Download MBBS Anatomy PPT 76 Cerebrum Anatomy Notes

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Learning Objectives

A Different lobes and surfaces of Cerebral hemisphere

B. Blood supply of different regions of cerebral hemisphere

C Important sulci and gyri

D Different functional areas located in cerebral hemisphere

E. Lesions and its effects


2

Cerebrum

Largest part of the brain

Heavily convoluted bilobed

structure
4

Cerebral hemispheres

General Appearance:
Separated by a deep midline sagittal

fissure ? longitudinal cerebral fissure

In the depth of the fissure, the corpus

cal osum connects the hemispheres

across the midline

Gyri ? the folds of the surface of

hemispheres

Sulci ? the fissures separate the gyri

5

Surfaces of Cerebral Hemisphere

Three surfaces:

Superolateral surface

Inferior surface

Medial surface




Borders

1 Superomedial border

2 Superciliary border and inferolateral border

(Shows preoccipital notch)

3. Medial orbital border, hippocampal border or

inferomedial border and medial occipital border

6

Lobes of Cerebral Hemispheres

Cerebral hemispheres are divided into

lobes by the central, parieto-occipital,

lateral and calcarine sulci

Lobes are named according to the

cranial bones under which they lie

Lobes are:
Frontal
Parietal
Temporal
Occipital
8

Cerebral hemisphere
? the essential features can be

1

summarized by stating that:-

1. the frontal lobe lies in front of

the central sulcus (1) and above

2

the lateral sulcus (2) .

3

2. the parietal lobe is behind the

central sulcus and above the

lateral sulcus.

3. the temporal lobe is below the

lateral sulcus

4. the occipital lobe lies below and

P

behind the parieto-occipital

F

sulcus (3) .

O

T
Main sulci

1

1. Central sulcus

3

2. Lateral sulcus
3. Parito-occipital sulcus
4. Calcarine sulcus

2

5. Cingulate sulcus
6. Cal sosal sulcus ( Sulcus

of corpus cal osum )

7. Orbital sulcus
8. Parahippocampal sulcus
9. Col ateral sulcus

5

10. Occipiti-temporal sulcus

6

- First (6) can be seen in

sagittal sections

- Last 4 seen only in axial

4

sections

Main sulci

7

1. Central sulcus
2. Lateral sulcus
3. Parito-occipital

sulcus

4. Calcarine sulcus
5. Cingulate sulcus
6. Cal sosal sulcus (

Sulcus of corpus

10

8

cal osum )

9

7. Orbital sulcus
8. Parahippocampal

sulcus

9. Col ateral sulcus
10. Occipiti-temporal

sulcus
1. Central sulcus 2. Lateral sulcus 3. Parito-occipital sulcus
4. Calcarine sulcus

5. Cingulate sulcus

6. Cal sosal sulcus ( Sulcus of corpus cal osum )

1

3

5 6

2

4

2

2. Parahippocampal sulcus
3. Col ateral sulcus
4. Occipiti-temporal sulcus

3

4
Main gyri

1

2

1. Precentral

3

2. Postcentral

3

4

3. Frontal (superior, middle & inferior)

3

4. Parietal (superior & inferior) 5-

5

5. Temporal (superior, middle &

inferior)

5

6. Cal osal

5

7. Medial frontal
8. Paracentral lobule
9. Precuneus

7

8

10. Cuneus

6

11. Lingual gyrus

9

12. Orbital gyri
13. Gyrus rectus

10

14. Parahippocampal
15. Occipitotemporal (medial & lateral)

11

16. Uncus
Main gyri

13

1. Precentral

2. Postcentral

12

3. Frontal (superior, middle & inferior)

4. Parietal (superior & inferior) 5-

5. Temporal (superior, middle &

inferior)

6. Cal osal

16

7. Medial frontal

8. Paracentral lobule

15

15

9. Precuneus

14

10. Cuneus

11. Lingual gyrus

12. Orbital gyri

13. Gyrus rectus

14. Parahippocampal

15. Occipitotemporal (medial & lateral)

16. Uncus
1

1. Rectus gyrus
2. Uncus ( parahippocampus

gyrus )

2

3. Hippocampal gyrus

3

9

Main sulci

Central sulcus

Indents the superior medial border of the

hemisphere, 1 cm behind the mid-point

It runs downward, forward and toward the

lateral sulcus across the lateral aspect of the

hemisphere

The central sulcus is the only sulcus that

indents the superior medial border
-

10

Main sulci (Cont'd)

