Brain and Cranial Nerves (Part 1) PDF

Summary

This document is an educational resource about the brain and cranial nerves. It provides an outline, diagrams, and information on anatomical structures of the brain. It also covers various aspects, including the organization of the nervous system, protective coverings, cerebrospinal fluid, blood-brain barrier, and more.

Full Transcript

The Brain and cranial nerves
(Part 1)

Principles of Anatomy and Physiology
Chapter 14 (14.1-14.5)
Levels of structural organization
of the nervous system

1. Chemicals
2. Cells: Neuron and neuroglia (glia)
Ch. 12
3. Tissues: Nervous tissue
4. Organs: Spinal cord and brain – Ch. 13-14
5. Systems – Ch. 15-17
6. Organism
 Outline (Part 1)
1. Introduction
2. Protective coverings and blood brain barrier
3. Cerebrospinal fluid (CSF)
4. Brainstem
Medulla oblongata
Pons
Midbrain
Reticular formation
5. Cerebellum
6. Diencephalon
 Outline (Part 1)
1. Introduction
2. Protective coverings and blood brain barrier
3. Cerebrospinal fluid (CSF)
4. Brainstem
Medulla oblongata
Pons
Midbrain
Reticular formation
5. Cerebellum
6. Diencephalon
Organization of the nervous system

1. Central Nervous System (CNS)
-- Brain and Spinal cord

2. Peripheral Nervous System (PNS)
Cranial nerves
-- Emerge from the brain; 12 pairs
Spinal nerves
-- Emerge from the spinal cord; 31 pairs
Brain and cranial nerves

Figure 12.1
 Brain

The center for registering sensations, correlating
them with one another and with stored
information, making decisions, and taking an
action
Also, the center for intellect, emotions, behavior,
and memory
 Principal parts of the brain
Medulla oblongata*
Pons*
Cerebellum
Midbrain*
Diencephalon
Cerebrum

* Brain stem
Figure 14.1
 Development of the brain

Neural tube
Evolution of the vertebrate brain

(Midbrain) https://www.macmillanhighered.com/BrainHoney/Resou
rce/6716/digital_first_content/trunk/test/hillis2e/asset/im
g_ch34/c34_fig25.html
 Outline (Part 1)
1. Introduction
2. Protective coverings and blood brain barrier
3. Cerebrospinal fluid (CSF)
4. Brainstem
Medulla oblongata
Pons
Midbrain
Reticular formation
5. Cerebellum
6. Diencephalon
Protective coverings of the brain
Cranium
Cranial meninges – Connective tissue
Dura mater – two layers
Arachnoid mater
Pia mater
Cerebrospinal fluid

Figure 14.2
Cranial meninges

Figure 14.2
 Extensions of dura mater

Figure 14.2

Falx cerebri – In the longitudinal fissure; separates
the two cerebral hemispheres
Falx cerebelli – Separates the two cerebellar
hemispheres
Tentorium cerebelli – Separates the cerebrum from
the cerebellum
 Blood flow to the brain
In adult, the brain represents only 2% of total
body weight, but it utilizes about 20% of the
body’s oxygen and glucose used by the body.
Neurons synthesize ATP almost exclusively
from glucose.
Any interruption of the oxygen supply can result
in weakening, permanent damage to, or death
of brain cells.
Glucose deficiency may produce mental
confusion, dizziness, convulsions, and
unconsciousness.
 Blood brain barrier (BBB)
Protects brain cells from harmful substances and
pathogens by serving as a selective barrier to
prevent passage of many substances from the
blood into the brain
Consists of tight junctions
between endothelial cells of
brain blood capillaries, and
processes of astrocytes
Can prevent the entry of
therapeutic drugs
Injury to the brain may
cause a breakdown of the
BBB
 Outline (Part 1)
1. Introduction
2. Protective coverings and blood brain barrier
3. Cerebrospinal fluid (CSF)
4. Brainstem
Medulla oblongata
Pons
Midbrain
Reticular formation
5. Cerebellum
6. Diencephalon
 Cerebrospinal fluid (CSF)
Clear colorless liquid that carries oxygen,
glucose, and other important substances from
the blood to nervous tissue cells
Total volume -- 80 to 150 ml
Functions:
1. Mechanical protection for the brain and
spinal cord
2. Chemical protection
3. Circulation
 Choroid plexus

