Chapter 9 10 11 12 Nervous System notes

Structures of Nervous System
• Brain- Neurons enclosed in skull
• Spinal cord– connects to brain &
enclosed in spinal cavity
• Nerves- bundles of neuronal
axons
– Cranial emerge from brain;
spinal nerves- emerge from spinal
cord

• Ganglia- groups of cell bodies
outside brain & spinal cord
• Enteric plexuses- networks in
digestive tract
• Sensory receptors- monitor
changes in internal or external
environments

Function
• Sensory Receptors & afferent nerves
– Carry information into brain & spinal cord
• Integration- information processing
– Perception = awareness of sensory input
– Carry by short interneurons
• Motor activity- efferent nerves
– Signals to glands and muscles (effectors)

Nervous System
• Neuron= nerve cell
– Specialized for signal carrying & information
processing
• Neuroglia cells-support, nourish & protect
neurons
– Neuroglia critical for homeostasis of interstitial
fluid around neurons

Neuronal Structure
• Cell body- nucleus, cytoplasm with typical
organelles
• Dendrites- highly branched input structures
emerging from cell body
• Axon- conducts away from cell body toward
another neuron or effector
– Emerges at cone-shaped axon hillock
• Axon terminals -at end of axon with synaptic
bulbs

Chapter 9 10 11 12 Nervous System notes

Myelination
• Axons covered with a myelin sheath
– Many layered lipid & protein creating
insulations
– Increases speed of nerve conduction.
• Nodes of Ranvier= gaps in the myelin
– Nodes are important for signal conduction
• Some diseases destroy myelin- E.g.
multiple sclerosis & Tay-Sachs

Vocabulary Words
• Central Nervous System
• Peripheral Nervous
System
• Somatic Nervous System
• Autonomic nervous
system
• Enteric nervous system
• Ganglia
• Neuron
• Cell body
• Dendrites
• Axon
• Nodes of Ranvier
• Myelin Sheath

Gray and White Matter
• White matter- primarily myelinated axons
• Gray matter- cell bodies, dendrites,
unmyelinated axons, axon terminals &
neuroglia
• spinal cord gray matter is centrally located

Other terms
• Gray matter in brain covers surface of
cerebrum & cerebellum – cortex
• deep cluster of neuronal cell bodies =
nucleus
• Bundle of white matter in CNS= Tract

Neuroglia
• ~ half the volume of CNS
• Cells smaller than neurons
• Can multiply and divide and fill in brain
areas
• Do not conduct nerve impulses

Types of Neuroglia
• Astrocytes- blood brain barrier, provides
nutrients
• Oligodendrocytes- myelin in CNS neurons
• microglia - defense

• Ependymal cells- Cerebral Spinal Fluid
production
• Schwann- PNS regeneration of axons,
produce myelin sheath
• Satellite cells- in PNS ganglia

Vocabulary Cards
• White matter
• Gray matter
• Neuroglia
• Astrocytes
• microglia
• Oligodendrocytes
• Schwann Cells
• Satellite cells
• Ependymal cells

Action Potentials
• Action potentials = nerve impulses
• Require a membrane potential
– electrical charge difference across cell
membrane – like a Battery

Ion Channels
• Ion Channels- allow ions to move by diffusion =
current
• Two types: leakage channels and gated
channels
• Leakage channels-small steady stream of ions
• Gated channels-open and close on demand
• If no action potential then resting cell has
resting membrane potential

Ion Channels
• Allow specific ions to diffuse across
membrane
– Move from high concentration to low
– or toward area of opposite charge
• Voltage- Gated channels respond to a
change in membrane potential

Resting Membrane Potential
• Leakage channels
• Cytosol high in K+
& interstitial fluid high in
Na+
(sodium –potassium pumps)
• Leakage lets K+
through easily and Na+
poorly

• Starts positive on the inside and negative
on the outside, slowly changes to the
opposite as ions diffuse.
• Actual value depends on the relative
leakage channel numbers

Action Potential (AP)
• Series of active events
• Channels actively open & close
• Some initial event is required to reach a
voltage threshold (~ = - 55 mv)
• Stimulus = any event bringing membrane
to threshold

Action Potential
• Then
• Depolarizing phase-
– membrane potential rises and becomes
positive
• Repolarizing phase-
– potential restored to resting value
– May overshoot =hyperpolarizing phase
– Then recovery to rest.

