Internal Anatomy of the Brain PDF

Summary

This document gives a comprehensive overview of the internal anatomy of the brain, including detailed information about the brainstem, thalamus/hypothalamus, cerebellum, limbic system, and ventricles. It covers topics such as gray and white matter, major regions, and their functions. It is useful for students or researchers in biology or neuroscience who are studying brain structure and function.

Full Transcript

Internal anatomy of
the brain

PTY213
Lecture Outline
 General arrangement
 Gray matter
 White matter
 Internal features of specific regions
 A. The Brainstem
1. Medulla
2. Pons
3. Reticular Formation
 B. Thalamus/ Hypothalamus
 From external: the cortex to
deep inside
 The cortex contains
neurons (grey matter),
 They are interconnected
to other brain areas by
axons (white matter).
 The cortex has a folded
appearance.
 A fold is called a gyrus
and the valley between
is a sulcus.
Deep structures of the brain 4

White matter tracts
connect areas of the
cortex to each other.

Messages can travel
from one gyrus to
another, from one
lobe to another, from
one side of the brain
to the other, and to
structures deep in the
brain
 Mid-Sagittal view 5

A midsagittal section of the brain. All four cerebral lobes are visible, as in the cingulate gyrus,
which extends through the medial aspects of the frontal and parietal lobes.
The corpus callosum sits beneath the cingulate gyrus. Below the cerebrum lies the midbrain,
pons, medulla, and cerebellum. ‘Internal Brain Regions’ by Casey Henley is licensed under a
Creative Commons Attribution Non-Commercial Share-Alike (CC BY-NC-SA) 4.0 International
Licen
 Mid sagittal view 6
- The diencephalon region of the brain
consists of the region around the
thalamus and hypothalamus
- The fornix is a nerve fiber bundle allows
information to cross from one
hemisphere to the other
- The mamillary bodies sit in the posterior
part of the hypothalamus and are
important for memory.
- The optic nerves from the retina cross at
the optic chiasm are important for vision
and hearing.

- the reticular formation is located
throughout the brainstem. Networks
within the reticular formation are
important for regulating sleep and
consciousness, pain, and motor control.
Coronal Section View 7

Coronal sections of the brain allow deep tissue
structures to be visible.
- The amygdala, a region important for
emotion, located in the medial temporal lobe

- The regions of the basal ganglia are also
visible: the striatum (which consists of the
caudate and the putamen) and the globus
pallidus.

- The lateral ventricle sits medial to the basal
ganglia and below the corpus callosum.

- The third ventricle is located in the middle of
the brain, inferior to the lateral ventricle.
Coronal Section View 8

A coronal section taken closer to the central sulcus will make
the hippocampus visible.
The hippocampus is known for its role in memory and spatial
awareness.
 Corpus collosum 9

 The Corpus Callosum is a wide band of maxon fibers that
connect the two hemispheres and allow them to communicate

Corpus collosum

Splitting the brain = procedure in which the two hemispheres of the brain are isolated by cutting the
connecting fibers (mainly those of the corpus callosum) between them. Usually done to prevent
uncontrollable seizures in patients with severe epilepsy
Thalamus

“A mass of Grey matter” , large number of Thalamic
Nuclei. A gateway between cortical grey matter
and other parts of the brain

A relay station, allowing
fine tuning and modulation
of inputs and outputs
Thalamus 11

 Thalamus: serves as a relay station for almost all
information that comes and goes to the cortex.
 It plays a role in pain sensation, attention,
alertness and memory.
Thalamus

 Receives Sensory inputs
 Sensory gating
 Inputs from Cerebellum, Basal ganglia
 Motor coordination
 Inputs from Hypothalamus and Mammillary bodies
The hypothalamus 13

1. The Hypothalamus lies below (hypo) the
thalamus
2. Hypothalamus: is the master control of
the autonomic system.
3. It plays a role in controlling behaviors
such as hunger, thirst, sleep, and sexual
response. It also regulates body
temperature, blood pressure, emotions,
and secretion of hormones.

4. It helps control the endocrine system by
giving directions to the pituitary gland.
Hypothalamus

The hypothalamus lies
beneath the thalamus.
The Brainstem 15

 The Medulla is the base of the
brainstem that controls heartbeat and
breathing.

 Pons helps with movement and facial
expression.

 Reticular Formation is a nerve network
in the brainstem that plays an
important role in controlling arousal.
 IT is responsible for automatic survival
functions.
Brainstem

 Brainstem nuclei
 Including Cranial Nerves
 Transmitted tracts
 Descending (motor) – CORTICOSPINAL
 Ascending (sensory) – MEDIAL LEMNISCUS,
SPINOTHALAMIC
Brainstem

 Three groups of brainstem nuclei
 Cranial nerves (III to XII)
 Other macroscopically discrete collections of
neurons eg. Red nucleus, Olives
 Reticular formation, diffuse, some of its cells form
“vital centres”
Pituitary gland 18

 Pituitary gland: lies in a small pocket of
bone at the skull base called the sella
turcica.
 The pituitary gland is connected to the
hypothalamus of the brain by the
pituitary stalk. Known as the “master
gland,”
 it controls other endocrine glands in the
body.
Pituitary gland
 It secretes hormones that control sexual
development, promote bone and
muscle growth, and respond to stress.
 Hippocampus 19

The Hippocampus processes memories.
 Basal ganglia 20

 Basal ganglia: includes the caudate, putamen and globus
pallidus.
 These nuclei work with the cerebellum to coordinate fine motions,
such as fingertip movements.

