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Hole’s Human
Anatomy and Physiology
Eleventh Edition
Shier w Butler w Lewis
Chapter
11
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
1
Chapter 11
Nervous System II
Meninges
• membranes
surrounding CNS
• protect CNS
• three layers
• dura mater – outer,
tough
• arachnoid mater –
thin, weblike
• pia mater – inner,
very thin
2
Meninges of the Spinal Cord
3
Ventricles
• interconnected cavities
• within cerebral
hemispheres and brain
stem
• continuous with central
canal of spinal cord
• filled with cerebrospinal
fluid (CSF)
• lateral ventricles
• third ventricle
• fourth ventricle
• cerebral aqueduct
4
Cerebrospinal Fluid
• secreted by choroid
plexus are networks of
capillaries (20ml/hr)
• circulates in ventricles,
central canal of spinal
cord, and subarachnoid
space
• completely surrounds
brain and spinal cord
• clear liquid
• nutritive (glucose,protein
etc)
•protective
• helps maintain stable ion
concentrations in CNS for
accurate signaling impulse
•Absorbed by arachnoid
villi
5
Circulation of CSF
6
Spinal Cord
• slender column of
nervous tissue
continuous with brain
• extends downward
through vertebral
canal
• begins at level of
foramen magnum
and terminates near
first and second
lumbar
7
Cross Section of Spinal Cord
8
Functions of Spinal Cord
• center for spinal reflexes
• conduit for nerve impulses to and
from the brain
9
Reflex Arcs
Reflexes – automatic, subconscious responses to stimuli
within or outside the body
10
Reflex Arcs
11
General Components of a Spinal
Reflex
12
Reflex Behavior
• example is the knee-jerk reflex
• simple monosynaptic reflex
• helps maintain an upright posture
13
Reflex Behavior
• example is a withdrawal reflex
• prevents or limits tissue damage
14
Reflex Arc
• example crossed extensor reflex
• crossing of sensory impulses within the reflex center
to produce an opposite effect
15
Tracts of the Spinal Cord
• Ascending tracts conduct sensory impulses to the brain
• Descending tracts conduct motor impulses from the brain to
motor neurons reaching muscles and glands
16
Ascending Tracts
• major ascending spinal
cord tracts
• fasciculus gracilis and
fasciculus cuneatus
• spinothalamic
• lateral and anterior
• spinocerebellar
• posterior and
anterior
17
Descending Tracts
• major descending spinal cord
tracts
• corticospinal
• lateral and anterior
• reticulospinal
• lateral, anterior and
medial
• rubrospinal
18
Nerve Tracts of the Spinal Cord
19
Brain
Functions
Major Parts
• interprets sensations
• cerebrum
• two hemispheres
• determines perception
• basal nuclei
• stores memory
• diencephalon
• reasoning
• brainstem
• makes decisions
• cerebellum
• coordinates muscular
movements
• regulates visceral activities
• determines personality
20
Brain
21
Brain Development
Three Major Vesicles
1. Forebrain
2. Midbrain
3. Hindbrain
22
Brain Development
23
Structure of Cerebrum
• corpus callosum
• connects cerebral
hemispheres
• convolutions
• bumps or gyri
• sulci
• grooves
• longitudinal fissure
• separates hemispheres
• transverse fissure
• separates cerebrum from
cerebellum
24
Lobes of Cerebral Hemispheres
• Frontal
• Parietal
• Temporal
• Occipital
• Insula
25
Functions of the Cerebrum
• interpreting impulses
• initiating voluntary movements
• storing information as memory
• retrieving stored information
• reasoning
• seat of intelligence and personality
26
Functional Regions of
Cerebral Cortex
Cerebral Cortex – thin layer of gray matter that
constitutes the outermost portion of cerebrum; contains
75% of all neurons in nervous system
27
Sensory Areas
• Cutaneous Sensory
Area
• parietal lobe
• interprets sensations
on skin
• Visual Area
• Sensory Area for Taste
• near bases of the central sulci
• Sensory Area for Smell
• arise from centers
deep within the
cerebrum
• occipital lobe
• interprets vision
• Auditory Area
• temporal lobe
• interprets hearing
28
Sensory Areas
29
Association Areas
• regions that are not primary motor or primary sensory areas
• widespread throughout the cerebral cortex
• analyze and interpret sensory experiences
• provide memory, reasoning, verbalization, judgment, emotions
30
Association Areas
Frontal Lobe Association Areas
• concentrating
• planning
• complex problem solving
Temporal Lobe Association Areas