Lateral sulcus

Deep cleft on the inferior and lateral

surfaces of the cerebral hemisphere

It consists of a short stem and three rami

- Anterior horizontal , anterior

ascending and posterior

11

Main sulci (Cont'd)

Parieto-occipital sulcus:

Begins on the superior medial border of

the hemisphere, about 5 cm anterior to

the occipital pole

It passes downward and anteriorly on the

medial surface to meet the calcarine

sulcus


Main sulci (Cont'd)

Calcarine Sulcus- Medial surface


Insula/Island Of Reil
? portion of the cerebral cortex

folded deep within the lateral

sulcus.

? Play a role in consciousness and

emotions

? The cortical area overlying the

insula toward the lateral surface of

the brain is the operculum

(meaning lid).

? The opercula are formed from

parts of the enclosing frontal,

temporal, and parietal lobes.

? Insulaa is surrounded by circular

sulcus ( arrow !! )

Superior surface

of temporal

operculum

presents

anterior and

posterior

transverse

temporal gyri
Other Sulci and Gyri

Superolateral su12rface

Frontal lobe ? anterior to central sulcus

and superior to lateral sulcus

Superolateral surface of frontal lobe is

divided by three sulci into four gyri

Precentral sulcus and gyrus

Superior and inferior frontal sulci

Superior, middle and inferior frontal gyri

Anterior and ascending rami of lateral

sulcus divide inferior frontal gyrus into

PARS ORBITALIS, PARS TRIANGULARIS PARS

OPERCULARIS
13

15

Superolateral surface

Parietal lobe ? POST

CENTRAL SULCUS AND

GYRUS

o INTRAPARIETAL SULCUS

AND SUPERIOR AND

INFERIOR PARIETAL LOBULE

Lateral

sulcus
Superolateral surface

o PARIETAL LOBE-Few sulci extend into inferior

parietal lobule and divided into

o SUPRAMARGINAL GYRUS AROUND LATERAL

SULCUS

o ANGULAR GYRUS AROUND SUPERIOR

TEMPORAL SULCUS

o ARCUS TEMPORO-OCCIPITALIS AROUND

INFERIOR TEMPORAL SULCUS

14

Superolateral surface

Temporal lobe ? inferior to lateral sulcus

Two sulci ? SUPERIOR AND INFERIOR

SULCUS

Three gyri- SUPERIOR, MIDDLE AND

INFERIOR TEMPORAL GYRI
Superior surface of temporal operculum

(Superior temporal gyrus)presents anterior and

posterior transverse temporal gyri. Anterior

gyrus forming primary auditory area, also called
HESCHL'S GYRUS


Superolateral surface

Occipital lobe ? small area behind the

parieto-occipital sulcus

LATERAL OCCIPITAL SULCUS
LUNATE SULCUS
TRANSVERSE OCCIPITAL SULCUS


MEDIAL SURFACE

CINGULATE SULCUS AND CINGULATE GYRUS

CALLOSAL SULCUS

PARACENTRAL LOBULE(CORTICAL CENTRE OF

MICTURATION AND DEFECATION) AND MEDIAL FRONTAL

GYRUS

CALCARINE SULCUS AND PARIETO-OCCIPITAL SULCUS

SUPRASPLENIAL SULCUS IN PRECUNEUS


INFERIOR SURFACE

ORBITAL SURFACE- OLFACTORY SULCUS, GYRUS RECTUS

ORBITAL SULCUS AND ORBITAL GYRI

TENTORIAL SURFACE- MEDIAL COLLATERAL SULCUS AND LATERAL OCCIPITO-TEMPORAL

SULCUS

LINGUAL GYRUS ? BETWEEN COLLATERAL SULCUS AND CALCARINE SULCUS

LINGUAL GYRUS ANTERIORLY CONTINUE WITH PARAHIPPOCAMPAL GYRUS WHOSE

ANTERIOR END HOOK LIKE LIMITED BY RHINAL SULCUS- UNCUS

MEDIAL AND LATERAL OCCIPITO- TEMPORAL GYRUS




BLOOD SUPPLY- SUPEROLATERAL

SURFACE

MIDDLE CEREBRAL ARTERY EXCEPT

STRIP ALONG SUPEROMEDIAL BORDER FROM FRONTAL

POLE TO PARIETO OCCIPITAL SULCUS BY ACA

OCCIPITAL LOBE AND INFERIOF TEMPORAL GYRUS

EXCLUDING TEMPORAL POLE BY PCA

BLOOD SUPPLY- INFERIOR

SURFACE

ACA- MEDIAL PART OF ORBITAL SURFACE

MCA-LATERAL PART OF ORBITAL SURFACE AND

TEMPORAL POLE

PCA- TENTORIAL SURFACE
BROADMANS AREAS AND

FUNCTIONAL AREAS OF CEREBRAL

HEMISPHERE

Specific

Sulci/Fissures:

Central Sulcus

Longitudinal

Fissure

Sylvian/Latera

l Fissure

Transverse Fissure

http://www.bioon.com/book/biology/whole/image/1/1

http://www.dalbsoutss.eq.edu.au/Sheepbrains_Me/human_bra

Frontal Lobe - Cortical Regions

Primary Motor Cortex

/Brodmann,s area 4

Precentral Gyrus ? it cntro

ls

all voluntary movements of

the contralateral side of the

body

Site where movements of

the various parts of the

body are initiated

Recieves sensory input fro m



cerebellum and thalamus

The body is represented

upside down along the

precentral gyrus

Investigation (Phineas Gage)

Primary Motor

Cortex/ Precentral

Gyrus

Broca's Area

Orbitofrontal

Cortex

Olfactory Bulb

Regions

Modified from:
secondary motor area/6,8,44 and 45
Precentral gyrus,sup,middle,inf frontal gyri
It programs the activity of the PMA
Stronger stimulation is required to produce

the same degree of movement

Broca's Area ?44,45
Inf.frontal gyrus
Brings about the formation of words.
Located on Left Frontal Lobe
Broca's Aphasia ? Results in the ability to

comprehend speech, but the decreased

motor ability (or inability) to speak and

form words
Frontal eye field 8,
Middle frontal gyrus
Voluntary eye movements towards

opposite side and the

accomodation pathway

also controls eyelid movements

Prefrontal cortex9,10,11,12
Concerned with the makeup of the

individual,s personality

Head rotation area

Parietal Lobe - Cortical Regions

Primary sensorymotor Cortex

1,2,3(Postcentral Gyrus) ? Site involved with

processing of tactile and proprioceptive

information.

?Somatosensory Association Cortex -5,7 sup

parietal assists with the integration and

interpretation of sensations.

?Primary Gustatory Cortex 43

?Inferior part of the post central gyrus? Primary site

involved with the interpretation of the sensation of

Taste.
Primary

Somatosensory

Cortex/ Postcentral

Gyrus

Somatosensory

Association Cortex

Primary Gustatory

Cortex

Modified from:

http://www.bioon.com/book/biology/whole/image/1/1-8.tif.jpg

Regions

Occipital Lobe ? Cortical

Regions

Primary Visual Cortex ? This is the primary area of

the brain responsible for Vision

?Visual Association Area ? Interprets

information acquired through the

primary visual cortex.
Primary Visual

Cortex

Visual Association

Area

Modified from:

http://www.bioon.com/book/biology/whole/image/1/1-8.tif.jpg

Regions

Temporal Lobe ? Cortical

Regions

Primary Auditory Cortex ?41,42 mostly

hidden in the lateral sulcus

Responsible for hearing
Its anterior part recieves low freq sounds
Post part ?high freq sounds
Sec. Auditory Cortex 22
Interpretation of sounds
Temporal Lobe ? Cortical

Regions

?Primary Olfactory Cortex ? sense of smel

(Not visible on the superficial cortex)

?Wernicke's Area superior and middle

temporal gyri

?Understanding of speech
- Wernicke's Aphasia ? Words and sentences are

not clearly understood, and sentence formation

may be inhibited.

Primary Auditory

Cortex

Wernike's Area

Primary Olfactory

Cortex (Deep)
Conducted from Olfactory

Bulb

Modified from:

Regions

http://www.bioon.com/book/biology/whole/image/1/1-8.tif.jpg
dominant hemisphere

95-left
Broca
90% right handed
BLOOD SUPPLY

Anterior and middle cerebral artery

(internal carotid artery)

Posterior cerebral artery (basilar artery)

Physiological information about brain

? Left hemisphere is dominant in Which hemisphere

90% of the right handed and 64%

is dominant ?!

of the left handed

? Righ hemisphere is dominant in

10% of righ handed and 20% of

left handed

? In the remaining 16% of left

handed both hemispheres are

dominant .

