Brain Internal Structure PDF

Summary

This document provides an overview of the internal structure of the brain, including the different types of fibers and their function. It explains the location and role of key brain regions, and covers various aspects of brain anatomy.

Full Transcript

Brain (Internal structure)
 The cross section of
the brain shows the
internal features of it
It consists gray and
white mater
Gray mater is cell
bodies while the white
mater is mylenated
fibers
Gray mater is found in
the cortex of the brain
(mainly) and some of
collection of cell
bodies below the
cortex is called nuclei
or ganglia
 This gray mater
includes
Cuadate
nucleus
Lentiform
nucleus
Thalamus
Between these
run white fiber
is called
internal capsule
Cerebrum
White
Matter
(Medulla)
 White Matter
Underlies the cortex
Contains:
Nerve fibers
(predominantly
myelinated)
Neuroglia
Blood vessels
The nerve fibers
originate, terminate
or sometimes both,
within the cortex
White matter
White matter = myelinated axons that
form bundles of fibers between
different nuclear masses
 Depending on their origin & termination, these nerve
fibers are classified into three types:

A. Association

B. Projection

C. Commissural
 Association Fibers
Unite different parts of
the same hemisphere
Are of two kinds:
Short association
fibers:
those connecting
adjacent gyri,
Long association
fibers:
those connecting
more distant gyri
 Short Association Fibers
Lie immediately
beneath the gray
substance of the
cortex
Connect
together the
adjacent gyri.
 Legend: Short Association Fibers

Pia gyrus

Cerebral cortex
sulcus
(grey matter)

Short arcuate /
U-shaped fibers

White matter

Coronal section of cerebral cortex
 Long Association Fibers
Long fibers travel
through white matter
to connect distant
areas of cerebral
cortex
Link the primary
sensory areas in
parietal, temporal
and occipital lobes to
the association areas
of the cerebral
cortex, and to each
other
 Legend: Long aAssociation Fibers
Approximate location of
Corona radiata posterior commissure

Superior
longitudinal
fasciculus
Corpus callosum
Internal capsule *
Anterior
commissure
Uncinate
fasciculus Optic radiations

Arcuate Fasciculus = white matter
fasciculus Meyer’s loop
+ external and extreme capsules Mid-sagittal section through one hemisphere
Superior
longitudinal
fasciculus:
connects the
frontal, parietal,
temporal and
occipital lobes

Uncinate
fasciculus: Broca’s Arcuate

connects frontal Area Fasciculus Arcuate fasciculus:
to temporal lobe, connect gyri in
contributing to the frontal to temporal
regulation of lobes, important for
behavior Wernicke’s Area
language function
Cingulum: connects
frontal & parietal
lobes to the para-
hippocampal gyrus
and adjacent
temporal gyri

Inferior longitudinal
fasciculus: connects
occipital to temporal
pole & contributes to
visual recognition
Brocas and Wenickes
areas
The speech centers
in our brains are
Broca's area and
Wernicke's area.
Broca's area in the
left frontal cortex
controls language
production
Wernicke's in the
posterior temporal
lobe analyzes the
words you see and
hear and also places
those words in the
correct order before
you speak.
How language centres
work: an example
Imagine that someone asks, "How are
you?" Once that message travels through
the ear, the electrical impulse from the
vibration enters the primary auditory
cortex, which figures out that the source is
a human voice.
Then, the information moves to Wernicke's
area for interpretation, followed by Broca's
area where you select the words for a
response.
That message then goes to the primary
motor cortex that signals your larynx and
mouth to vocalize, "I'm fine, thanks"
 Commissural Fibers
Corpus Callosum
Connect the corresponding
regions of the two
hemispheres
Include: F
Corpus callosum
Anterior commissure
P
Hippocampal
commissure
(commissure of fornix)
*(Posterior commissure,
not a cerebral
commissure)
Commissural Fibers
 Corpus Callosum
Is a fibrous bridge located
in the depth of the median
longitudinal fissure
Connects the two cerebral
hemispheres together
Shorter craniocaudally than
is the hemisphere
Cranial end is nearer to the
frontal pole of hemisphere
as compared to caudal end
to the occipital pole
 The fibers in the
corpus callosum
connect the
corresponding
regions of the two C

hemispheres with C

each other (except
the inferior part of
the temporal
lobes)
 Fibers linking the
two frontal poles
Anterior
with each other, forceps
curve forward & F
form u-shaped
anterior forceps
(forceps minor) C

P C

Fibers linking the
two occipital poles
with each other, Posterior
curve backward & forceps
O
form u-shaped
posterior forceps
(forceps major)
 Parts of Corpus Callosum

