Brain and Cranial Nerves Lecture Notes PDF

Summary

These lecture notes cover the brain and cranial nerves, including different parts of the brain and their functions. Included are diagrams and descriptions of structures, such as the brainstem, cerebellum, cerebrum, and the reticular formation.

Full Transcript

Chapter 14
 Overview of the brain – Read (section 14.1)
 Meninges and ventricles – Read (section 14.2)
 Hindbrain and midbrain – Study (section 14.3)
 The Forebrain – Study (section 14.4)
 Integrative functions – Read (section 14.5)
 Cranial nerves – Study (the list and section
14.6)
Divisions of Brain

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 Major Landmarks
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Three major portions of the Rostral Caudal
brain
– Cerebrum is 83% of brain Central sulcus
volume; cerebral hemispheres,
gyri and sulci, longitudinal Gyri Cerebrum
fissure, corpus callosum Lateral sulcus

– Cerebellum contains 50% of the Temporal lobe Cerebellum

neurons; second largest brain
region, located in posterior
cranial fossa Brainstem

– Brainstem is the portion of the
Spinal cord

(b) Lateral view
brain that remains if the
cerebrum and cerebellum are
removed; diencephalon,
midbrain, pons, and medulla
oblongata
Three Major Portions of the Brain

Cerebrum

Brainstem Cerebellum
 Major Landmarks
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Longitudinal fissure—deep Cerebral
hemispheres
groove that separates
cerebral hemispheres

Gyri—thick folds Frontal lobe

Central sulcus

Sulci—shallow grooves
Parietal lobe

Corpus callosum—thick
nerve bundle at bottom of Occipital lobe

longitudinal fissure that Longitudinal fissure

connects hemispheres (a) Superior view
Corpus Callosum
Gyri & Sulci
 Brainstem

Diencephalon Midbrain Pons Medulla oblongata
 Major Landmarks
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Central sulcus

Parietal lobe
Cingulate gyrus

Corpus callosum

Parieto–occipital sulcus
Frontal lobe
Occipital lobe
Thalamus
Anterior Habenula
Epithalamus
commissure Pineal gland
Hypothalamus
Optic chiasm Posterior commissure

Mammillary body
Cerebral aqueduct
Pituitary gland
Fourth ventricle
Temporal lobe

Midbrain Cerebellum

Pons

Medulla
oblongata

(a)
 Major Landmarks
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Cingulate gyrus

Corpus callosum Lateral ventricle

Parieto–occipital
sulcus
Choroid plexus
Pineal gland
Thalamus

Hypothalamus Occipital lobe

Midbrain Posterior
commissure
Pons Fourth ventricle

Cerebellum
Medulla
oblongata

(b)
b: © The McGraw-Hill Companies, Inc./Dennis Strete, photographer
 Medulla
Oblongata
 The Medulla Oblongata
All nerve fibers connecting the brain to the spinal cord pass
through the medulla
Four pairs of cranial nerves begin or end in medulla—IX,
X, XI, XII
Cardiac center
– Adjusts rate and force of heart
Vasomotor center
– Adjusts blood vessel diameter
Respiratory centers
– Control rate and depth of breathing
Reflex centers
– For coughing, sneezing, gagging, swallowing, vomiting,
salivation, sweating, movements of tongue and head
Pons
 The Pons
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Central sulcus

Parietal lobe
Cingulate gyrus
Corpus callosum

Parieto–occipital sulcus
Frontal lobe
Occipital lobe
Thalamus
Anterior Habenula
Epithalamus
commissure Pineal gland
Hypothalamus
Optic chiasm Posterior commissure
Mammillary body
Cerebral aqueduct
Pituitary gland
Temporal lobe Fourth ventricle

Midbrain Cerebellum

Pons

Medulla
oblongata
Figure 14.2a
(a)

Metencephalon—develops into the pons and cerebellum
Pons—anterior bulge in brainstem, rostral to medulla
Cerebral peduncles—connect cerebellum to pons and midbrain

14-16
 The Pons
Ascending sensory tracts
Descending motor tracts
Pathways in and out of cerebellum
Cranial nerves V, VI, VII, and VIII
– Sensory roles: hearing, equilibrium, taste, facial
sensations
– Motor roles: eye movement, facial expressions,
chewing, swallowing, urination, and secretion of saliva
and tears
Reticular formation in pons contains additional
nuclei concerned with sleep, respiration, posture
Midbrain
 The Midbrain
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Posterior

