ANATOMY OF THE CEREBRUM.pptx

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NEUROANATOMY
CEREBRUM
DR PAUL A. ODEY
BSc., MBBCh., MSc, LMIH,
PHD in view
INTRODUCTION The cerebrum is the
largest part of the
brain, situated in the
anterior and middle
cranial fossae of the
skull and occupying
the whole concavity of
the vault of the skull.

It may be divided into
two parts: the
diencephalon, which
forms the central core,
and the
telencephalon, which
forms the cerebral
hemispheres.
 They are separated by a
deep midline sagittal
fissure, the longitudinal
cerebral fissure

 The fissure contains the
sickle-shaped fold of
dura mater, the falx
cerebri, and the anterior
cerebral arteries

 In the depths of the
fissure, the great
commissure, the corpus
callosum, connects the
hemispheres across the
midline.

 A second horizontal fold
of dura mater separates
the cerebral
hemispheres from the
cerebellum and is called
 POLES OF THE
CEREBRUM
Three somewhat pointed
ends or poles can be
recognised.

 These are the
frontal pole anteriorly,

The occipital pole
posteriorly,

The temporal pole
that lies between the
frontal and occipital
poles, and points
forwards and somewhat
downwards.
 the
cerebrum
A coronal
section through
the cerebral
hemispheres
shows that each
hemisphere has
three borders:
 superomedial

inferolateral

inferomedial
Borders of the cerebrum

The inferomedial border is
divided into an anterior part
called the medial orbital
border

And a posterior part called
the medial occipital
border.

The orbital part of the
inferolateral border is called
the superciliary border
(as it lies just above the
level of the eyebrows).
SURFACES OF THE
CEREBRUM

These borders divide the
surface of the
hemisphere into three
large surfaces:
 SUPEROLATERAL
SURFACE

MEDIAL SURFACE

 INFERIOR SURFACE

The inferior surface
is
further subdivided into
an anterior orbital part
and a posterior
tentorial part.
SURFACES OF THE CEREBRUM
 To consider the boundaries
Lobes of the cerebrum
of these lobes reference has
to be made to some sulci
and other features to be
seen on each hemisphere.

On the superolateral surface
of the hemisphere there are
two prominent sulci.

One of these is the
posterior ramus of the
lateral sulcus which
begins near the temporal
pole and runs backwards
and slightly upwards. Its
posterior most part curves
sharply upward
 The second sulcus that is
Lobes of the cerebrum used to delimit the lobes is
the central sulcus.

 It begins on the
superomedial margin a little
behind the midpoint between
the frontal and occipital poles,
and runs downwards and
forwards to end a little above
the posterior ramus of the
lateral sulcus.

On the medial surface of the
hemisphere, near the occipital
pole, there is a sulcus called
the parieto-occipital sulcus
Lobes of the A little anterior to the occipital
cerebrum pole the inferolateral border
shows a slight indentation
called the preoccipital notch
(or preoccipital incisure).

To complete the subdivision of
the hemisphere into lobes we
now have to draw two
imaginary lines. The first
imaginary line connects the
upper end of the parieto-
occipital sulcus to the
preoccipital notch.

The second imaginary line is a
backward continuation of the
posterior ramus of the lateral
sulcus
LOBES OF THE  The frontal lobe lies anterior to
the central sulcus, and above
CEREBRUM the posterior ramus of the
lateral sulcus.

 The parietal lobe lies behind the
central sulcus. It is bounded
below by the posterior ramus of
the lateral sulcus and by the second
imaginary line; and behind by the
upper part of the first imaginary line.

 The occipital lobe is the area
lying behind the first imaginary
line.

 The temporal lobe lies below the
posterior ramus of the lateral
sulcus and the second imaginary
line. It is separated from the
occipital lobe by the lower part of
the first imaginary line.
LOBES OF THE CEREBRUM
GYRI AND SULCI
OF THE CEREBRUM
 Gyri, so also sulci are present
in human brain and brain of
higher mammals.

 These are called
Gyrencephalic brain.

 Cerebral cortex of lower
mammals, birds and reptiles,
presents smooth surface
called Lissencephalic brain

 Sulci of cerebral cortex are of
variable length and depth. A
suclus separates two adjacent
gyri, it has two adjacent walls
and floor which are lined by
GYRI AND SULCI ON THE SUPEROLATERAL
SURFACE OF THE CEREBRAL HEMISPHERE
FRONTAL LOBE
 The precentral sulcus runs
downwards and forwards
parallel to and a little anterior
to the central sulcus.