Genu Body

Splenium
Rostrum
Anterior commissure
Anterior commissure:
crosses midline rostral
to the columns of the
fornix
has a «bicycle
handlebars» shape
connects the olfactory
bulbs in each
hemisphere
interconnects frontal
lobes as well as
parietal lobes in each
hemisphere
Anterior Commissure
fornix
Bundle of fibers
IVF
runs transversely in
front of the anterior Anterior
columns of fornix column
of fornix
Connects the
inferior and middle
temporal gyri & the
olfactory regions of
the two
hemispheres
 Hippocampal Commissure
Bundle of fibers
runs transversely
between the crura
of the fornix
Connect the two
hippocampi with
each other
(note that hippocampo-
mamillary fibers do not
cross)
Hippocampal Commissure
Posterior commissure
Posterior
commissure:
crosses midline
within the caudal
part of the 3rd
ventricle
Connects midbrain
visual relay nuclei
from both sides
(Edinger-Westphal
nuclei)
 Posterior Commissure
Rounded band of white
fibers
Crossing the midline on
the dorsal aspect of
the upper end of the
cerebral aqueduct
(located between superior
P
colliculus & pineal body)
SC
Connects the left and
IC
right midbrain. Plays
Cerebral
important role in the aqueduct

bilateral pupillary reflex
 Projection Fibers
Fibers running vertically through
the hemispheres
Consist of:
Cortical afferent fibers
conveying impulses to the
cerebral cortex: (mainly
thalamo-cortical fibers)

Cortical efferent fibers carrying
impulses away from the cortex
to the lower centers:
(corticostriate, corticobulbar,
corticopontine, corticospinal, &
descending autonomic fibers)
 Deeper to the cortex, these
fibers are arranged radially as
the corona radiata corona
Then the fibers converge to radiata

form a sheath, called the
internal capsule, that passes
between the thalamus and the
basal ganglia
Continue in the:
Crus of the midbrain
Basilar part of pons
Pyramid of medulla
oblongata
Continue in the spinal cord as
the corticospinal tracts
Commissural fibers of Projection fibers of
the corpus callosum the internal
capsule
Internal Capsule BG

Bundle of
projection fibers,
passes through
the interval Th
between the
thalamus and the
basal ganglia
Projection Tracts
Has 5 parts:
1. Anterior limb: between caudate
(C) & lentiform (L) nuclei
C
2. Genu 1
2 L
3. Posterior limb: between 3
thalamus (TH) & lentiform nucleus Th
(L ) 4

4. Retrolenticular part: caudal to
lentiform nucleus
5. Sublenticular part: below
lentiform nucleus (can not be seen
in this section)
 Anterior limb contains:
Thalamocortical
projections that connect
mediodorsal nucleus of
thalamus with the
prefrontal cortex
Frontopontine fibers
Genu contains:
Corticobulbar fibers
which connect the cortex
with cranial nerve motor
nuclei in the brainstem
 Posterior limb
contains:
Corticospinal
Corticobulbar
Thalamocortical
projections from:
VPN to the primary
somatosensory
cortex
VAN & VLN to
motor regions of
cortex
 Retrolenticular part
contains thalamocortical
projections:
Geniculocalcarine fibers
(visual radiation), from the
lateral geniculate nucleus of
thalamus to the visual
cortex in the occipital lobe
& few Geniculotemporal
fibers (auditory radiation)
from the medial geniculate
nucleus of thalamus to the
auditory cortex in the
temporal lobe
 Sublenticular part
contains thalamocortical
projections: geniculo-
temporal fibers (auditory
radiation) from the
medial geniculate
nucleus of thalamus to
the auditory cortex in
the temporal lobe
 Internal capsule

Anterior limb Frontopontine fibers

Genu Corticobulbar fibers

Posterior limb Corticospinal
Corticobulbar
Thalamocortical projections

Retrolenticular part visual radiation
auditory radiation

Sublenticular part auditory radiation
Commissural fibers of Projection fibers of
the corpus callosum the internal
capsule
 QUIZ

The types of fibers in the corpus
collosum is?
Commissural fubers
Long association
Short association
Projection
 QUIZ

The fibers which connect
different gyri in same
hemisphere
Commissural fubers
Long association
Short association
Projection
 QUIZ

The fibers that connect the
cortex with subcortical areas is
called
Commissural fubers
Long association
Short association
Projection
 QUIZ

What is type of fibers in the
internal capsule
Commissural fubers
Long association
Short association
Projection
 Which part of the internal
capsule contains cortico-spinal
fibers
a) Anterior limb
b) Genu
c) Posterior limb
d) Retrolenticular part
e) Sublenticular part
 The hippocampal commissure
connect
Two cerebral hemisphere
Corpus collosum in both
hemisphere
Fornix in both hemisphere
None of the above
 Clinical Notes
Bilateral lesion of the inferior longitudinal fasciculus (as in
carbon monoxide poisoning), leads to:
Loss of identification of the:
Nature of objects (object agnosia)
Individual faces (prosopagnosia)
The elementary vision remains intact
Damage to corpus callosum leads to split-brain syndrome.
The two half of the brain behave relatively
autonomously
Damage to splenium of corpus callosum leads to posterior
disconnection syndrome of alexia (cannot understand
written material) without agraphia (can speak and write
without difficulty)
Thank You & Good Luck