choroid vein, septal vein and thalamostriate vein
internal cerebral veins then run posteriorly in the roof of the third ventricle and unite beneath the splenium of the corpus callosoum to form the Great Cerebral Vein
Great Cerebral Vein (of Galen): runs posterosuperiorly behind the splenium of the corpus callosum
it receives the basal veins and posterior fossa veins and unites with the inferior sagittal sinus to form the straight sinus
Basal Vein (of Rosenthal): formed at the anterior perforator substance by the union of the anterior cerebral vein, deep middle cerebral vein (from the insula), and striate veins (from the inferior surface of the basal ganglia)
the basal vein passes around the midbrain to join the Great Cerebral Vein
Medullary veins are numerous and originate 1-2 cm below cortical gray matter and pass through deep medullary white matter and drain into subependymal veins
Subependymal veins receive medullary veins and aggregate into greater tributaries, mainly into septal veins, thalamostriate veins, internal cerebral veins, basal vein of Rosenthal and vein of Galen

Question 57

Q

Cerebral Ventricles - Description/features

Answer

A

The ventricles are fluid filled spaces within the brain
Composed of two lateral ventricles, a third and fourth ventricle
Interconnections between the ventricles occurs through the following:
interventricular foramen (of Monro): lateral to third
cerebral aqueduct (of Sylvius): third to fourth
median aperture (of Magendie): fourth to cisterna magna
two lateral apertures (of Luschka): fourth to cerebellopontine cistern

Question 58

Q

Cerebral Ventricles - lateral ventricles

Answer

A

One in each cerebral hemisphere
Each has a frontal horn, body, temporal horn and an occipital horn
Each communicates with the third ventricle by means of an interventricular foramen (of Munro) at the junction of the anterior horn and body
Contains the choroid plexus which produces CSF
Frontal horn relations
roof: corpus callosum (rostrum / genu)
lateral: caudate nucleus
medial: septum pellucidum
Body relations
roof: corpus callosum body
medial: septum pellucidum
floor: thalamus
Temporal horn relations
lateral: tapetum of the corpus callosum
roof: tail of caudate nucleus, amygdaloid nucleus
floor: hippocampus
Occipital horn relations
lateral: tapetum of corpus callosum
floor: collateral sulcus

Question 59

Q

Cerebral Ventricles - third ventricles

Answer

A

The third ventricle is a slit-like cavity between the thalami
Sometimes the thalami are connected to each other, forming the interthalamic adhesion
Relations
lateral: thalamus
floor: hypothalamus
roof: anterior commissure, body of fornix
anterior: lamina terminalis
Has several recesses:
supra-optic recess (above the optic chiasm)
infundibular recess (above the pituitary stalk)
posteriorly there is a pineal and suprapineal recesses
Choroid plexuses of the third ventricle invaginates the roof of the ventricle
Cerebral aqueduct is the narrow channel in the midbrain that connects the third and fourth ventricles

Question 60

Q

Cerebral Ventricles - fourth ventricle

Answer

A

Extends from the cerebral aqueduct (of Sylvius) to the obex and is filled with CSF
Relations:
roof: cerebellum
floor (ventrally): rhomboid fossa (formed by the back of the pons and medulla oblongata)
lateral walls: cerebellar peduncles
CSF enters the ventricle via the cerebral aqueduct and leaves via one of four routes:
via the obex and into the central spinal canal
via the median aperture (of Magendie) into the cisterna magna
via ones of the two lateral apertures (of Luschka) into the cerebellopontine cistern

Question 61

Q

Cerebral Ventricles - arterial supply

Answer

A

Anterior choroidal arteries (branch of ICA)
Posterior choroidal arteries (branch of PCA)
PICA
AICA

Question 62

Q

Cerebral Ventricles - venous drainage

Answer

A

Internal cerebral vein
Inferior petrosal sinus
Occipital sinus

Question 63

Q

Intracranial cisterns - description/contents

Answer

A

Subarachnoid cisterns are areas within the subarachnoid space where the pia mater and arachnoid membrane are not in close approximation
- cerebrospinal fluid (CSF) gathers to form pools
Contains CSF and the cerebral vessels
Subarachnoid space communicates with the fourth ventricle by means of apertures
- one median aperture (Magendie) drains CSF into the cisterna magna
- two lateral apertures (Luschka) drains CSF into the cerebellopontine angle cistern

Question 64

Q

Major cisterns

Answer

A

Cisterna magna/cerebellomedullary cistern
Supracellar cistern
pontine cistern
cerebellopontine angle cistern
inderpeduncular cistern
quadrigeminal cistern
ambient cistern