Superior colliculus
Tectum
Cerebral aqueduct

Medial geniculate nucleus
Reticular formation Central gray matter

Cerebral peduncle: Oculomotor nucleus
Tegmentum Medial lemniscus
Red nucleus

Substantia nigra

(a) Midbrain

Cerebral crus

(b) Pons
Oculomotor nerve (III)

Anterior
(c) Medulla
(a) Midbrain
 The Midbrain
Mesencephalon becomes one mature brain
structure, the midbrain
– Short segment of brainstem that connects the hindbrain
to the forebrain
– Contains cerebral aqueduct
– Contains continuations of the medial lemniscus and
reticular formation
– Contains the motor nuclei of two cranial nerves that
control eye movements: CN III (oculomotor) and CN IV
(trochlear)
 The Midbrain
Mesencephalon (cont.)
– Tectum: rooflike part of the midbrain posterior to
cerebral aqueduct
Exhibits four bulges, the corpora quadrigemina
Upper pair, the superior colliculi, function in visual
attention, tracking moving objects, and some reflexes
Lower pair, the inferior colliculi, receives signals from
the inner ear
– Relays them to other parts of the brain, especially the
thalamus
 The Midbrain

– Substantia nigra
Dark gray to black nucleus pigmented with melanin
Motor center that relays inhibitory signals to thalamus and
basal nuclei preventing unwanted body movement
Degeneration of neurons leads to tremors of Parkinson
disease

– Cerebral crus
Bundle of nerve fibers that connect the cerebrum to the
pons
Carries corticospinal tracts
 The Reticular Formation
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Radiations to
cerebral cortex
Thalamus
Loosely organized web of
gray matter that runs
vertically through all levels of
the brainstem
Clusters of gray matter
scattered throughout pons,
midbrain, and medulla
Occupies space between
white fiber tracts and
Auditory input
brainstem nuclei
Visual input Has connections with many
Reticular formation
Ascending general
areas of cerebrum
sensory fibers
Descending motor
– More than 100 small neural
fibers to spinal cord networks without distinct
boundaries
 The Reticular Formation
Networks
– Somatic motor control
Adjust muscle tension to maintain tone, balance, and
posture
Especially during body movements
Relays signals from eyes and ears to the cerebellum
Integrates visual, auditory, and balance and motion
stimuli into motor coordination
Gaze center—allows eyes to track and fixate on
objects
Central pattern generators—neural pools that
produce rhythmic signals to the muscles of breathing
and swallowing
 The Reticular Formation
Cont.
– Cardiovascular control
Includes cardiac and vasomotor centers of medulla
oblongata

– Pain modulation
One route by which pain signals from the lower body
reach the cerebral cortex
Origin of descending analgesic pathways—fibers act
in the spinal cord to block transmission of pain signals
to the brain
 The Reticular Formation
– Sleep and consciousness
Plays central role in states of consciousness, such as
alertness and sleep
Injury to reticular formation can result in irreversible
coma

– Habituation
Process in which the brain learns to ignore repetitive,
inconsequential stimuli while remaining sensitive to
others
Cerebellum
 The Cerebellum
Anterior Vermis

Anterior lobe

Posterior lobe

Folia
Cerebellar Posterior
hemisphere

(b) Superior view

The largest part of the hindbrain and the second largest part of the brain
as a whole
Consists of right and left cerebellar hemispheres connected by vermis
Cortex of gray matter with folds (folia) and four deep nuclei in each
hemisphere
Contains more than half of all brain neurons—about 100 billion
– Granule cells and Purkinje cells synapse on deep nuclei
White matter branching pattern is called arbor vitae
 The Cerebellum
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Superior colliculus

Inferior colliculus Pineal gland
Posterior commissure

Cerebral aqueduct

Mammillary body
Midbrain
White matter
(arbor vitae) Oculomotor nerve
Gray matter
Fourth ventricle

Pons

Medulla oblongata

(a) Median section

Monitors muscle contractions and aids in motor coordination
Evaluation of sensory input
– Comparing textures without looking at them
– Spatial perception and comprehension of different views of three-
dimensional objects belonging to the same object
Timekeeping center
– Predicting movement of objects
– Helps predict how much the eyes must move in order to compensate
for head movements and remain fixed on an object
 The Cerebellum
Cont.
Hearing
– Distinguish pitch and similar-sounding words

Planning and scheduling tasks

Lesions may result in emotional overreactions and trouble
with impulse control
 The Forebrain
Forebrain consists of two
parts
– Diencephalon Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

