Transcript Slide 1

The nervous system is made up of:
The spinal cord
The nerves
The senses
The brain
The Nervous System
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Complex system in the body made up of
many parts
Divided into two main systems
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CNS consists of the brain and spinal cord
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the central nervous system (CNS)
the peripheral nervous system (PNS)
Gets info. from the body and sends out
instructions
PNS consists of all the nerves and wiring
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Sends messages from the brain to the rest of
the body
Peripheral Nervous System
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A communication system
3 kinds of neurons connect the CNS to the
body
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Sensory
Motor
Interneurons
Sensory- sensory receptors to CNS
Motor- CNS to muscles
Interneurons- Connections within CNS
Peripheral Nervous System
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Unlike other system we have been
studying, neurons have a limited
ability to repair themselves
nerve cells also have a limited
ability for repair if damaged due to
injury or disease
Ex.) Spinal injuries
Neurons
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Cell Body: functional part
Dendrites: short extensions that
receive signals
Axon: long extension that transmits
impulses away
Nerve Impulses
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Messages carried
throughout the
body by nerves
Your funny bone is the
only nerve on your arm
that is not protected!!!
FUNNY HUH?
The Action Potential
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Threshold potential will trigger an
action potential or nerve impulse
The action potential is an all-ornone response
Myelinated Neurons
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Myelin sheathing allows neurons to conduct nerve
impulses faster than non-myelinated neurons
Myelin insulating sheath around the axon is
formed by Schwann cells
Myelin sheathing has bare patches of axon called
nodes of Ranvier
Signals move from neuron to neuron
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A synapse divides 2 neurons
The action potential will not move
across the synapse
At the end of an axon, the arrival of an
action potential results in the transfer of
info. to another neuron
Communication between neurons occurs
in one direction only across a synapse
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Presynaptic neuron  postsynaptic neuron
Signals move from neuron to neuron cont.
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Communication between neurons
occurs in one direction only across a
synapse
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Presynaptic neuron  postsynaptic
neuron
Synaptic cleft must be crossed for
the presynaptic neuron to cross and
bind to the postsynaptic neuron
Neurotransmitters
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This is done through the release of
chemicals called neurotransmitters
Move by diffusion across the
synaptic cleft
There are many different
neurotransmitters
Neurotransmitters
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Common Neurotransmitters (brain &
Autonomic NS):
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Acetylcholine (ACh) (muscular junctions,
glands, brain & spinal cord)
Norepinephrine (NE) (brain regions- emotions,
dreaming)
Excitatory
CNS neurotransmitters:
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Dopamine
Serotonin
Inhibitors
Nerve signals jumping synaptic cleft
The axon of one neuron doesn't touch the dendrites of
the next. Nerve signals have to jump across a tiny
gap (synaptic cleft). To get across the gap they have
to change from electrical signals into chemical signals
(neurotransmitters) then back into electrical signals.
http://library.thinkquest.org
Peripheral Nervous System
Peripheral Nervous System
Skeletal
(Somatic)
Autonomic
Sympathetic
Parasympathetic
Basic Tasks of the Nervous System
Sensory Input:
Monitor both
external and internal
environments.
Integration: Process
the information and
often integrate it with
stored information.
Motor output: If
necessary, signal
effector organs to
make an appropriate
response.
Sensory and Motor Pathways
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SENSORY PATHWAY
Signals from external environment,
skin, muscles, internal organs etc
a sensation arrives in the form of an
action potential
carries fine touch and pressure
sensations
Sensations travel to the thalamus and
are sorted accordingly
Sensory and Motor Pathways
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MOTOR PATHWAY:
Provides voluntary skeletal muscle
control
A rapid, direct mechanism
In response to the sensory pathway,
the CNS issues motor commands
distributed by the somatic and
autonomic nervous systems
Somatic Nervous System
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Nerves to and from spinal cord
Both voluntary and reflex
movements
Skeletal reflexes
Directs contractions of skeletal
muscles
Autonomic Nervous System
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Issued outside our conscious awareness
Activities you don’t think about!