Basal ganglia
Amygdala 21

 The Amygdala consists
of two almond-shaped
neural clusters linked to
the emotions of fear
and anger.
Limbic system

 Collection of several structures
located in the inner brain
beneath the cortex
 The limbic system acts as the link
between higher cognitive
functions, such as reasoning, and
more primitive emotional
responses, such as fear.
 Main components
 Hippocampus, fornix
 Mammillary bodies
 Parahippocampal, cingulate
gyri
 Lecture Outline
 Internal features of specific regions
 A. The Brainstem
1. Medulla
2. Pons
3. Reticular Formation
 B. Thalamus/ Hypothalamus
 C. Cerebellum
 D. The Limbic System
 E. CSF and ventricles
 F. Meninges
Cerebrum
“Expanded part of forebrain”

CORTEX of gray matter enclosing tracts of nerve fibres

Two hemispheres connected by a “bridge”, CORPUS CALLOSUM

Cavity within each hemisphere the LATERAL VENTRICLE

Adjacent to the ventricles are some deep gray matter, BASAL
GANGLIA
 Cerebellum
 “Little Brain”
 Two hemispheres joined by VERMIS
(worm) in the midline
 Three PEDUNCLES connect it to
brainstem
 ANTERIOR LOBE and POSTERIOR LOBE
separated by PRIMARY FISSURE

▪ Helps coordinate voluntary
movements and balance.

▪ It also plays a part in memory,
emotion regulation, timing, emotional
modulation and sensory
discrimination

Brain stem
Cerebellar S
Peduncles M
I
 Anterior Lobe

Posterior Lobe

Flocculonodular Lobe
28
GREY MATTER WHITE MATTER

Association
Cortex
fibres

Projection
Basal ganglia
fibres

(Diencephalon Commissural
Nuclei) fibres

(Brainstem
nuclei)
Corpus Callosum
joins two sides of
the brain
Association fibres
join different parts
of the hemisphere
Internal Capsule
joins the cortex to
brainstem and
spinal cord
Internal capsule
Afferent – Sensory to parietal
Projection lobe
fibres Efferent – Motor from frontal lobe

Anterior limb
Consists of Genu (“knee”)
Posterior limb

Relation to
“a hand holding a bunch of
caudate flowers”
nucleus
Caudate N (Basal ganglia)

Genu (Internal Capsule )

Lentiform N (Basal ganglia)

Thalamus (Diencephalon)
Head of Caudate
Putamen
Globus Pallidus
 Diencephalon
 The
“unexpanded”
part of forebrain,
the cavity is the
THIRD VENTRICLE
 The THALAMUS
forms the lateral
wall
 The roof is formed
by the floor of
Lateral ventricles
 The floor is
HYPOTHALAMUS
Corpus Callosum CN

P

GP

HT

MB
HC
Hippocampus

Fornix
Midbrain
 Cavity is the Aqueduct
 Nuclei of CN III and IV
 Superiorand inferior Colliculi
Light and sound reflexes
 Substantial
Nigra
Functionally part of basal ganglia
 R = Red nucleus
Sn = Substantia Nigra
C = Corticospinal tract

CN III, IV

R R

Sn C
 Pons
 Cavity is the FOURTH VENTRICLE
 Reticular formation – Vital centres
 Cranial nerve nuclei
CN V
CN VI
CN VII
CN VIII
 M = Middle Cerebellar Peduncle
Cs = Corticospinal Tract

IV

CN V, VI, VIII, VIII

M M

Cs Cs
Medulla oblongata

 Cavity is the continuation of Fourth Ventricle
into Spinal Canal
 Contains the PYRAMIDS (Corticospinal tract)
 More laterally are the OLIVES
 CN IX, X, XI and XII exit

CN IX, X, XI, XII
Cs = Corticospinal Tract
O = Olivary Nucleus O
Cs Cs
 Meninges 44
 The meninges are the three membranes that envelop the brain
and spinal cord and separate them from the walls of their bony
cases (skull and vertebral column)
 three meningeal layers. From superficial to deep the meninges are
the:

▪ Dura mater
▪ Arachnoid mater
▪ Pia mater

The function of the meninges is to protect the brain and spinal cord from
mechanical trauma, to support the blood vessels and to form a continuous
cavity through which the cerebrospinal fluid (CSF) passes.
Ventricles and CSF 45
▪ The brain has hollow fluid-filled cavities
called ventricles.
▪ Inside the ventricles is a ribbon-like
structure called the choroid plexus that
makes clear colorless cerebrospinal fluid
(CSF).
▪ CSF flows within and around the brain
and spinal cord to help cushion it from
injury. This circulating fluid is constantly
being absorbed and replenished.

CSF is produced inside the ventricles
deep within the brain. CSF fluid circulates
inside the brain and spinal cord and then
outside to the subarachnoid space.
Common sites of obstruction: 1) foramen
of Monro, 2) aqueduct of Sylvius, and 3)
obex.