Encloses the third
ventricle Telencephalon
Forebrain

Most rostral part of the Diencephalon

Mesencephalon Midbrain

brainstem Pons
Metencephalon
Cerebellum
Hindbrain

Has three major Myelencephalon
(medulla oblongata)

embryonic derivatives Spinal cord

– Thalamus (c) Fully developed

– Hypothalamus
– Epithalamus
Figure 14.4c
– Telencephalon
Develops chiefly into the
cerebrum
14-31
 Thalamus

Hypothalamus
 The Diencephalon: Thalamus
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Thalamic Nuclei

Anterior group Part of limbic system;
memory and emotion

Medial group Emotional output to prefrontal
cortex; awareness of emotions

Ventral group Somesthetic output to
postcentral gyrus; signals
from cerebellum and basal
nuclei to motor areas of cortex Figure 14.12a
Lateral group Somesthetic output to
association areas of cortex;
contributes to emotional function
Lateral geniculate nucleus of limbic system

Medial geniculate nucleus Posterior group Relay of visual signals to
occipital lobe (via lateral
(a) Thalamus geniculate nucleus) and auditory
signals to temporal lobe (via
medial geniculate nucleus)

Thalamus—ovoid mass on each side of the brain perched at the
superior end of the brainstem beneath the cerebral hemispheres
– Constitutes about four-fifths of the diencephalon
– Two thalami are joined medially by a narrow intermediate mass
– Composed of at least 23 nuclei; to consider five major functional groups

14-33
 The Diencephalon: Thalamus
Cont.
– “Gateway to the cerebral cortex”: nearly all input to the
cerebrum passes by way of synapses in the thalamic
nuclei, filters information on its way to cerebral cortex

– Plays key role in motor control by relaying signals from
cerebellum to cerebrum and providing feedback loops
between the cerebral cortex and the basal nuclei

– Involved in the memory and emotional functions of the
limbic system: a complex of structures that include some
cerebral cortex of the temporal and frontal lobes and some
of the anterior thalamic nuclei
Hypothalamus
 The Diencephalon: Hypothalamus
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Hypothalamus—forms part Cingulate gyrus
Central sulcus

Parietal lobe

of the walls and floor of the Corpus callosum
Parieto–occipital sulcus
Frontal lobe
third ventricle Thalamus
Anterior
Occipital lobe
Habenula
Epithalamus
Pineal gland
commissure
Hypothalamus
Optic chiasm Posterior commissure
Mammillary body

Extends anteriorly to optic
Cerebral aqueduct
Pituitary gland
Temporal lobe Fourth ventricle

Cerebellum
chiasm and posteriorly to Midbrain
Pons

the paired mammillary (a)
Medulla
oblongata

bodies
Figure 14.2a
Each mammillary body
contains three or four
mammillary nuclei
– Relay signals from the
limbic system to the
thalamus
14-36
 The Diencephalon: Hypothalamus
Infundibulum—a stalk that attaches the pituitary gland to the
hypothalamus

Major control center of autonomic nervous system and
endocrine system
– Plays essential role in homeostatic regulation of all body systems

Functions of hypothalamic nuclei
– Hormone secretion
Controls anterior pituitary
Regulates growth, metabolism, reproduction, and stress responses
Hypothalamus, Infundibulum, & Pituitary
 The Diencephalon: Hypothalamus
Cont.
– Hormone secretion
Controls anterior pituitary
Regulates growth, metabolism, reproduction, and stress responses

– Autonomic effects
Major integrating center for autonomic nervous system
Influences heart rate, blood pressure, gastrointestinal secretions,
motility, etc.

– Thermoregulation
Hypothalamic thermostat monitors body temperature
Activates heat-loss center when temp is too high
Activates heat-promoting center when temp is too low
14-39
 The Diencephalon: Hypothalamus
Cont.
– Food and water intake
Hunger and satiety centers monitor blood glucose and amino
acid levels
– Produce sensations of hunger and satiety
Thirst center monitors osmolarity of the blood
– Rhythm of sleep and waking
Controls 24-hour (circadian) rhythm of activity
– Memory
Mammillary nuclei receive signals from hippocampus
– Emotional behavior
Anger, aggression, fear, pleasure, and contentment

14-40
 The Diencephalon: Epithalamus
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Central sulcus

Parietal lobe
Cingulate gyrus
Corpus callosum

Parieto–occipital sulcus
Frontal lobe
Occipital lobe
Thalamus
Anterior Habenula
Epithalamus
commissure Pineal gland
Hypothalamus
Optic chiasm Posterior commissure
Mammillary body
Cerebral aqueduct
Pituitary gland
Temporal lobe Fourth ventricle