Active Events
• Stimulus to reach threshold
• Na+
channel opens=>
• Na+
ions enter=>
• positive potential=>
• Causes K+
channel opening =>
• repolarization

All- or -None
• This sequence is always the same
• If threshold is met, then the same size of
changes occur, no larger or smaller APs
• Stimulus must reach threshold to start, if it’s
too small, NO AP!
• After one AP there is a short period before
next can be triggered= refractory period

Conduction of Nerve Impulses
• Each section triggers next locally
• Refractory period keeps it going the right
direction
• unmyelinated fiber- continuous conduction
• With myelin- saltatory conduction
– Can only be triggered at Nodes of Ranvier
• Myelinated fibers faster & larger neurons
faster

Vocabulary Words
• Membrane potential
• Resting membrane
potential
• Action potential
• Depolarizing phase
• Repolarizing phase
• conduction

Synaptic Transmission
• Sequence of events at synapse
• Triggered by voltage change of the
Action Potential
• Sending neuron = presynaptic
• Receiving neuron = postsynaptic
• Space between = synaptic cleft
• Neurotransmitter carries signal across
cleft

Events at Synapse
• AP arrives at presynaptic end bulb=>
• Opens voltage gated Ca2+
channels=>
– Ca2+
flows into cell
• increased Ca2+
concentration =>
• exocytosis of synaptic vesicles=>
• Neurotransmitter released into cleft
• Diffuse across and bind to receptors in
postsynaptic cell membrane

• Binding at receptors
• Chemical trigger of ion channels
• May depolarize or hyperpolarize
postsynaptic cell membrane
• If threshold reached at axon hillock then
postsynaptic cell action potential results

• Finally the neurotransmitter must be
removed from the cleft-
• Diffusion away
• Destroyed by enzymes in cleft
• Transport back into presynaptic cell
• Neuroglia destruction

Neurotransmitters
• AcetylCholine (Ach)- common in PNS
– May be stimulatory or inhibitory
• Amino Acids-
– Glutamate, Aspartate, gamma aminobutyric
acid (GABA), glycine
• Modified amino acids-
– Norepinephrine (NE), Dopamine (DA),
serotonin
• Neuropeptides – endorphins
• Nitric oxide (NO)

Vocabulary Words
• Synapse
• Neurotransmitter
• Leakage channels
• Gated channels

Chapter 10 Central Nervous
System
• The CNS includes the brain and spinal
chord.
• The meninges are three layers of
connective tissue that extend around the
spinal chord and brain.

3 Layers
• Dura mater- tough, dense irregular tissue
for protection.
• Arachnoid mater- collagen and elastic
fibers resemble a spider’s web
• Pia mater- transparent inner layer of
collagen and elastin that adhere to the
surface of spinal chord and brain.

Spinal Chord
• The interior of the spinal chord resembles
a butterfly and contains gray matter.
• The outer of the spinal chord is white
matter.
• The spinal chord is protected by the
vertebrae in the spine although the chord
doesn’t extend fully throughout the back.

Reflex Arc
A reflex is a fast, involuntary sequence of
actions that occurs in response to a
particular stimulus.
Some reflexes are inborn such as
withdrawal reflex (take your hand from a hot
surface.)

Reflexes
• Reflexes that take place in the spinal
chord gray matter are called a spinal
reflex. These bypass the brain.
• If the integration or connection occurs in
the brain, it’s called a cranial reflex.