Answer 65

A

largest subarachnoid cistern
located between the cerebellum and the dorsal surface of the medulla oblongata
CSF produced in the ventricular system drains into the cisterna magna from the fourth ventricle via the median aperture (of Magendie)
contents: vertebral arteries, CN 9-12

Answer 66

A

located above the sella turcica, under the hypothalamus
shape of a pentagon at the level of the optic chiasm
shape of a six-point star at the level of cerebral peduncles
contents: optic chiasm, infundibular stalk, anterior part of the circle of Willis

Answer 67

A

occupies a large space on the ventral aspect of the pons (between pons and clivus)
continuous with the cerebellopontine angle cistern laterally, cisterna magna behind, and the interpeduncular cistern anteriorly
contents: basilar artery, SCA, AICA, CN 6

Answer 68

A

receives CSF via the lateral apertures (of Luschka) of the fourth ventricle
contents: AICA, CN 5, 7, 8

Answer 69

A

lies between cerebral peduncles and the dorsum sellae
encloses the cerebral peduncles and structures contained within the interpedunclar fossa
continuous with the pontine cistern, ambient cisterns and the suprasellar cistern
contains: the posterior part of the circle of Willis

Answer 70

A

located between the splenium of the corpus callosum and the superior surface of the cerebellum
continuous with ambient cistern
contents: great cerebral vein, SCA

Answer 71

A

thin, sheet-like extension of the quadrigeminal cistern that extends laterally around the midbrain
acts as the connection between the quadrigeminal cistern and the interpeduncular cistern
contents: PCA

Answer 72

A

Cerebral meninges surround the brain
- Made up of three layers (from outermost to innermost):
- Dura mater
- dense fibrocollagenous sheet
tightly adherent to the skull at sutural attachments
2 layers
outer periosteal layer that forms over the periosteum of inner calvarium
inner meningeal layer that folds inward to form the falx cerebri, tentorium cerebelli, falx cerebelli
two layers are adherent except were separated by the dural venous sinuses
Arachnoid mater
thin, nearly transparent layer
outer surface is loosely adherent to dura and is easily separated
follows the dura and does not does not invaginate into sulci
outpouchings that pierce the dura in the venous dural sinuses are known as arachnoid granulations (involved in CSF reabsorption)
Pia mater
covers the brain and invaginates into sulci
Dura mater also known as pachymeninx
Arachnoid mater and pia mater are collectively known as the leptomeninges
Meninges provide a framework for blood vessels, nerves, lymphatics and CSF
Two potential spaces:
epidural (extradural) space - between the bone and the dura mater
subdural space - between the dura mater and the arachnoid mater
Subarachnoid space is a CSF containing space between the arachnoid and pia mater
Subpial space also known as Virchow-Robin space

Answer 73

A

MMA
Accessory meningeal artery
Meningeal branches of the opthalmic artery
Branches directly from the ICA
Meningeal branches of the vertebral artery
Ascending pharyngeal artery

Answer 74

A

Anterior fossa: V1
Middle fossa: V1-3
Posterior fossa: C1-3, hypoglossal, vagus

Answer 75

A

The basal ganglia includes: caudate nucleus, putamen, globus pallidus, subthalamic nucleus, substantia nigra
Has important role in speech, vision, movement, posture, motivation
Lentiform nucleus = putamen + globus pallidus
Corpus striatum = caudate nucleus + lentiform nucleus

Answer 76

A

Putamen forms the outermost portion of the lentiform nucleus
Separated from the more medial globus pallidus by a thin lateral medullary lamina
Putamen is related laterally to the external capsule, claustrum, extreme capsule and then the insula
Globus pallidus is divided into medial and lateral portions by the medial medullary lamina

Answer 77

A

Caudate nucleus is in the wall of the lateral ventricle
Has a head, body and tail
Head of the caudate lies anteriorly just posterior to the genu of the corpus callosum, bound laterally by the anterior limb of the internal capsule
Body extends supe
roposteriorly and lateral to the thalamus
Tail of the nucleus curves inferiorly then anteriorly into the temporal lobe to reach the amygdaloid body

Answer 78

A

Functionally part of the basal ganglia

Located inferior to the thalamus, superior to the substantia nigra and medial to the internal capsule

Answer 79

A

Lies in the midbrain, superior to the cerebral peduncles
Divided into two parts: the pars reticulata (medial) and pars compacta (lateral)
Separated from the globus pallidus by the internal capsule

Answer 80

A

Medial and lateral lenticulostriate Branches (ACA and MCA)
Recurrent artery of Heubner (ACA)
Anterior choroidal artery (ICA)