Midbrain Cerebellum

Pons

Medulla

(a)
oblongata
Figure 14.2a
Epithalamus—very small mass of tissue composed of:
– Pineal gland: endocrine gland
– Habenula: relay from the limbic system to the midbrain
– Thin roof over the third ventricle
14-41
Cerebrum
 The Telencephalon: Cerebrum
Central sulcus

Parietal lobe
Cingulate gyrus
Corpus callosum

Parieto–occipital sulcus
Frontal lobe
Occipital lobe
Thalamus
Anterior Habenula
Epithalamus
commissure Pineal gland
Hypothalamus
Optic chiasm Posterior commissure
Mammillary body
Cerebral aqueduct
Pituitary gland
Temporal lobe Fourth ventricle

Midbrain Cerebellum

Pons

Medulla
oblongata
(a)

Cerebrum—largest and most conspicuous part of the human
brain
– Seat of sensory perception, memory, thought, judgment, and
voluntary motor actions
 The Cerebrum
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Cerebral
hemispheres
Rostral Caudal

Central sulcus
Frontal lobe
Gyri Cerebrum

Lateral sulcus

Central sulcus

Temporal lobe Cerebellum

Parietal lobe

Brainstem
Occipital lobe

Longitudinal fissure Spinal cord

(b) Lateral view
(a) Superior view

Two cerebral hemispheres divided by longitudinal fissure
– Connected by white fibrous tract, the corpus callosum
– Gyri and sulci: increase amount of cortex in the cranial cavity
– Gyri increases surface area for information-processing capability
– Some sulci divide each hemisphere into five lobes named for the
cranial bones overlying them
Cerebral Hemispheres &
Longitudinal Fissure
 Frontal lobe
The Cerebrum
– Voluntary motor functions
– Motivation, foresight,
planning, memory, mood,
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and aggression
Parietal lobe
Rostral Caudal

– Receives and integrates Frontal lobe Parietal lobe

general sensory information,
taste, and some visual Precentral
processing gyrus

Occipital lobe Postcentral gyrus

– Primary visual center of Central
sulcus
brain
Temporal lobe Insula Occipital lobe

– Areas for hearing, smell,
learning, memory, and Lateral sulcus

some aspects of vision and
emotion
Insula (hidden by other Temporal lobe

regions)
– Understanding spoken
language, taste and sensory
information from visceral
receptors
Cerebrum-Frontal Lobe
Cerebrum-Parietal Lobe
Cerebrum-Occipital Lobe
 The Basal Nuclei
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Cerebrum

Corpus callosum
Lateral ventricle

Thalamus
Internal capsule
Caudate nucleus
Putamen Corpus
Insula
Lentiform striatum
Third ventricle Globus pallidus nucleus
Hypothalamus Subthalamic nucleus
Optic tract
Pituitary gland

Basal nuclei—masses of cerebral gray matter buried deep
in the white matter, lateral to the thalamus
– Receives input from the substantia nigra of the midbrain and
the motor areas of the cortex
– Send signals back to both these locations
– Involved in motor control
 The Basal Nuclei
At least three brain centers form basal nuclei
– Caudate nucleus
– Putamen
– Globus pallidus
Lentiform nucleus—putamen and globus pallidus collectively

Corpus striatum—putamen and caudate nucleus collectively
 The Limbic System
Limbic system—important
center of emotion and
learning
Medial

Most anatomically prominent
prefrontal
cortex
Corpus Fornix
components are: callosum
Cingulate

– Cingulate gyrus: arches gyrus Thalamic
nuclei
Orbitofrontal Mammillary
over the top of the corpus cortex

Basal nuclei
body
Hippocampus
callosum in the frontal and Amygdala
parietal lobes Temporal lobe

– Hippocampus: in the
medial temporal lobe;
memory
– Amygdala: immediately
rostral to the hippocampus;
emotion
 The Limbic System

Limbic system components
are connected through a
complex loop of fiber tracts
allowing for somewhat Medial
prefrontal
cortex

circular patterns of Corpus
callosum
Fornix

feedback Cingulate
gyrus Thalamic
nuclei
Orbitofrontal Mammillary
cortex body
Basal nuclei Hippocampus

Limbic system structures Amygdala

have centers for both Temporal lobe

gratification and aversion
– Gratification: sensations
of pleasure or reward
– Aversion: sensations of
fear or sorrow