Blood-Brain Barrier
• The blood-brain barrier protects brain cells
from harmful substances and pathogens
by preventing passage of many
substances from the blood to brain tissue.
• However, the BBB doesn’t prevent all
substances from getting through.
– Examples: oxygen, carbon dioxide, alcohol,
anesthesia

Cerebrospinal Fluid
• The spinal chord and brain are further
protected against chemical and physical
injury by CSF.
• This is a clear, colorless liquid that carries
oxygen, glucose and other nutrients from
the blood to neurons and neuroglia.
• The CSF also removes wastes and toxic
substances.
• CSF circulates in the subarachnoid space
in the spinal chord.

Vocabulary Words
• Dura mater
• Arachnoid mater
• Pia mater
• Blood-Brain Barrier (BBB)
• Cerebrospinal Fluid (CSF)

The Brain
• The brain is one of largest organs in the
body with 100 billion neurons and 10-50
trillion neuroglia cells.
• The four major parts of the brain are:
Brain stem
Diencephalon
Cerebrum
cerebellum

Brain Stem
• The brain stem consists of three regions:
– Medulla oblongata
– Pons
– midbrain

Medulla Oblongata
• Contain all sensory and motor neurons
ascending and descending between the
brain and spinal chord.
• Contain cardiovascular center which
controls heart rate, force of beat and
diameter of blood vessels.

Medulla Oblongata
• Contain medullary rhythmicity area which
adjusts the rhythm of breathing.
• Control reflexes for swallowing, vomiting,
coughing, and sneezing
• Receive sensory input from or provides
motor output to cranial nerves.

Pons
• This is a bridge that connects parts of the
brain with one another.
• Voluntary movements are relayed to the
cerebellum.
• Contain sensory and motor tracts.
• Help control breathing.

Midbrain
• The midbrain connects the pons to the
diencephalon.
• Contains neurons that conduct impulses
from the cerebrum to the spinal chord.
Medulla, and pons.
• Loss of these neurons is associated with
Parkinson’s disease.

Midbrain
• Contain several reflex arcs including:
– Scanning and tracking movements of the
eyes
– Pupillary reflex (pupil size)
– Accommodation reflex (shape of lens)
– Startle reflex

More about the Brainstem
• Also contains an area called the reticular
activating system (RAS)
• When RAS is stimulated, the result is
consciousness.
• The RAS maintains wakefulness.
• Inactivation of RAS produces sleep.
• RAS also maintains muscle tone.

Diencephalon
• The major regions include:
– Thalamus
– Hypothalamus
– Pineal gland

Thalamus
• They are a paired oval shaped area.
• Important relay station for sensory
impulses for all parts of the brain.
• Plays an essential role in awareness and
acquisition of knowledge, which is called
cognition.
• Maintains consciousness and regulation of
involuntary activities.

Hypothalamus
• 1. Control of ANS-regulate gland
secretion, heart rate, digestion and
contraction of urinary bladder
• 2. Control the pituitary gland- release of
hormones

Hypothalamus
• 3. Regulation of emotional and behavioral
patterns- together with limbic system,
regulates feelings of rage, aggression,
pain, pleasure and arousal

Hypothalamus
• 4. Regulation of eating and drinking- thirst
center- detects changes in osmotic
pressure in cells and initiates the
sensation of thirst.

Hypothalamus
• 5. Control of body temperature- directs
ANS to promote heat loss or heat
production depending on stimuli.

Hypothalamus
• 6. Regulation of circadian rhythms and
states of consciousness- establish
patterns of sleep and waking.

Pineal Gland
• Size of a small pea.
• Secretes melatonin that promotes
sleepiness and setting the body’s internal
clock.

Cerebellum
• Consists of two hemispheres.
• Surface consists of gray matter.
• The cerebellum compares intended
movements with what is actually
happening.
• Regulates posture and balance and
coordinate muscle contractions.

Cerebrum
• Consists of gray matter on the outside and white
matter inside.
• Consists of two hemispheres connected by the
corpus callosum.
• Provides us with the ability for higher cognitive
functions such as writing, speaking, reading,
calculating, planning, and creating.
• Contains many folds called gyri to increase
surface area.