• interpret complex sensory
experiences
• store memories of visual scenes,
music, and complex patterns
Parietal Lobe Association Areas
• understanding speech
• choosing words to express
thought
Occipital Lobe Association Areas
• analyze and combine visual
images with other sensory
experiences
31
Hemisphere Dominance
• The left hemisphere is dominant is most individuals
• Dominant hemisphere
controls
• speech
• writing
• reading
• verbal skills
• analytical skills
• computational skills
• Nondominant hemisphere
controls
• nonverbal tasks
• motor tasks
• understanding and
interpreting musical and
visual patterns
• provides emotional and
intuitive thought processes
32
Memory
Short Term
• working memory
• closed neuronal circuit
• circuit is stimulated over
and over
• when impulse flow
ceases, memory does also
• unless it enters longterm memory via
memory consolidation
Long Term
• changes structure or
function of neurons
• enhances synaptic
transmission
33
Motor Areas
• Primary Motor Areas
• frontal lobes
• control voluntary muscles
• Broca’s Area
• anterior to primary motor
cortex
• usually in left hemisphere
• controls muscles needed for
speech
• Frontal Eye Field
• above Broca’s area
• controls voluntary
movements of eyes and
eyelids
34
Motor Areas
35
Functions of the Cerebral Lobes
36
Basal Nuclei
• masses of gray matter
• deep within cerebral
hemispheres
• caudate nucleus, putamen,
globus pallidus
• produce dopamine
• control certain muscular
activities
• primarily by inhibiting
motor functions
37
Diencephalon
• between cerebral hemispheres and above the brainstem
• surrounds third ventricle
• thalamus
• hypothalamus
• optic tracts
• optic chiasma
• infundibulum
• posterior pituitary
• mammillary bodies
• pineal gland
38
Diencephalon
Thalamus
• gateway for sensory impulses heading to cerebral cortex
• receives all sensory impulses (except smell)
• channels impulses to appropriate part of cerebral cortex
for interpretation
Hypothalamus
• maintains homeostasis by regulating visceral activities
• links nervous and endocrine systems
39
Diencephalon
Limbic System
Consists of
• portions of frontal lobe
• portions of temporal lobe
• hypothalamus
• thalamus
• basal nuclei
• other deep nuclei
Functions
• controls emotions
• produces feelings
• interprets sensory impulses
40
Brain Stem
Three Parts
1. Midbrain
2. Pons
3. Medulla Oblongata
41
Midbrain
• between diencephalon and
pons
• contains bundles of fibers
that join lower parts of
brainstem and spinal cord
with higher part of brain
• cerebral aqueduct
• cerebral peduncles –
bundles of nerve fibers
• corpora quadrigemina –
centers for visual and
auditory reflexes
42
Pons
• rounded bulge on underside of
brainstem
• between medulla oblongata
and midbrain
• helps regulate rate and depth
of breathing
• relays nerve impulses to and
from medulla oblongata and
cerebellum
43
Medulla Oblongata
• enlarged continuation of
spinal cord
• conducts ascending and
descending impulses between
brain and spinal cord
• contains cardiac, vasomotor,
and respiratory control
centers
• contains various nonvital
reflex control centers
(coughing, sneezing,
swallowing, vomiting)
44
Reticular Formation
• complex network of
nerve fibers scattered
throughout the brain stem
• extends into the
diencephalon
• connects to centers of
hypothalamus, basal
nuclei, cerebellum, and
cerebrum
• filters incoming sensory
information
• arouses cerebral cortex
into state of wakefulness
45
Types of Sleep
Slow Wave
Rapid Eye Movement (REM)
• non-REM sleep
• paradoxical sleep
• person is tired
• some areas of brain active
• decreasing activity of
• heart and respiratory rates
reticular system
irregular
• restful
• dreaming occurs
• dreamless
• reduced blood pressure and
respiratory rate
• ranges from light to heavy
• alternates with REM sleep
46
Cerebellum
• inferior to occipital lobes
• posterior to pons and medulla
oblongata
• two hemispheres
• vermis connects hemispheres
• cerebellar cortex – gray matter
• arbor vitae – white matter
• cerebellar peduncles – nerve fiber
tracts
• dentate nucleus – largest nucleus in
cerebellum
• integrates sensory information
concerning position of body parts
• coordinates skeletal muscle activity
• maintains posture
47
Major Parts of the Brain
48
Peripheral Nervous System