Figure 14.4

CSF is produced at the choroid plexus in brain
ventricles (20 ml/hr (480 ml/day))
 Brain ventricles – (1)

Figure 14.3
Lateral ventricles – Cerebral hemispheres
Third ventricle – Diencephalon
(Thalamus, hypothalamus)
Aqueduct of the midbrain – Midbrain
Fourth ventricle – Pons, Medulla oblongata, Cerebellum
Central canal – Spinal cord
 Brain ventricles – (2)

Figure 14.3

Interventricular foramen
– Between lateral ventricles and third ventricle
Lateral aperture, Median aperture
– Forth ventricle to subarachnoid space
 CSF circulation – (1)

CSF continuously circulates
through the brain ventricles and
central canal of the spinal cord
and around the brain and spinal
cord in the subarachnoid space.

Figure 14.4
CSF circulation – (2)

Figure 14.4
 Arachnoid villi

Figure 14.2
CSF is reabsorbed into the blood
through arachnoid villi
 Outline (Part 1)
1. Introduction
2. Protective coverings and blood brain barrier
3. Cerebrospinal fluid (CSF)
4. Brainstem
Medulla oblongata
Pons
Midbrain
Reticular formation
5. Cerebellum
6. Diencephalon
 Brainstem – (1)

Figure 14.1
Brainstem – (2)

Figure 14.5
 Outline (Part 1)
1. Introduction
2. Protective coverings and blood brain barrier
3. Cerebrospinal fluid (CSF)
4. Brainstem
Medulla oblongata
Pons
Midbrain
Reticular formation
5. Cerebellum
6. Diencephalon
 Medulla Oblongata

Table 14.2

Continuation of the spinal cord Figure 14.5

Contains gray matter (nuclei) and white matter
(sensory (ascending) and motor (descending) tracts)
Structures in the medulla oblongata
Gray matter:
Cardiovascular center
Medullary respiratory center
Reflex centers for vomiting, coughing,
swallowing (deglutition), sneezing, etc.
Olive – Inferior olivary nucleus
Cranial nerve nuclei (VIII-XII)
White matter:
Contains all the pathways connecting the brain
and spinal cord
Pyramids
 Pyramids

Anterior protrusions
of white matter

Figure 14.6

Corticospinal tracts – Control voluntary movement
of limb and trunk muscles (Pyramidal pathway)
Pyramidal decussation – 90% of the corticospinal
axons cross the midline. The brain controls voluntary
movement of the opposite side of the body.
The name of tracts consists of two components:
First component – Origin
Second component – Termination

e.g.,
Cortico-spinal tract
-- from the cerebral cortex to the spinal cord

Cerebello-cortical tract
-- from the cerebellum to the cerebral cortex
 Olive
Inferior olivary nucleus
Project axons to the cerebellum
– Modulate cerebellar functions

Figure 14.6
External view of medulla oblongata

Olive

Pyramids
Central medulla
oblongata

http://what-when-
how.com/neuroscience/brainstem-i-the-medulla-
organization-of-the-central-nervous-system-part-2/
 Outline (Part 1)
1. Introduction
2. Protective coverings and blood brain barrier
3. Cerebrospinal fluid (CSF)
4. Brainstem
Medulla oblongata
Pons
Midbrain
Reticular formation
5. Cerebellum
6. Diencephalon
 Pons

Table 14.2

Superior to the medulla
Figure 14.5
oblongata; anterior to the
cerebellum
Contains gray matter (nuclei) and white matter (tracts)
 Structures in the pons
Adjective – Pontine
Gray matter:
Pontine respiratory center
Pontine nuclei – Connection between cerebral
cortex and cerebellar hemispheres
Cranial nerve nuclei (V-VIII)