? Speech areas in brain usual y in

the dominant hemisphere !! ( OF

CLINICAL IMPORTANT )
Brodmann areas

Motor areas of cortex

? 1- primary motor area :-

- MSI area ( precentral gyrus )

MSI

- MSI area ( Anterior part of

MSI

paracentral lobule )

? 2- secondary motor area

? Posterior parts of frontal

gyri extending medial y
Primary motor area
? Broadmann area 4

? The area Msl is where movements

of the various parts of the body

are initiated,

MSI

? Afferent :- receives its main inputs

MSI

from

the

cerebel um

and

thalamus.

? Efferent :- the corticonuclear and

corticospinal (pyramidal) tracts.

? MSI area receives many fibres

from the basal nuclei and is

concerned

with

postural

mechanisms, but this area is not

yet clearly understood.

Motor homunculus

? the body is represented upside

down along this cortex, although

the face itself is represented the

right way up.

? The face lies lowest, then the

hand (a very large area), then arm,

trunk and leg.

? The leg and perineum areas

overlap the superior border and

extend down on the medial

surface of the hemisphere

? Blood supply :-

? 1- middle cerebral artery

? 2- anterior cerebral a. ( leg area )
Primary motor area

? Lesions to this area produce

contralateral paralysis !!

? Organs that supplied bilateral y

are the less affected ...

? CNs are supplied bilateral y ?!!

Secondary motor area
? Or supplementary motor area
? Broadmann are 6
? Location :- Posterior parts of

frontal gyri extending medial y

? The function of the secondary

motor area:

? 1- To store programs of motor

activity

resulted

from

past

experience

? 2-

Controls

sequence

of

movements

? 3- Controls spatial & postural

orientation movements.

? 4- Controls bimanual movements.
? Blood supply: Middle & anterior

cerebral arteries
secondary motor area
? Lesions :-

? Apraxia (inability to execute learned purposeful movements despite

having the desire and the physical capacity to perform them).

? There is no or little loss of strength

Boca's area

? The motor (anterior) speech area

(of Broca, areas 44 and 45) is

usual y situated in the inferior

frontal gyrus on the left side (in

right-handed and in most left-

handed people), below and in

front of the face area and centred

on the pars triangularis between

the anterior and ascending rami of

the lateral fissure.

? Damage to it produces motor

aphasia -- difficulty in finding the

right words, but not paralysis of

laryngeal musculature.

? Blood supply :-

? Middle cerebral a.
Wernicke's area

? The posterior speech area (of

Wernicke) is in the posterior parts of

the superior and middle temporal gyri

and extends into the lower part of the

parietal lobe.

- It is connected to the Broca's, visual &

auditory cortex

? Function:

? To understand the written and spoken

language

? Its integrity is necessary for the

understanding of speech.

? Lesion ... Receptive dysphasia; the

patient responds by intact, but

irrelevant speech!

? Blood supply:

? Middle cerebral artery

Prefrontal cortex
? The prefrontal cortex is an

extensive area that lies anterior to

the precentral

? The prefrontal area is concerned

with

1. the makeup of the individual's

personality.

2. regulator of the person's depth of

feeling.

3. It also exerts its influence in

determining the initiative and

judgment of an individual.
Prefrontal cortex

? Lesions :-

? It is now general y agreed that

destruction of the prefrontal

? region does not produce any

marked loss of intelligence

? Tumour or traumatic destruction

of the prefrontal cortex result in

the person's losing initiative and

judgment.

? Emotional changes that occur

include a tendency to euphoria.

? The patient no longer conforms to

the accepted mode of social

behavior and becomes careless of

dress and appearance.

? Bipolar disorders

? Schizophrenia

Sensory areas

? 1- Primary somatosensory area
- The postcentral gyrus

1

- Posterior part of l p

o a

b r

u alce

e ntral

2

- Recieves primary from thalamus
- Sensations from the oral region,

pharynx, larynx & perineum are

received bilateral y

? 2- Secondary ( or association )

somatosensory area.