Answer 81

A

Internal cerebral veins to great cerebral vein (of Galen)

Answer 82

A

The cerebellum lies in the posterior cranial fossa
Involved in the processing of sensory information for motor control
Separated from the occipital lobe by the tentorium
Falx cerebelli runs between hemispheres
Separated from the brainstem by the 4th ventricle
3 pairs of cerebellar peduncles connect the cerebellum to the brainstem:
- superior - connects to midbrain
- middle - connects to pons
- inferior - connects to medulla
The cerebellum can be divided into two hemispheres with a midline vermis
- vermis is divided into 9 lobules
Fissures: primary, horizontal, prepyramidal, postpyramidal, posterolateral, retrotonsillar
Based on surface appearance, three lobes can be distinguished in the cerebellum, called the flocculonodular lobe, the anterior lobe (above the primary fissure), and posterior lobe (below the primary fissure)
Has two cerebellar tonsils

Answer 83

A

PICA: inferior surface of the hemispheres and vermis
AICA: anterolateral surface of undersurface of the hemisphere
SCA: superior aspect of the hemispheres

Answer 84

A

Superior and posterior surface: to the straight and transverse sinuses
Inferior surface: to the inferior petrosal, sigmoid and occipital sinuses

Answer 85

A

•	Posterior: occipital bone 
•	Anterior: mastoid, brainstem, 4th ventricle
•	Surrounded by the dural sinuses: sigmoid, straight, transverse, occipital
•	CSF cisterns:
o	cisterna magna
o	quadrigeminal cistern
o	ambient cistern
o	cerebellopontine cistern

Answer 86

A

Variant anatomy:
• Cerebellar agenesis
• Mega cisterna magna

Answer 87

A

• Corpus callosum links the cerebral cortex of the left and right cerebral hemispheres
• Largest fibre pathway in the brain
• ~10cm in length and is C-shaped
• Divided into four parts (anterior to posterior):
o rostrum (continuous with the lamina terminalis)
o genu
o body
o splenium

Answer 88

A

• Superior: interhemispheric fissure in which runs the falx cerebri and the anterior cerebral vessels, inferior saggital sinus, corpus callosum
• Inferior: septum pellucidum anteriorly, and the fornix and its commissure posteriorly
• Lateral
o genu: forceps minor which connects medial and lateral surfaces of the frontal lobes
o trunk and splenium: tapetum which extend laterally along the lateral surface of the occipital and temporal horns of the lateral ventricle
o splenium: forceps major which connect the occipital lobes
• Separated from cingulate gyrus by the callosal sulcus

Answer 89

A

Rich blood supply
Pericallosal arteries (branches of the ACA) - provides majority of blood
Posterior pericallosal arteries (branches of the PCA)

Answer 90

A

• Anterior Cerebral Vein (to Great Cerebral Vein)

Answer 91

A

• Additional blood supply from:
o subcallosal artery (50% of patients) - branch of AComA
o median callosal artery (30% of patients) - branch of AComA
• Dysgenesis of the corpus callosum (an in utero developmental anomaly)
o types
 complete
 partial
o and also can be divided into:
 primary agenesis: the corpus callosum never forms
 secondary dysgenesis: the corpus callosum forms normally and is subsequently destroyed

Answer 92

A

Dorsal column = in spinal cord
Medial lemniscal = in the brain stem

Sensory pathway of fine touch, vibration, two-point discrimination, and proprioception (position sense) from the skin and joints.
It transmits information from the body to the postcentral gyrus of the cerebral cortex.

The first-order neurons reside in dorsal root ganglia and send their axons through the gracile fasciculus and cuneate fasciculus.
The first-order axons make contact with second order neurons at the gracile and cuneate nuclei in the lower medulla.

The second-order neurons send their axons to the thalamus (VPL)
The third order neurons arise from thalamus to the postcentral gyrus.

The gracile fasciculus carries input from the lower half of the body
The cuneate fasciculus carries input from the upper half of the body.
The gracile fasciculus arise from the fibers more medial than the cuneate fasciculus

When the axons of second-order neurons of the dorsal column system decussate in the medulla, they are called internal arcuate fibers. The crossings of the internal arcuate fibers form the medial lemniscus.