White matter:
Pathways connecting the brain and spinal cord
Nerve fibers from the cerebral cortex to the
cerebellum
Central pons

http://what-when-
how.com/neuroscience/brainstem-ii-pons-
and-cerebellum-part-2/
 Outline (Part 1)
1. Introduction
2. Protective coverings and blood brain barrier
3. Cerebrospinal fluid (CSF)
4. Brainstem
Medulla oblongata
Pons
Midbrain
Reticular formation
5. Cerebellum
6. Diencephalon
 Midbrain

Table 14.2

Figure 14.5
 Structures in the midbrain
Tectum

Gray matter:
Substantia nigra
Red nucleus
Cranial nerve nuclei (III-IV)

White matter:
Cerebral peduncles
Figure 14.7
 Cerebral peduncles

Figure 14.7

Nerve bundles from motor areas in the cerebral
cortex to the pons, medulla oblongata, and
spinal cord
 Tectum
Corpora quadrigemina
Superior colliculus
(pl. colliculi)
- Visual reflex center
- Involved in eye
movements for tracking
moving images and
scanning stationary
images
Inferior colliculus
- Part of auditory pathway

Figure 14.7
 Substantia nigra

Figure 14.7

Neurons contain dopamine as a neurotransmitter
Contains dark pigments
Neurodegeneration in Parkinson’s disease
 Parkinson’s disease brain

Normal

Degeneration of
Parkinson’s dopaminergic
disease neurons in
substantia nigra

Neuroscience: Exploring the Brain, Box 14.3, Figure A
Parkinsonian gait demonstration

https://www.youtube.com/watch?v=j86omOwx0Hk
Gait impairments in Parkinson’s disease

https://www.youtube.com/watch?v=pFLC9C-xH8E
 Red nucleus

Figure 14.7

Axons from the cerebellum and cerebral cortex -- Help
control muscular movements
Prefix “rubro-” and suffix “-rubral” are used to describe
associated tracts
Upper midbrain

http://what-when-
how.com/neuroscience/brainstem-iii-the-
midbrain-organization-of-the-central-nervous-
system-part-1/
 Outline (Part 1)
1. Introduction
2. Protective coverings and blood brain barrier
3. Cerebrospinal fluid (CSF)
4. Brainstem
Medulla oblongata
Pons
Midbrain
Reticular formation
5. Cerebellum
6. Diencephalon
 Reticular formation
Scattered nuclei in the superior part of the spinal
cord, brainstem, and inferior part of the
diencephalon

Reticular activating system (RAS)
Ascending part of the reticular formation
– Sensory axons to the cerebral cortex
Functions – Consciousness, arousal, attention
Damage to the RAS results in coma
Reticular Formation

Figure 14.7
 Outline (Part 1)
1. Introduction
2. Protective coverings and blood brain barrier
3. Cerebrospinal fluid (CSF)
4. Brainstem
Medulla oblongata
Pons
Midbrain
Reticular formation
5. Cerebellum
6. Diencephalon
 Cerebellum

Table 14.2

Figure 14.5
 Cerebellar functions

Coordination of movements – Correct voluntary
muscle contraction based on sensory data from
body about actual movement

Posture and balance (Equilibrium)
Video: Cerebellar examination

https://www.youtube.com/watch?v=4Ii_lFmd7hw
 External structures of the
cerebellum

Vermis
Cerebellar hemispheres
Anterior lobe
Posterior lobe
Figure 14.8
Flocculo-nodular lobe
Folia (sg. Folium) – narrow, leaf-like folds
Cerebellar gray matter and white matter
Cerebellar cortex – gray matter
Arbor vitae – white matter