- Occupies the superior parietal

lobule
Primary sensory area

? Sensory homunculus:
? The amount of the cortex for a

particular part of the bod is

related

to

its

functional

importance

&

number

of

receptors ( not to its size)

? Blood supply:
- Middle cerebral artery
- Anterior cerebral artery (leg area)

Primary sensory area

? Lesions :-

? Lesions

of

the

primary

somesthetic area of the cortex

result in contralateral sensory

disturbances, which are most

severe in the distal parts of the

limbs. Crude painful, tactile,and

thermal stimuli often return,but

this is believed to be due to the

function of the thalamus.

? The patient remains unable to

judge

? degrees of warmth, unable to

localize tactile stimuli accurately,

and unable to judge weights of

objects.

? Loss of muscle tone may also be a

symptom of lesions of the sensory

cortex.
Secondary somatosensory area
? Function:
- Receive different sensory

modalities & relate them to past

experience. e.g; object recognition

without vision.

- Lesions = asterognosis !!
- Inable to identify things without

see them ...

Primary visual cortex
? Broadmann area 17

? Functions:
- Receives fibers from the opposite

field of vision

- It also excludes & modulates

unwanted images!

? Blood supply:
- Posterior cerebral artery

? Lesions :-
? Crossed homonymous hemianopia
Secondary visual cortex

? Brodmann area 18,19

? Surrounded by the primary visual

cortex ...

? Functions to relate the visual

information to past experiences

? Lesions produce ... Visual agnosia;

loss of ability to recognize objects

seen in the opposite field of vision

WHY don't we see everything upside-down?
? -Brain makes images 'easier' to see by:
? 1- Combining the two images of the two eyes (in corpus cal osum).
? 2- Make images right-side-up (in the visual cortex).

? It does this because your brain is so USED to see things upside-down that

it eventual y adjusts to it (it's easier to flip the image than to try using

hands and legs with an upside-down world)

? For the first days, babies see everything upside-down!
Primary auditory area

? Broadmann area 41,42

? In the inferior wal of lateral sulcus

? Afferent: Principal y from the

medial geniculate body

? Blood supply:

- Middle cerebral artery

- Lesions

produce ...

Partial

deafness in both ears with

inability to locate sound.

- The greater loss being in the

opposite ear

- (cochlear nuclei send 2nd order to

the olivary nucleus & nuclei of

trapezoid body bilateral y)

Auditory pathway

? Explaning why greter loss of

inability to hear on the

opposite site !!!

? Cochlear n. send fibers more

to the other side than the

same side ...
Secondary auditory area
? Broadmann area 22
? Lies posterior to the primary

auditory area

? Function:
- To interpret sounds and associate

the auditory input with other

sensory information.

? Blood supply:
? Middle cerebral artery

? Lesions : auditory agnosia !!

The dominant angular gyrus

? This part is often considered a

part of the Wernicke area

? Lesion here results in inability to

read (alexia) or write (agraphia).
Aphasia

Sensory aphasia

Alexia

Agraphia

Motor aphasia

A lesion resulting in a nonfluent expressive

aphasia would most likely be found in the

(A) temporal lobe

(B) parietal lobe

(C) frontal lobe

(D) occipital lobe
Alexia without agraphia and aphasia would

most likely result from occlusion of the

(A) left anterior cerebral artery

(B) right anterior cerebral artery

(C) left middle cerebral artery

(D) left posterior cerebral artery

(E) right posterior cerebral artery

A patient is asked to bisect a horizontal line

through the middle, to draw the face of a clock,

and to copy a cross. The patient bisected the

horizontal line to the left of the midline,

placed all of the numerals of the clock on the

right side, and did not complete the cross on

the left side. The most likely lesion site for this

deficit is the

(A) left frontal lobe

(B) right parietal lobe

(C) left parietal lobe

(D) right temporal lobe

(E) left occipital lobe
Arterial supply to Brain
? Tissue of the brain ( paranchyme )

al is supplied by two sources ...

? 1- branches of internal carotid

1

ACA

MCA

artery

? 2- branched of basilar artery

2

ECA

ICA

PCA

Basialr a.

CCA

Vertebral a.

Vertebral a.

aorta

Subcalvain a.

Subcalvain a.

Branches of the vertebral a.

1. Posterior

inferior

cerebel ar a.