Controls involuntary functions
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Heartbeat
Blood pressure
Respiration
digestion
Can be influenced by thought and emotion
Autonomic Nervous System
 Two
divisions:
 Sympathetic
 Parasympathetic
Sympathetic CENTRAL NERVOUS SYSTEM
SYMPATHETIC
Brain
Dilates pupil
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“Fight or Flight”
response
Released adrenaline
and noradrenaline
Increased heart rate
and bp
Increased blood flow
to skeletal muscles
Inhibits digestive
functions
Stimulates salivation
Relaxes bronchi
Spinal
cord
Salivary
glands
Lungs
Accelerates heartbeat
Inhibits activity
Heart
Stomach
Pancreas
Stimulates glucose
Secretion of adrenaline,
nonadrenaline
Relaxes bladder
Sympathetic Stimulates ejaculation
ganglia
in male
Liver
Adrenal
gland
Kidney
Parasympathetic
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“Rest and digest”
system
Calms body to
conserve and
maintain energy
Lowers heartbeat,
breathing rate and
bp
Central Nervous System
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Spinal Cord
Sends messages to the brain
Part of the nervous system that connects
the brain to the rest of the body
Thickest nerve is 1 inch thick and the
thinnest is thinner than a human hair
Spinal Cord
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The spinal cord runs down a tunnel
of holes in your backbone or spine
The vertebrae are the many bones
that protect the nerves in the spinal
cord from damage
Central Nervous System
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Brain
helps to control all of the body systems
and organs
allows us to think, feel, remember and
imagine
communicates with the body through
the spinal cord and the nerves
Tells the body what to do and when to
do it
Major divisions of the brain
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The
The
The
The
The
The
cerebrum
diencephalon
pons----------------midbrain-----------medulla oblongata-cerebellum
Cerebrum
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Divided into large, paired cerebral
hemispheres
hemispheres are covered by a thick blanket
of neural cortex called the cerebral cortex
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Thinking
sensations
intellectual functions
memory (storage and retrieval)
complex motor pattern
speaking
Diencephalon
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A hollow division of the brain that includes
the thalamus and hypothalamus
Connected to cerebrum
Its sides form the thalamus
Its floor forms the hypothalamus where
a narrow stalk connects it to the pituitary
gland
Diencephalon cont.
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Thalamus – contains relay and
processing centers for sensory info.
Hypothalamus – involved with
emotions, autonomic function and
hormone production
Pituitary gland – 1° link between
the nervous system and endocrine
system
Brain Stem
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Consists of
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Midbrain
Pons
Medulla
Contains important processing
centers and relay stations for info.
headed to/from cerebrum or
cerebellum
Midbrain
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Middle
Visual and auditory information
Generates involuntary motor
responses
Maintenance of consciousness
Pons
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Bridge
Connects the cerebellum to the
brain stem
Tracts and relay centers
Contains nuclei involved with
somatic and visceral motor control
Connect to the medulla oblongata
Medulla Oblongata
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Attaches to the spinal cord
Relays sensory info. to the thalamus
and other brain stem centers
Regulation of autonomic functions
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Heart rate
Blood pressure
Respiration
Digestive activities
Cerebellum
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Lg. and sm. hemispheres cover
most of the brain stem
Adjust voluntary and involuntary
motor activities
based on sensory info. and stored
memories of previous movements
Controls balance and posture
Brain
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Has 2 hemispheres
Left & Right sides are separate
Corpus Callosum: major pathway
between the two hemispheres
Permits data received on one side to
processed in both hemispheres
Language on left, Math, music on right
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Note* this is never 100%
Brain
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Each hemisphere is divided into 4
lobes
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Frontal
Parietal
Occipital
Temporal
The Brain
Frontal Lobe
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Contains 1°
Working
Memory
working cortex
Working memoryprefrontal
No direct sensory
input
Important planning
and sequencing
areas
Area for speech
Motor
Cortex
Phineas Gage
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Railroad worker
Iron rod straight through
his skull
SURVIVED!
Entered cheek bone and
excited top of skull
Went through frontal
lobe
Led to important
discoveries in neurology
b/c his behavior could be
studied
Changes in personality,
work ethic, speech,
planning etc.