Figure 14.8
 Cerebellar peduncles
Three sets of paired axon bundles that connect
the cerebellum to the brainstem
1. Superior cerebellar peduncles
2. Middle cerebellar peduncles
3. Inferior cerebellar peduncles

Figure 14.8
 Outline (Part 1)
1. Introduction
2. Protective coverings and blood brain barrier
3. Cerebrospinal fluid (CSF)
4. Brainstem
Medulla oblongata
Pons
Midbrain
Reticular formation
5. Cerebellum
6. Diencephalon
 Diencephalon

Thalamus
Epithalamus
Hypothalamus

Table 14.2
 Structures in the diencephalon – (1)

CEREBRUM

DIENCEPHALON:
Thalamus
Hypothalamus

Pineal gland
(Part of Epithalamus)

BRAIN STEM:
Midbrain

CEREBELLUM
Pons
Spinal cord
Medulla oblongata
(a) Midsagittal section, medial view
Structures in the diencephalon – (2)
Longitudinal
fissure Cerebral cortex
(gray matter)

Lateral ventricles

Thalamus

Third
ventricle

Hypothalamus Optic tract

(c) Frontal section
 Thalamus

Paired oval masses of gray mater with
interspersed white matter

The major relay station for most sensory
information that reach the primary sensory
cortex of the cerebrum
 Thalamic nuclei
Figure 14.9

Lateral geniculate nucleus – Visual impulses
Medial geniculate nucleus – Auditory impulses
Ventral posterior nucleus – Somatic sensations (touch,
pressure, vibration, itch, tickle, temperature, pain,
proprioception)
 Hypothalamus
Production of hormones
-- Link between the nervous and endocrine systems
Control of the autonomic nervous system
Regulation of emotional and behavioral patterns
Regulation of eating and drinking
Control of body temperature
Control of circadian rhythms

Figure 14.10
 Epithalamus
Interthalamic adhesion
Thalamus

Hypothalamus
Pineal gland

Mammillary body Optic chiasm

Infundibulum
Pituitary gland
(b) Sagittal section, magnified

Pineal gland
Secretes melatonin -- Endocrine organ
Melatonin regulates the circadian rhythms
 Pineal gland

Secretes melatonin in a rhythmic pattern (low
during the day and high at night)
--- Endocrine system
Melatonin helps regulate circadian rhythms
The Brain and cranial nerves
(Part 2)

Principles of Anatomy and Physiology
Chapter 14 (14.6-14.18)
 Outline (Part 2)
7. Cerebrum
Cerebral cortex
Cerebral white matter
Corpus striatum
Limbic system
8. Cranial nerves
 Outline (Part 2)
7. Cerebrum
Cerebral cortex
Cerebral white matter
Corpus striatum
Limbic system
8. Cranial nerves
Cerebrum
Direction terms for the cerebrum
Dorsal Rostral (Anterior)

Rostral Caudal

Lateral

Medial

Lateral
(Anterior) (Posterior)

Ventral
Caudal (Posterior)

Lateral view (Left hemisphere) Dorsal view
Cross sections through the brain

Sections

Dorsal (Superior)

Coronal (frontal) Sagittal
(anterior)

(Posterior)
(Anterior)

posterior
section Rostral
Rostral section

Caudal
Horizontal
section Ventral (Inferior)
 The longitudinal axis of the
central nervous system
Dorsal
(Superior)
Dorsal
Rostral Caudal
(Anterior) (Posterior)
Rostral Caudal
(Anterior) (Posterior)
Rostral
Ventral

Ventral
(Inferior)

Ventral Dorsal
Dorsal (Anterior) (Posterior)
Rostral Caudal
(Anterior) (Posterior)
Ventral Caudal

From Principles of Neural Science (5th Ed.)
 Cerebrum

“Seat of intelligence”
Cerebral cortex
Corpus striatum
Cerebral white matter
 Outline (Part 2)
7. Cerebrum
Cerebral cortex
Cerebral white matter
Corpus striatum
Limbic system
8. Cranial nerves
 Cerebral cortex
A thin gray matter that forms the outer rim of
the cerebrum
Contains billions of neurons that are arranged
in layers
Gyri (sg. Gyrus; “ridges”) and Sulci (sg.
Sulcus)/Fissures (grooves)