• Cranial nerves arising from the brain
• Somatic fibers connecting to the skin and skeletal muscles
• Autonomic fibers connecting to viscera
• Spinal nerves arising from the spinal cord
• Somatic fibers connecting to the skin and skeletal muscles
• Autonomic fibers connecting to viscera
49
Nervous System Subdivisions
50
Structure of a Peripheral Nerve
51
Nerve Fiber Classification
• Sensory Nerves – conduct impulses into brain or spinal
cord
• Motor Nerves – conduct impulses to muscles or glands
• Mixed Nerves – contain both sensory nerve fibers and
motor nerve fibers; most nerves
52
Nerve Fiber Classification
General somatic efferent fibers
• carry motor impulses from
CNS to skeletal muscles
General visceral efferent fibers
• carry motor impulses away from
CNS to smooth muscles and
glands
General somatic afferent fibers
• carry sensory impulses to
CNS from skin and skeletal
muscles
General visceral afferent fibers
• carry sensory impulses to CNS
from blood vessels and internal
organs
53
Nerve Fiber Classification
Special somatic efferent fibers
• carry motor impulses from brain to muscles
used in chewing, swallowing, speaking, and
forming facial expressions
Special visceral afferent fibers
• carry sensory impulses to brain from olfactory and
taste receptors
Special somatic afferent fibers
• carry sensory impulses to brain from receptors of
sight, hearing, and equilibrium
54
Cranial Nerves
55
Cranial Nerves I and II
Olfactory (I)
• sensory
• fibers transmit
impulses associated
with smell
Optic (II)
• sensory
• fibers transmit
impulses associated
with vision
56
Cranial Nerves III and IV
Oculomotor (III)
• some sensory
• proprioreceptors
• primarily motor
• motor impulses to
muscles that
• raise eyelids
• move the eyes
• focus lens
•adjust light entering
eye
Trochlear (IV)
• some sensory
• proprioreceptors
• primarily motor
• motor impulses to
muscles that move the
eyes
57
Cranial Nerve V
Trigeminal (V)
• mixed
• opthalmic division
• sensory from surface of eyes,
tear glands, scalp, forehead, and
upper eyelids
• maxillary division
• sensory from upper teeth,
upper gum, upper lip, palate,
and skin of face
• mandibular division
• sensory from scalp, skin of jaw,
lower teeth, lower gum, and
lower lip
• motor to muscles of mastication
and muscles in floor of mouth
58
Cranial Nerves VI and VII
Abducens (VI)
• primarily motor
• motor impulses to
muscles that move
the eyes
• some sensory with
proprioreceptors
Facial (VII)
• mixed
• sensory from taste
receptors
• motor to muscles of
facial expression,
tear glands, and
salivary glands
59
Cranial Nerves VIII and IX
Vestibulocochlear (VIII)
• sensory
• vestibular branch
•sensory from
equilibrium receptors of
ear
• cochlear branch
•sensory from hearing
receptors
Glossopharyngeal (IX)
• mixed
• sensory from pharynx,
tonsils, tongue, and carotid
arteries
• motor to salivary glands
and muscles of pharynx
60
Cranial Nerve X
Vagus (X)
• mixed
• somatic motor to
muscles of speech
and swallowing
• autonomic motor to
viscera of thorax and
abdomen
• sensory from
pharynx, larynx,
esophagus, and
viscera of thorax and
abdomen
61
Cranial Nerves XI and XII
Accessory (XI)
• primarily motor
• cranial branch
• motor to muscles of
soft palate, pharynx,
and larynx
• spinal branch
•motor to muscles of
neck, and back; some
proprioreceptor
Hypoglossal (XII)
• primarily motor
• motor to muscles of
the tongue; some
proprioreceptor
62
Functions of Cranial Nerves
63
Spinal Nerves
• mixed nerves
• 31 pairs
• 8 cervical
•(C1 to C8)
• 12 thoracic
•(T1 to T12)
• 5 lumbar
•(L1 to L5)
• 5 sacral
•(S1 to S5)
• 1 coccygeal
•(Co)
64
Spinal Nerves
Dorsal root (posterior
or sensory root)
• axons of sensory
neurons in the
dorsal root
ganglion
Dorsal root ganglion
• cell bodies of sensory
neurons whose axons
conduct impulses inward
from peripheral body
parts
65
Dermatome
• an area of skin that the sensory nerve fibers of a particular
spinal nerve innervate
66
Spinal Nerves
Ventral root (anterior or
motor root)
• axons of motor
neurons whose cell
bodies are in spinal
cord
Spinal nerve
• union of ventral root
and dorsal root
67
Cervical Plexuses
Nerve plexus – complex networks formed by anterior branches
of spinal nerves; fibers of various spinal nerves are sorted and
recombined
Cervical Plexus