Answer 93

A

• The internal capsule is a deep subcortical structure that contains a concentration of white matter projection fibres
• These fibres form the corona radiata
• Made up of 5 parts
o anterior limb: between head of the caudate and lentiform nucleus
o genu: medial to the apex of the lentiform nucleus (the bend in the V-shape)
o posterior limb: between the thalamus and lentiform nucleus
o retrolentiform part: posterior to the lentiform nucleus
o sublentiform part: inferior to the lentiform nucleus

Answer 94

A

Arterial supply:
• Medial lenticulostriate artery (ACA branch) - anterior limb
• Lateral lenticulostriate artery (MCA branch) - anterior limb
• Recurrent artery of Heubner (ACA branch) - anterior limb
• Anterior choroidal artery (ICA branch) - posterior limb
• Multiple other small perforating branches from the MCA - genu
Venous drainage:
• Internal cerebral veins to the great cerebral vein (of Galen)

Answer 95

A

• Medulla oblongata is the most caudal part of the brainstem and is between the pons inferiorly and spinal cord superiorly
• Contains the vital autonomic cardiovascular and respiratory centers controlling heart rate, blood pressure, and breathing
• Medulla is separated into two main parts:
o ventral medulla which contains the olive, pyramidal tracts, and CN 9-12 rootlets
o tegmentum (dorsal) medulla which contain the CN nuclei and white matter tracts
• Ventral medulla
o pyramids are paired structures located at the medial aspect of ventral medulla and flank the anterior median fissure
 contains the the corticospinal tracts
 corticospinal tracts decussate
o olivary bodies are paired structures located at lateral aspect of ventral medulla
 separated from the pyramids by an anterolateral sulcus
 also a post-olivary sulcus lateral to the olivary bodies
 olivary bodies contain the superior and inferior olivary nuclei
o anteriorly there is an anterior median fissure
• Dorsal medulla
o posterior median sulcus and more lateral posterolateral sulcus
 between these sulci are the fasciculus gracilis and nuclei forming gracilis tubercle at the midline
 fasciculus cuneatus and nuclei forming cuneate tubercle more laterally
o superior dorsal aspect of medulla forms the floor of the inferior 4th ventricle
o inferior cerebellar peduncle
o inferiorly surrounded by the cisterna magna
• Embryology: myelencephalon aspect of the rhombencephalon (or hindbrain) becomes the medulla

Answer 96

A

Anterior: basilar part of the occipital bone
Posterior: 4th ventricle, cerebellum, cisterna magna
Hypoglossal nerve rootlets arise anterior to the olive
Glossopharyngeal, vagus and accessory nerve fibres emerge posterior to the olives
CN 6-8 arise between pons and medulla

Answer 97

A

Arterial supply:
•	Anterior: vertebral arteries, anterior spinal artery
•	Posterior: PICA
Venous drainage:
•	Anterior: inferior petrosal sinus
•	Posterior: occipital sinus

Answer 98

A

• Three portions:
o tectum (posterior)
o tegmentum
o cerebral peduncles (anterior)
Tectum:
• Composed of the tectal (quadrigeminal) plate, superior and inferior colliculi
• Below the colliculi, the superior cerebellar peduncles converge to form the superior boundary of the fourth ventricle
• CNIV nerve emerges just superior to the inferior colliculus
• Tectum is posterior to the cerebral aqueduct
Tegmentum
• Runs through the pons and medulla oblongata
• Contains all the brainstem nuclei
Cerebral peduncles:
• Composed of the large ascending and descending tracts that run to and from the cerebrum
• Separated by an interpeduncular fossa
• CNIII nerve emerges from between the peduncles anteriorly and passes between the PCA and SCA

Answer 99

A

Anterior: interpeduncular cistern

* Posterior: quadrigeminal cistern

Answer 100

A

Arterial supply:
•	PCA
•	Superior cerebellar arteries
Venous drainage:
•	Posterior mesencephalic veins to the great cerebral vein (of Galen)

Answer 101

A

Optic nerve → Optic chiasm → Optic tract → Lateral geniculate nucleus → Optic radiation → Visual cortex
Lateral geniculate nucleus is a sensory nucleus in the thalamus of the brain

Answer 102

A

• Together with the hypothalamus are the main endocrine interface between the CNS and the rest of the body
• Situated in the pituitary fossa of the sphenoid bone
• Divided into anterior pituitary and posterior pituitary
o anterior pituitary: responsible for synthesis and secretion of adrenocorticotropic hormone, luetinizing hormone, follicle stimulating hormone, thyroid stimulating hormone, growth hormone, prolactin
o posterior pituitary: direct extension of the hypothalamus and is responsible for secretion of oxytocin and ADH
• Anterior pituitary is glandular (adenohypophysis)
• Posterior pituitary is collection of axons (neurohypophysis)
• Anterior lobe is adherent with the posterior lobe by a narrow zone called the pars intermedia
• Covered superiorly by a dural reflection called the diaphragma sella
• Connected to the hypothalamus by the infundibular stalk