Figure 14.11
 Longitudinal fissure
Longitudinal fissure
separates the right and
left hemispheres

Figure 14.11
 Lobes of the cerebral cortex
Each hemisphere is divided into lobes by sulci/
fissures:
Frontal lobe Insula
Parietal lobe
Temporal lobe
Occipital lobe

Figure 14.11
Major sulci/fissures separate lobes

Figure 14.11
Functional areas of the cerebral
cortex
Motor areas – Execution of voluntary movement
Primary motor cortex
Broca’s area
Sensory areas – Perception of sensory information
Primary somatosensory cortex
Primary auditory cortex
Primary gustatory cortex
Primary olfactory cortex
Primary visual cortex
Association areas – Integrative functions
Wernicke’s area
Somatosensory, visual & auditory association
areas
Primary somatosensory and
primary motor cortices

Figure 14.15
Major sensory areas – (1)

Figure 14.15
Major sensory areas – (2)

Figure 14.15
 Primary motor area
Primary motor cortex
Central sulcus
(in the precentral gyrus)

ANTERIOR Left lateral view POSTERIOR
 Cortical areas for speech and
language
Broca’s area Wernicke’s area
(Language production) (Language comprehension)

In most people, those areas are localized in the left
hemisphere.
Video: Broca’s aphasia

https://www.youtube.com/watch?v=JWC-cVQmEmY
Video: Wernicke’s aphasia

https://www.youtube.com/watch?v=3oef68YabD0
 Major functional areas of the
cerebral cortex (Summary)
Motor Somatosensory

Taste

Language
comprehension

Visual

Language
production
Auditory
 Outline (Part 2)
7. Cerebrum
Cerebral cortex
Cerebral white matter
Corpus striatum
Limbic system
8. Cranial nerves
Types of tracts in the Cerebral white
matter – (1)
Association tracts
– Transmit nerve impulses between cerebral
gyri in the same hemisphere
Commissural tracts
– Transmit nerve impulses between the
hemispheres
Projection tracts
– Transmit nerve impulses between the
cortex and lower parts of the CNS
Types of tracts in the Cerebral white
matter – (2)

Figure 14.12
Types of tracts in the Cerebral white
matter – (3)
Commissural fibers
(Corpus callosum) Association fibers

Projection fibers Lateral ventricles

Third ventricle

Cerebellum

(a) Frontal section
Major tracts in the cerebrum

Figure 14.13

Corpus callosum – commissural fibers
Internal capsule – projecting fibers
 Outline (Part 2)
7. Cerebrum
Cerebral cortex
Cerebral white matter
Corpus striatum
Limbic system
8. Cranial nerves
 Corpus striatum
Nuclei deep within cerebral hemispheres
(1) Lentiform nucleus
(a) Globus pallidus
(b) Putamen
(2) Caudate nucleus

Functions – “Extrapyramidal motor system”
- Facilitate behavior and movements that are
required and appropriate and to inhibit
unwanted or inappropriate movements.
- Help regulate initiation and termination of
movements
- Regulates muscle tone
Anatomy of corpus striatum – (1)

Figure 14.13
Anatomy of corpus striatum – (2)

Figure 14.13
 Outline (Part 2)
7. Cerebrum
Cerebral cortex
Cerebral white matter
Corpus striatum
Limbic system
8. Cranial nerves
 Limbic system – “Emotional brain”
In the cerebral hemispheres and diencephalon