Limbic system
• Sometimes called the emotional brain.
• Produces a variety of emotions including:
pain, pleasure, docility, affection and
anger.
• Control patterns of behavior and may be
linked to animal instinct for survival.
• Together with parts of the cerebrum, it
functions in memory.

BRAIN GAMES
• Right/Left Brain Controversey
• Optical Illusions

Vocabulary Cards
• Brain stem-medulla,
pons, midbrain
• Diencephalon-
thalamus,
hypothalamus, pineal
gland
• Limbic system
• Cerebrum
• cerebellum

Chapter 11 Autonomic Nervous
System
• Autonomic motor neurons regular the
ongoing activities in their effector tissues
such as cardiac, smooth and glands.
• All of these are involuntary unlike somatic
neurons which are voluntary.
• Autonomic motor pathways contain two
motor neurons unlike other pathways.

• The two neurons are called the
preganglionic neuron and the
postganglionic neuron.
• The preganglionic neuron in in the CNS,
either in the gray matter of the spinal cord
or the nucleus of the brainstrem.
• The postganglionic neuron lies entirely in
the PNS.
• Somatic neurons only have one neuron
and effect tissues directly.

• Somatic motor neurons (voluntary) release
ACh (actetylcholine) as their
neurotransmitter.
• Autonomic motor neurons release ACh
and norepinephrine. (NE)
• The motor part of the autonomic nervous
system has two parts: the sympathetic and
the parasymphatic divisions.
• Some organs have dual innervation and
receive impulses from both divisions.

Sympathetic Division
• The sympathetic division usually excitesor
stimulates a neuron or pathway.
• Examples could be increased heart rate,
increased breathing, sweating, pupil
dilation…etc
• “E” situations- exercise, emergency,
excitement, embarrassment
• Produces fight or flight responses.

Parasympathetic Division
• This division emphasizes rest and digest
activities.
• SLUDD- salivation, lacrimation, urination,
digestion, and defecation.
• Decreases heart rate, decreased
breathing, decreased blood pressure.

Vocabulary Words
• Sympathetic nervous system
• Parasympathetic nervous system
• Acteylcholine
• Norepinephrine
• Pre-ganglionic neuron
• Post-ganglionic neuron

Chapter 12 Special Senses
• Sensation is the conscious or
subconscious awareness of external and
internal conditions of the body.
• For a sensation to occur, four conditions
must be achieved.

• 1. A stimulus or change in the
environment capable to activating sensory
neurons must occur.
• 2. A sensory receptor must convert the
stimulus to an electrical signal.
• 3. The nerve impulses must be conducted
along a neural pathway to the brain.
• 4. A region of the brain must receive and
integrate the nerve impulses into a
sensation.

• Adaptation of receptors can occur so that
the sensation is no longer perceived or the
sensation decreases in intensity.
• Example are clothes or temperature.
• Many special senses protrude into the
limbic system which invokes emotions and
memories associated with that sense.

Focus: The Eye
• Cornea-covers the eye and helps focus
the light
• Sclera- dense connective tissue, the
“white” of the eye, protects and gives
shape.

• Ciliary bodies- muscle- alter the shape the
lens for distance or near viewing.
Processes- secrete aqueous humor.
• Lens-transparent structure that focuses
light on the retina- elastic protein.
• iris- colored part, contains smooth muscle.

• Pupil-hole in the center that lets light in
• Retina- inner coat of the eyeball and
where light focuses for sight.
– Contains rods that detect light and cones that
detect color.

• Aqueous humor- (front of eye)fluid filled
cavity, maintains shape of eyeball
• Vitreous humor (body) (back of eye)-jelly
like fluid keeps eyeball from collapsing.
• Optic nerve-sends messages from the
photoreceptor cells to the brain to be
processed.

Chapter 9 10 11 12 Nervous System notes

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Chapter 9 10 11 12 Nervous System notes