 The area between it and the
central sulcus is the
precentral gyrus

 Anterior to the precentral
gyrus is the superior and
inferior frontal sulci. They
divide this region into
superior, middle and
inferior Frontal gyri

 The anterior and ascending
rami of the lateral sulcus
extend into the inferior frontal
gyrus dividing it into three
parts.

 The part below the anterior
ramus is the pars orbitalis;
SUPEROLATERAL SURFACE
OF THE CEREBRAL
HEMISPHERE (TEMPORAL
LOBE)

TEMPORAL LOBE
 The temporal lobe has
two sulci that run
parallel to the posterior
ramus of the lateral
sulcus

They are termed the
SUPERIOR AND
INFERIOR TEMPORAL
SULCI.

They divide the
superolateral surface of
this lobe into SUPERIOR,
MIDDLE AND INFERIOR
TEMPORAL GYRI.
 GYRI AND SULCI ON THE
SUPEROLATERAL SURFACE
OF THE CEREBRAL
HEMISPHERE (PARIETAL
LOBE)
PARIETAL LOBE
 The postcentral
sulcus runs
downwards and
forwards parallel to
and a little behind the
central sulcus.

 The area between
these two sulci is the
postcentral gyrus.

 The rest of the parietal
lobe is divided into a
superior parietal
lobule and an inferior
parietal lobule by the
intraparietal sulcus
 The upturned posterior end of
the posterior ramus of the
lateral sulcus extends into the
inferior parietal lobule

 The posterior ends of the
superior and inferior temporal
sulci also turn upwards to
enter this lobule

 The upturned ends of these
three sulci divide the inferior
parietal lobule into three
parts.

 The part that arches over the
upturned posterior end of the
posterior ramus of the lateral
sulcus is called the
supramarginal gyrus.

 The part that arches over the
superior temporal sulcus is
called the angular gyrus.

 The part that arches over the
GYRI AND SULCI ON THE
SUPEROLATERAL SURFACE OF
THE CEREBRAL HEMISPHERE
(OCCIPITAL LOBE)
 The occipital lobe shows three
rather short sulci. One of these,
the lateral occipital sulcus
lies horizontally and divides the
lobe into superior and
inferior occipital gyri
 The lunate sulcus runs
downwards and slightly
forwards just in front of the
occipital pole. The vertical strip
just in front of it is the gyrus
descendens.

 The transverse occipital
sulcus is located in the
uppermost part of the occipital
lobe.

 The upper end of the parieto-
occipital sulcus (which just
reaches the superolateral
surface from the medial
surface) is surrounded by the
arcus parieto-occipitalis
GYRI AND SULCI AND ON THE MEDIAL
SURFACE OF THE CEREBRAL
HEMISPHERE
GYRI AND SULCI AND ON THE MEDIAL
SURFACE OF THE CEREBRAL
HEMISPHERE
PARTS OF THE CORPUS
CALLOSUM
GYRI AND SULCI AND ON
THE MEDIAL SURFACE OF
THE CEREBRAL
HEMISPHERE
 The most prominent of
the sulci is the
cingulate sulcus
which follows a curved
course parallel to the
upper convex margin
of the corpus callosum

 The area between the
cingulate sulcus and
the corpus callosum is
called the gyrus
cinguli

 It is separated from
the corpus callosum by
the callosal sulcus.
 The part of the medial
surface of the
hemisphere between the
cingulate sulcus and the
superomedial border
consists of two parts.

 The smaller posterior part
which is wound around
the end of the central
sulcus is called the
paracentral lobule.

 The large anterior part is
called the medial
frontal gyrus

 The part of the medial
surface behind the
paracentral lobule and
the gyrus cinguli shows
two major sulci that cut
off a triangular area
called the cuneus
 The triangle is
bounded
anteriorly and
above by the
parieto-
occipital
sulcus

 inferiorly by the
calcarine
sulcus and
posteriorly by
the
superomedial
border of the
hemisphere.
INFERIOR SURFACE OF THE CEREBRUM
INFERIOR SURFACE OF THE CEREBRUM HEMISPHERE
 GYRI AND SULCI AND ON
THE INFERIOR SURFACE OF
THE CEREBRAL HEMISPHERE
SULCI AND GYRI ON
ORBITAL SURFACE
 Close to the medial
border of the orbital
surface there is an
anteroposterior sulcus:
it is called the
olfactory sulcus
because the olfactory
bulb and tract lie
superficial to it.

 The area medial to this
sulcus is called the
gyrus rectus.