Figure 14.14

Emotions --- pain, pleasure, docility, affection, fear,
anger
Olfaction (smell)
Memory
 Outline (Part 2)
7. Cerebrum
Cerebral cortex
Cerebral white matter
Corpus striatum
Limbic system
8. Cranial nerves
 Cranial nerves – (1)
Anterior I. Olfactory nerve
Olfactory bulb
II. Optic nerve
III. Oculomotor nerve
IV. Trochlear nerve
V. Trigeminal nerve
VI. Abducens nerve
VII. Facial nerve
VIII. Vestibulocochlear nerve
IX. Glossopharyngeal nerve
X. Vagus nerve
XI. Accessory nerve
Posterior (b) Inferior aspect of brain XII. Hypoglossal nerve
 Cranial nerves – (2)
ANTERIOR I. Olfactory nerve
Olfactory bulb
Olfactory tract
View

III. Oculomotor nerve
II. Optic nerve
V. Trigeminal nerve
IV. Trochlear nerve
VII. Facial nerve
VI. Abducens nerve

VIII.
Vestibulocochlear IX.
nerve Glossopharyngeal
nerve
X. Vagus nerve

XI. Accessory nerve XII. Hypoglossal nerve
POSTERIOR
(a) Cranial nerves of human brain
 Olfactory (I) nerve

Sensory nerve
-- Olfaction
(Sense of smell)
Figure 14.17
Olfactory nerve
Olfactory bulb
Olfactory tract
 Optic (II) nerve
Optic nerve
Optic chiasm
Optic tract

Figure 14.18

Sensory nerve -- Vision
 Control of eye movement
Cranial nerves Muscles
Oculomotor (III) Superior rectus
Trochlear (IV) Inferior rectus
Medial rectus
Abducens (VI)
Lateral rectus
III Superior oblique
IV
VI Inferior oblique
III

III
III https://www.reddit.com/r/spongebob/comments/bl7syz/ti
l_eyeballs_actually_do_have_muscles/
Oculomotor (III), Trochlear (IV), and
Abducens (VI) nerves
Motor nerves that
control the muscles
that move the
eyeballs

Figure 14.19
Trigeminal (V) nerve
Mixed nerve
Three branches
1. Ophthalmic nerve
2. Maxillary nerve
3. Mandibular nerve
Somatosensory
(touch, pain, thermal)
information from the
face
Figure 14.20
 Facial (VII) nerve

Figure 14.21

Mixed nerve
Gustatory (taste) senses from the anterior 2/3 of the
tongue
 Bell’s palsy
Also known as acute peripheral facial palsy of
unknown cause
Sudden weakness in the muscles on one side
of the face.
Thought to be caused
by swelling and
inflammation of the
facial (VII) nerve
Symptoms usually
start to improve within
a few weeks, with
complete recovery in c.
6 months.
Vestibulocochlear (VIII) nerve

Figure 14.21

Sensory nerve
Two branches
1. Vestibular branch – Equilibrium (balance)
2. Cochlear branch – Hearing
 Glossopharyngeal (IX) nerve

Figure 14.23

Mixed nerve
Gustatory senses from the posterior 1/3 of the
tongue
Proprioception from swallowing muscles
 Vagus (X) nerve
Mixed nerve
The longest cranial nerve
Wide distribution
Main component of the
parasympathetic
nervous system

Figure 14.24
 Accessory (XI) nerve

Figure 14.25

Figure 14.25

Motor nerve
Movement of head and pectoral
girdle (sternocleidomastoid and
trapezius muscles)
 Hypoglossal (XII) nerve

Figure 14.26

Motor nerve
Controls tongue muscles
Speech, manipulation of food, and
swallowing
Summary of cranial nerves – (1)
Summary of cranial nerves – (2)
 Mnemonic

Cranial nerve names
Oh Once One Takes The Anatomy Final,
Very Good Vacations Are Heavenly.
On Occasion Our Trusty Truck Acts Funny,
Very Good Vehicle Any How
On Old Olympus' Towering Top, A Finely
Vested German Viewed A Hawk
 Mnemonic
Cranial nerve functional types
Some Say Marry Money, But My
Brother Says Big Brains Matter
More

S: sensory
M: motor
B: both