Parietal Lobe
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Inputs from multiple
senses
Borders visual &
auditory cortex
Outputs to frontal
lobe
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Hand-eye
coordination
Eye movements
attention
Parietal
Lobe
Temporal Lobe
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1° auditory cortex
Auditory & Visual patterns
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Speech recognition
Face recognition
Word recognition
Memory formation
Auditory
Cortex
Temporal
Lobe
Occipital Lobe
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Input from optic
nerve
Contains 1° visual
cortex
Outputs to parietal
and temporal lobes
Occipital
Lobe
Visual
Lobe
The Senses
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Sight
Taste
Touch
Hearing
Smell
Carry messages about the
environment to the central nervous
system
Examples of Sense Organs
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Eyes, ears, nose, tongue, and skin
Sense organs gather information
from the environment
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Light
Sound
Heat
pressure
Seeing - Vision
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Your ability to see
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Involves the eye and the brain
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The blind spot for the eye is caused
by the optic nerve
Sight Receptors
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Photoreceptors – rods and cones of
the retina- detect photons basic unit
of light
Rods provide the CNS with info. on
the presence or absence of photons
No colors of light, very sensitive,
enables us to see in dim rooms
Hearing
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Hearing begins when some of the
sound waves go into the ear
When a sound is made, the air
around the sound vibrates
Hearing
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Ear captures and transmits info.
about movement, gravity and sound
Sound converted into action
potentials in the cochlea
Hair cells are deflected as sound
waves move through the cochlea
Action potentials are sent to the
brain via the auditory nerve
Hearing
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Loud sounds can damage hair cells
leading to cell death and deafness
Once hair cells have died, they do
regenerate
External (pinna)- collects/directs sound
Middle- collect/amplify sound waves
Inner- sensory organs responsible for
equilibrium
Touch
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Sense of touch is located on the skin
Nerves in the skin allow us to feel
texture, pressure, heat, cold and pain
Thermoreceptors- temperature
receptors
Tactile receptors- touch,
pressure
and vibration
Baroreceptors- monitor
changes in pressure
Smell
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The nose controls your sense of smell
Olfactory receptors aid with smelling
*the nose can smell 80 different
kinds of smells*
Doesn’t come close to
comparing with that
of other animals
Taste
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Sense of taste comes from the taste
buds on your tongue
Taste Buds (taste receptors) are the
parts on the tongue that allow us to
taste
there are 4 kinds of taste buds:
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Sweet
Sour
Bitter
salty
12 Cranial Nerves
I - Olfactory
II - Optic
III - Oculomotor
IV - Trochlear
V - Trigeminal
VI - Abducens
VII - Facial
VIII - Auditory
IX - Glossopharyngeal
X - Vagus
XI - Accessory
XII - Hypoglossal
Cranial Nerves
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Olfactory nerves(I)–
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Optic nerves(II) –
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Sensory, vision
Oculomotor nerves(III) –
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Sensory, smell
muscles that move the eyeball
Trochlear nerves(IV) –
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smallest cranial nerves
innervate the superior oblique muscles
of the eyes
Cranial Nerves Cont.
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Trigeminal nerves(V) –
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Abducens nerves(VI) –
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innervate the intrinsic eye muscle (lateral rectus)
Facial nerves(VII) – mixed nerves
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largest cranial nerves,
ophthalmic, maxillary and mandibular branches
control muscles of scalp & face
provide pressure sensations over face
receive taste information from tongue
Vestibulocochlear nerves(VIII) –
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vestibular nerves (monitor balance, position &
movement)
cochlear nerves (monitor hearing)
Cranial Nerves Cont.
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Glossopharyngeal nerves(IX) 
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Vagus nerves (X)–
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mixed nerves, vital to autonomic control of visceral
fxn
have a variety of motor components
Accessory nerves(XI) –
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mixed nerves that innervate tongue & pharynx
Control swallowing
Medullary Branch- innervates swallowing muscles of
soft palate & pharynx
Spinal Branch- controls muscles in pectoral girdle
Hypoglossal nerves(XII) –
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voluntary control over tongue movements