 The rest of the orbital
surface is divided by
SULCI AND GYRI ON THE
TENTORIAL SURFACE
 The tentorial surface is
marked by two major sulci
that run in an
anteroposterior direction.
These are the collateral
sulcus medially, and the
occipito-temporal sulcus
laterally.

 The posterior part of the
collateral sulcus runs parallel
to the calcarine sulcus: the
area between them is the
lingual gyrus.

 Anteriorly, the lingual gyrus
becomes continuous with the
parahippocampal gyrus

 The anterior end of the
parahippocampal gyrus is
cut off from the curved
temporal pole of the
 This part of the
parahippocampal
gyrus forms a hook-
like structure called
the uncus

 The area between
the collateral sulcus
and the rhinal sulcus
medially, and the
occipitotemporal
sulcus laterally, is
the medial
occipitotemporal
gyrus

 The area lateral to
the occipitotemporal
sulcus is called the
lateral
occipitotemporal
gyrus
 SOME IMPORTANT POINTS ABOUT
CEREBRAL CORTEX
As per as evolution concerned, cerebral cortex
indicates the highest stage of development of human
brain.
 Phylogenetic subdivision
Archicortex: it is the most primitive part of cerebral
cortex, found in lower vertebrate, in human it is
represented by the parahippocampal gyrus

Paleocortex: It is intermediate in evolution, In human
brain it is represented by cingulate gyrus

Neocortex: It is the major part of human cerebral
cortex which is evolved latest, it is represented by 90%
of human cortex.
Structural composition of the cerebral cortex
 Cerebral cortex is made up of

 Neurons with chain of synapses

 Neuroglia

 Total number of neurons in human cerebral
cortex is 14000 millions.

 Neurons are arranged in stratification of
layers Maximum number of layers are six (6)
in neocortex. Minimum number are three (3)
in archicortex
Types of neurons in the cerebral cortex
Types of neurons in the cerebral cortex
LAYERS OF THE CEREBRAL CORTEX
LAYERS OF THE CORTEX SHOWING CONNECTIONS
 GROSS FUNCTION OF THE CEREBRAL CORTEX
In reference to both motor commands and sensory
responses, cerebral cortex possesses influence over
opposite half of body.

Basic functions of cerebral cortex are as follows:

Perception of various sensations

Reaction or response as per perception of sensation

To send motor commands to opposite half of body.

Various types of higher functions for mental activities,
e.g. memory, intelligence, learning, thinking, etc.
STRUCTURES WITHIN THE
CEREBRAL HEMISPHERE
The surface of the
cerebral hemisphere is
covered by a thin layer of
grey matter called the
cerebral cortex.

The cortex follows the
irregular contour of the
sulci and gyri of the
hemisphere and extends
into the depths of the sulci.

As a result of this folding
of the cerebral surface, the
cerebral cortex acquires a
much larger surface area
than the size of the
hemispheres would
otherwise allow.
The greater part of the
cerebral hemisphere deep to
the cortex is occupied by
white matter within which are
embedded certain important
masses of grey matter.

Immediately lateral to the
third ventricle there are the
thalamus and
hypothalamus (and
certain smaller masses)
from the diencephalon.

More laterally there is the
corpus striatum which is
derived from the
telecephalon
It consists of two masses of
grey matter, the caudate
nucleus and the lentiform
nucleus
A little lateral to the
lentiform nucleus we
see the cerebral
cortex in the region of
the insula

Between the
lentiform nucleus and
the insula there is a
thin layer of grey
matter called the
claustrum

The caudate
nucleus, the lentiform
nucleus, the
claustrum and some
other masses of grey
The white matter that
occupies the interval
between the thalamus and
caudate nucleus medially
and the lentiform nucleus
laterally is called the
internal capsule.

It is a region of
considerable importance
as major ascending and
descending tracts pass
through it.

The white matter that
radiates from the upper
end of the internal capsule
to the cortex is called the
corona radiata.
The two
cerebral
hemispheres
are
interconnected
by fibres
passing from
one to the
other.

These fibres
constitute the
commissures
of the
cerebrum.
The largest
of these is
the corpus
callosum
 WHITE MATTER OF THE CEREBRUM
White matter of cerebrum are huge number of
myelinated nerve fibers of different diameter
with associated neuroglial cells

It forms a compact mass situated in the
central core of cerebrum deep to cortex.