2. Anterior spinal a.

2

1
Branches of the basilar a.

1. Anterior inferior cerebel ar a.
2. Superior cerebel ar a.
3. Posterior cerebral a.

32

1

Blood supply to Brain
Anterior cerebral artery

? leaves the internal carotid artery

and passes forwards above the

optic nerve

? It is connected to its fellow of the

opposite side by the anterior

communicating artery. It is

distributed to the orbital surface of

the frontal lobe and to the whole

of the medial surface of the

hemisphere above the corpus

cal osum as far back as the parieto-

occipital sulcus

Anterior cerebral artery

? The motor and sensory areas for the opposite leg, foot and perineum,

including the micturition and defecation centres, lie in its territory.

? Because of the anastomosis via the anterior communicating artery, it is

usual y possible for one anterior cerebral to be supplied with blood from

the contralateral internal carotid.
Anterior cerebral a. syndrome
1. Hemiparesis or hemiplegia contralateral y, involving primarily the lower

limbs and pelvic floor musculature

2. Sensory deficits contralateral y, involving primarily the leg and perineum
3. Apraxia (due to branches to the supplementary motor area and corpus

cal osum)

4. Disconnection syndrome (due to cal osal branches)
5. Anosmia (due to branches of the olfactory bulb and olfactory tract)
6. Urinary incontinence
7. Grasp reflex and or sucking reflex contralateral y (if circle of Wil is

compromised)

Middle cerebral artery
? The middle cerebral artery is

the largest and most direct

branch of the internal carotid

and therefore most subject to

embolism.

? It passes deep into the lateral

sulcus to supply the cortex of

the insula and overlying

opercula.

? It reaches the lateral surface of

the hemisphere
Middle cerebral artery

? by continuing in the lateral

sulcus, from which its branches

emerge and ramify over an area

that fal s short of the borders of

the lateral surface by one gyrus

or its equivalent breadth.

?
? In its area of cortical

distribution lie the motor and

sensory areas for the opposite

half of the body, excluding leg,

foot and perineum (which are in

anterior cerebral territory), and

the auditory and speech areas.

Middle cerebral a. syndrome
1. Hemiparesis or hemiplegia of the lower half of the contralateral face
2. Hemiparesis or hemiplegia of the contralateral upper and lower

extremities

3. Sensory loss of the contralateral face, arm and leg
4. Ataxia of contralateral extremities
5. Speech impairments/aphasia: Broca's area, Wernicke's or Global aphasia

as a result of a dominant hemisphere lesion (usual y the left brain)

6. Perceptual deficits: hemispatial neglect, anosognosia, apraxia, and

spatial disorganization as a result of a non-dominant hemisphere lesion

(usual y the right brain)

7. Visual disorders: d?viation conjugu?e, a gaze preference towards the side

of the lesion; contralateral homonymous hemianopsia

Note: *faciobrachial deficits greater than that of the lower limb
Posterior cerebral artery
? The posterior cerebral artery

curls back around the cerebral

peduncle supplying it and the

optic tract, and passes back

above the tentorium to supply

the inferomedial surface of the

temporal and occipital lobes

? Its territory meets that of the

anterior cerebral artery at the

parieto-occipital sulcus.

Its

branches extend around the

borders of the brain to supply

the inferior temporal gyrus and

a corresponding strip of cortex

on the lateral surface of the

occipital lobe. .

Posterior cerebral artery

? The visual area for the

opposite field of vision lies

whol y within its territory,

but the middle cerebral

branches can sometimes

extend sufficiently far back

on the occipital lobe to

supply the macular part of

the visual area .

? Thus the macular field of

vision may be spared when

the rest of the visual area is

destroyed by a posterior

cerebral thrombosis.
Posterior cerebral a. syndrome
1. Visual disorder : Contralateral homonymous hemianopsia & cortical

blindness with bilateral involvement of the occipital lobe branches

2. visual agnosia
3. dyslexia, Anomic aphasia, color naming and discrimination problems
4. memory defect
5. involuntary movements: chorea, intention tremor, hemibal ismus
6. contralateral hemiplegia
7. Weber's syndrome: occulomotor nerve palsy
8. B?lint's syndrome: loss of voluntary eye movements optic ataxia,

asimultagnosia (inability to understand visual objects).

Circle of wil is

? 1, Internal carotid artery.

? 2, Posterior cerebral

artery.

8

? 3, Anterior cerebral

artery.

? 4, Anterior cerebral

artery.

? 5, Middle cerebral artery.

? 6, Basilar artery.

? 7, Vertebral artery.
? 8, anterior

communicating artery .