Answer 103

A

Inferior: body of sphenoid, sphenoid sinus
Superior: diaphragma sellae, suprasellar cistern, optic chiasm, AComA, circle of Willis
Lateral: cavernous sinus (and contents: OTOMCA), Meckels cave
Anterior: anterior intercavernous sinus
Posteriorly: posterior intercavernous sinus

Answer 104

A

Arterial supply:
• Superior hypophyseal artery gives rise to hypophyseal portal system
• Inferior hypophysial artery (from meningohypophyseal trunk)
• A capillary bed in the infundibulum gives rise to portal vessels to the anterior lobe
Venous drainage:
• Cavernous and intercavernous sinuses

Answer 105

A

Anterior lobe produces hormones in response to release factors carried from the the hypothalamus by the hypophyseal portal veins
Posterior lobe is made of nerve fibres whose cell bodies lie in the hypothalamus

Answer 106

A

Hypoplasia
Hyperplasia
Duplication
Incomplete diaphragma sella: allows CSF to enter the pituitary fossa giving an empty sella sign

Answer 107

A

Thin, triangular, vertical double membrane separating the anterior horns of the left and right lateral ventricles
Runs as a sheet from the corpus callosum down to the fornix

Answer 108

A

• Normal variant CSF space between the leaflets of the septum pellucidum
• Sometimes called the 5th ventricle
• CSP is present in the normal foetus, but over 85% of them fuse by 3-6 months of age
o persists in ~15% of the adult population
• Often confused with cavum vergae which is situated posterior to the anterior columns of the fornix

Answer 109

A

• Along with CSP, CV is a persistence of the embryological fluid-filled space between the leaflets of the septum pellucidum
• Sometimes called the 6th ventricle
• CV is the posterior extension of the CSP
o posterior to the anterior columns of the fornix, lying inferior to the splenium of the corpus callosum
• Not uncommon to have both persistent CSP and CV together

Answer 110

A

• Dilated CSF space involving the velum interpositum
o velum interpositum is a small membrane containing a potential space just above and anterior to the pineal gland which can become enlarged to form a cavum velum interpositum
• Extends below the splenium of the corpus callosum and the column of the fornix, and above internal cerebral veins

Answer 111

A

The spinothalamic tract (also known as anterolateral system or the ventrolateral system)

Sensory pathway from the skin to the thalamus (VPL).
Ventral posterolateral nucleus -> cortex of the postcentral gyrus.

Two adjacent pathways

Anterior (Crude touch)
Lateral (Pain + temperature)

In the spinal cord

Segmental organization (cervical, thoracic, lumbar, and sacral)
Arranged from most medial to most lateral respectively
The pathway decussates at the level of the spinal cord (approx 1 level above entry)

Answer 112

A

• The temporal lobe is one of the four lobes of the brain
• Involved in memories, language comprehension, and emotion association
• Can be divided into two main sections:
o neocortex: comprised of standard cerebral cortex
o mesial temporal lobe (limbic lobe): includes the hippocampus, amygdala, parahippocampal gyrus
• Divided into 6 gyri by 5 sulci which are oriented parallel to the Sylvian fissure (order from superolateral to inferomedial):
o superior temporal gyrus
o superior temporal sulcus
o middle temporal gyrus
o inferior temporal sulcus
o inferior temporal gyrus
o lateral occipitotemporal sulcus
o lateral occipitotemporal gyrus
o collateral sulcus
o lingual gyrus
o calcarine sulcus
o hippocampal gyrus

Answer 113

A

Thalamus is a paired and symmetrical structure in the brain
Main part of the diencephalon
Pathway through which signals are sent from cerebrum to midbrain via the cerebral peduncles and vice versa
Four parts (HEP D): hypothalamus, epithalamus, prethalamus and dorsal thalamus
Thalamus is connected to the spinal cord via the spinothalamic tract
Involved in consciousness, arousal, the level of awareness and activity, relaying sensory information, regulating sleep-wake cycle
Thalami usually connected via interthalamic adhesion

Answer 114

A

• All are branches of the PCA
o posterior communicating artery
o paramedian thalamic-subthalamic arteries
o thalamogeniculate arteries
o posterior (medial and lateral) choroidal arteries

Answer 115

A

Medial: forms lateral wall of the 3rd ventricle, pineal gland
Anterior: basal ganglia
Lateral: internal capsule
Posterior: occipital horn of the lateral ventricle
Inferior: red nucleus, midbrain, substantia nigra
Superior: anterior horn of the lateral ventricle, corpus callosum

Answer 116

A

Artery of Percheron (rare): single arterial trunk arises from the PCA to supply both thalami
Interthalamic adehesion (80% of people)

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