In contrast to the term of cortical gray matter,
white matter is referred as medullary
substance

 The compact bundle of fibers in white matter
may be restricted within cerebral hemisphere
CLASSIFICATION
OF WHITE
MATTER
 Bundles of white matter
are classified into
following three groups
 ASSOCIATION,
COMMISSURAL AND
PROJECTION FIBERS

 1) Association fibers
are the fiber bundles
which interconnect
different areas of same
cerebral hemisphere.
But these may be
restricted in one lobe or
may extend from one
lobe to another

 So these fibers do not
cross midline and do not
go to any subcortical
centers.
 Broadly, association fibers
are classified into following
two groups

 A) Short association
fibers: These are restricted
to one of the lobes of
cerebral hemisphere.

 B) Long association
fibers: These fibers extend
from one lobe to another in
the form of bundle. They
are present in the form of
following names :

 I) Uncinate fasciculus
 II) Cingulum
 III) Superior longitudinal
fasciculus
 IV) Fronto-occipital
fasciculus
 V) Inferior longitudinal
fasciculus
 2) Commissural
fibers:
Commissural
fibers
interconnect
identical areas of
two cerebral
hemispheres

 So these fibers
cross the midline
but do not extend
to any center
below cerebral
cortex

 These fibers,
which are also
known as
interhemispheric
fibers, are present
in the form of
bundles.
The bundles are known as commissures. Name of
important commissures are:

I. Corpus callosum
II. Anterior commissure
III. Habenular commissure
IV. Posterior commissure
V. Hippocampal commissure.

Corpus callosum
Corpus callosum is the largest and most compact
bundle of commissural fibers.

This thick bundle of fibers crosses the midline across
the bottom of median longitudinal fissure of brain to
interconnect almost all the identical area of two
Corpus callosum
Callosal commissure
ANTERIOR
COMMISSURE
 Anterior
commissure is a
compact bundle
of myelinated
nerve fibers
crossing midline
horizontally.

 It crosses in front
of anterior column
of fornix being
embedded in a
thin layer of gray
matter called
lamina terminalis

 It connects the
two temporal lobe
of the cerebral
hemisphere
across the midline
Habenular
commissure
Habenular
commissure is a
thin bundle of
fibers passing
transversely
through proximal
lamina of pineal
stalk.

These fibers
primarily
interconnect
neurons of
Habenular nucleus
of both side of the
diencephalon
POSTERIOR
COMMISSURE
 Posterior commissure
is a thin bundle of
fibers which cross the
midline through
distal lamina of
pineal stalk.

 It connects identical
areas of both sides
which are as follows:

1. Superior colliculus
2. Pretectal nucleus
 commissure
(commissure of the
fornix)
 As per the
name,
hippocampal
commissure is
made up
bunch of fibers
which
interconnect
hippocampal
formation of
both sides.
 3) PROJECTION
FIBERS
 These fibers are
vertically disposed in
the central nervous
system

 These are the fibers
by which cerebral
cortex is connected to
many centers ranging
from the level Just
below the cortex
which are commonly
termed as subcortical
centers.

 It is clear therefore,
projection fibers
connect cerebral
cortex with subcortical
TYPES OF PROJECTION
FIBERS
 Corticofugal fibers: These
are efferent outflow from
cerebral cortex to
subcortical centers which
are at the following level

 Corpus striatum: These are
components of basal ganglia
which are submerged
collection of gray matter
embedded in central core of
white matter of cerebrum.
Fibers are called
corticostriate fibers

 Thalamus: Corticothalamic
fibers

 Various centers in
brainstem: These fibers
either project to some
specific nuclei,
e.g.corticorubral,
corticonigral, corticopontine
 Corticopetal fibers: These
are afferent fibers projecting
into cerebral cortex from various
centers

 All incoming (afferent)
projection fibers initially
terminate in thalamus. After
relay, from thalamus
corticopetal projection fibers
reach cerebral cortex

 cerebral cortex and thalamus
are connected by fibers of both
way directions.

 These fibers connecting
thalamus with all the four lobes
of cerebrum are called thalamic
radiation
1. Anterior thalamic radiation:
Connecting
frontal lobe.
2. Superior thalamic radiation:
Connecting parietal lobe.
3. Posterior thalamic
 Some areas of the cerebral
Functional areas of
cortex can be assigned specific
the cerebral cortex functions. These areas can be
defined in terms of sulci and
gyri.

Various authors have worked out
‘maps’ of the cerebral cortex
indicating areas of differing
structure.

The best known scheme is that
of Brodmann who represented
different areas by numbers.