• formed by anterior
branches of C1-C4
• lies deep in the neck
• supply muscles and
skin of the neck
• C3 – C5 contribute to
phrenic nerves
68
Brachial Plexuses
• C5-T1
• lies deep within shoulders
• musculocutaneous nerves
• supply muscles of anterior arms
and skin of forearms
• ulnar and median nerves
• supply muscles of forearms and
hands
• supply skin of hands
•radial nerves
• supply posterior muscles of
arms and skin of forearms and
hands
• axillary nerves
• supply muscles and skin of
anterior, lateral, and posterior
arms
69
Lumbosacral Plexuses
• T12 – S5
• extend from lumbar
region into pelvic cavity
• obturator nerves
• supply motor impulses
to adductors of thighs
• femoral nerves
• supply motor impulses
to muscles of anterior
thigh and sensory
impulses from skin of
thighs and legs
• sciatic nerves
• supply muscles and skin
of thighs, legs, and feet
70
Plexuses
71
Autonomic Nervous System
• functions without conscious effort
• controls visceral activities
• regulates smooth muscle, cardiac muscle, and glands
• efferent fibers typically lead to ganglia outside CNS
Two Divisions
• sympathetic – prepares body for fight or flight
situations
• parasympathetic – prepares body for resting
and digesting activities
72
Autonomic Nerve Fibers
• all are neurons are
motor (efferent)
• preganglionic fibers
• axons of preganglionic
neurons
• neuron cell bodies in
CNS
• postganglionic fibers
• axons of postganglionic
neurons
• neuron cell bodies in
ganglia
73
Sympathetic Division
• thoracolumbar divison –
location of preganglionic
neurons
• preganglionic fibers leave
spinal nerves through white
rami and enter
paravertebral ganglia
• paraverterbral ganglia
and fibers that connect
them make up the
sympathetic trunk
74
Sympathetic Division
• postganglionic fibers
extend from sympathetic
ganglia to visceral organs
• postganglionic fibers
usually pass through gray
rami and return to a spinal
nerve before proceeding to
an effector
• Exception: preganglionic
fibers to adrenal medulla do
not synapse with
postganglionic neurons
75
Sympathetic Division
76
Parasympathetic Division
• craniosacral division –
location of preganglionic
neurons
• ganglia are near or
within various organs
• terminal ganglia
• short postganglionic
fibers
• continue to
specific muscles or
glands
• preganglionic fibers of the
head are included in nerves
III, VII, and IX
• preganglionic fibers of
thorax and abdomen are
parts of nerve X
77
Parasympathetic Division
78
Autonomic Neurotransmitters
Cholinergic Fibers
• release acetylcholine
• preganglionic
sympathetic and
parasympathetic
fibers
• postganglionic
parasympathetic
fibers
Adrenergic Fibers
• release
norepinephrine
• most
postganglionic
sympathetic
fibers
79
Actions of Autonomic
Neurotransmitters
• depend on receptors in the membrane
Cholinergic receptors
• bind to acetlycholine
• muscarinic
• excitatory
• slow
• nicotinic
• excitatory
• rapid
Adrenergic Receptors
• bind to epinephrine
and norepinephrine
• alpha and beta
• both elicit different
responses on various
effectors
80
Actions of Autonomic
Insert figure 11.39
Neurotransmitters
81
Control of Autonomic
Activity
• Controlled largely by CNS
• Medulla oblongata regulates cardiac, vasomotor and
respiratory activities
• Hypothalamus regulates visceral functions, such as body
temperature, hunger, thirst, and water and electrolyte
balance
• Limbic system and cerebral cortex control emotional
responses
82
Life-Span Changes
• Brain cells begin to die before birth
• Over average lifetime, brain shrinks 10%
• Most cell death occurs in temporal lobes
• By age 90, frontal cortex has lost half its neurons
• Number of dendritic branches decreases
• Decreased levels of neurotransmitters
• Fading memory
• Slowed responses and reflexes
• Increased risk of falling
• Changes in sleep patterns that result in fewer sleeping hours
83
Clinical Application
Cerebral Injuries and Abnormalities
Concussion
• brain jarred against cranium
• loss of consciousness
• temporary loss of memory
• mental cloudiness
• headache
• recovery usually complete
Cerebral Palsy
• motor impairment at
birth
• caused by blocked
cerebral blood vessels
during development
• seizures
• learning disabilities
Cerebrovascular Accident
• stroke
• sudden interruption in blood
flow
• brain tissues die
84