In the year 1909, Brodmann
classified these areas from
number 1–47 and thereby called
Brodmann’s area.
 The motor area of classical
Motor Area description is located in
the precentral gyrus on
the superolateral surface
of the hemisphere , and in
the anterior part of the
paracentral lobule on
the medial surface.

It corresponds to area 4
of Brodmann (and
possibly to the part of
area 6 which lies in the
precentral gyrus,

Specific regions within the
area are responsible for
movements in specific
parts of the body.
 Stimulation of the
MOTOR AREA paracentral
lobule produces
movement in the
lower limbs.

The trunk and
upper limb are
represented in the
upper part of the
precentral gyrus,

while the face and
head are
represented in the
lower part of the
gyrus.
MOTOR HOMONCULUS
 The premotor area is located just
anterior to the motor area.
PREMOTOR AREA
 It occupies the posterior parts of
the superior, middle and
inferior frontal gyri

The part of the premotor area
located in the superior and
middle frontal gyri corresponds
to areas 6 and 8 of Brodmann

The part in the inferior frontal
gyrus corresponds to areas 44
and 45 and constitutes the
motor speech area (of Broca)

Stimulation of the premotor area
results in movements, but these
are somewhat more intricate
than those produced by
stimulation of the motor area.
 Closely related to the
premotor area there are
two specific areas of
importance. One is the
motor speech area of
Broca, mentioned above;
and the other is the
frontal eye field

 The motor speech area of
Broca lies in the inferior
frontal gyrus (areas 44 &
45).

 Injury to this region results
in inability to speak
(aphasia) even though
the muscles concerned
are not paralysed. These
effects occur only if
SENSORY AREA The sensory area of classical
description is located in the
postcentral gyrus

It corresponds to areas 1, 2,
and 3 of Brodmann.

It also extends onto the medial
surface of the hemisphere
where it lies in the posterior
part of the paracentral
lobule

Responses can be recorded from
the sensory area when
individual parts of the body are
stimulated.

A definite representation of
various parts of the body can be
mapped out in the sensory area.
 The areas concerned with
VISUAL AREAS vision are located in the
occipital lobe, mainly on the
medial surface, both above
and below the calcarine
sulcus (area 17). Area 17
extends into the cuneus,
and into the lingual
gyrus.

Area 17 is continuous, both
above and below, with area
18 and beyond this with
area 19.

Areas 18 and 19 are
responsible mainly for
interpretation of visual
impulses reaching area 17:
they are often described as
psychovisual areas.
AUDITORY AREA The acoustic area, or the
(ACOUSTIC) area for hearing, is situated
in the temporal lobe. It lies
in that part of the superior
temporal gyrus which
forms the inferior wall of the
posterior ramus of the
lateral sulcus

The acoustic area lies in the
anterior transverse
temporal gyrus (area 41)
and extends to a small
extent onto the surface of
the hemisphere in the
superior temporal gyrus
(See areas 41, 42 ).
 APPLIED ANATOMY
Lesions of area 4 of Brodmann will cause
loss of function of voluntary muscles
(paralysis) of opposite half of body. It is
grossly manifested by paralysis of
contralateral upper and lower limbs. It is
called hemiplegia.

Motor dysfunction caused by lesion of
premotor area is called apraxia which is
characterized by impairment of skillful
movements of voluntary muscles, even if
primary motor area is normally functioning.
 APPLIED ANATOMY
(STROKE)
A cerebrovascular accident (also
known as a stroke) is defined
clinically as “an abrupt loss of focal
brain function lasting more than 24
hours due to either spontaneous
haemorrhage into brain substance or
inadequate blood supply to part of
the brain i.e. ischaemia (thrombosis,
embolism)“.
 APPLIED ANATOMY
Damage to the cerebrum in this matter can give
rise to a range of clinical signs. The exact nature
of the functional deficit that arises depends on
the specific lobe that has been affected:
Frontal lobe – a diverse range of presentations,
often personality and behavioural changes occur
and an inability to solve problems develops.
Parietal lobe – typically presents with attention
deficits e.g. contralateral hemispatial neglect
syndrome: where the patient does not pay
attention to the side of the body opposite to the
lesion.
 APPLIED ANATOMY
Temporal lobe – presents with recognition
deficits (agnosias) e.g. auditory agnosia:
patient cannot recognise basic sounds,
prosopagnosia: failure to recognise faces.
Occipital lobe – visual field defects:
contralateral hemianopia or
quadrantanopia with macular sparing.
Global lesions – severe cognitive deficits
(dementia), patients cannot answer simple
questions such as their name, today’s
date, where they are etc.
 THANKS
FOR
LISTENING