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TOPICS
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Nervous system – functions
Components of nervous system
Communication in the nervous system
Resting membrane potential
Action potential
Nervous system disorders

1

NERVOUS SYSTEM
– Regulates all body functions (along with
the
endocrine system)
– Regulate other body systems
– Maintains homeostasis
– Responsible for behaviors, memories,
intelligence
• Neurology – the study of the nervous
system
...

– Spinal cord is located in the vertebral column
...

– Voluntary
• Autonomic (involuntary) nervous systems
– Supply nerves to and stimulate smooth &
cardiac muscle and glands
– Involuntary
– 2 divisions:
• sympathetic nervous system
• parasympathetic nervous system
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Peripheral Nerves
• Cranial nerves
– emerge from the base of the brain through
foramina of the skull
...


• Ganglia
– Masses of cell bodies of neurons located outside
the brain and spinal cord
...

astrocytes, oligodendrocytes,
microglia, ependymal,
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schwann and satellite cells

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NEURONS
Functional unit of nervous system
Histological structures
Cell body
Cell processes
Cell body
– Nissl bodies
• rough ER & free ribosomes for protein
synthesis
Cell processes = dendrites & axons
21

• Dendrites
– Receive impulse from the axon of other
neurons through synaptic connection
...


Functional Classification of Neurons
• Sensory (afferent) neurons
– transport sensory information from skin, muscles,
joints, sense organs & viscera to CNS

• Motor (efferent) neurons
– send motor nerve impulses to muscles &
glands

• Interneurons (association) neurons
– connect sensory to motor neurons
– 90% of neurons in the body
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SUPPORTING CELLS
• Known as neuroglial or glial cells
– The majority cells of the CNS
– Smaller cells than neurons
– Cells can divide
– 4 cell types in CNS
• astrocytes, oligodendrocytes, microglia &
ependymal
– 2 cell types in PNS
• schwann and satellite cells
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Astrocytes
• Star-shaped cells
• Form blood-brain barrier by covering blood
capillaries in the brain
Microglia
• Small cells found near blood vessels
• Phagocytic role -- clear away dead cells
Ependymal cells
• Form epithelial membrane lining cerebral
cavities & central canal
• Produce cerebrospinal fluid (CSF)
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Satellite Cells
• Flat cells surrounding neuronal cell bodies in
peripheral ganglia
Schwann Cell
• Cells encircling PNS axons
• Produces the myelin sheath surrounding
an axon in the PNS

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• Myelin sheath
– A multilayered lipid and protein covering
produced by Schwann cells and
oligodendrocytes
– surrounds the axons of most neurons
• Myelinated axon vs non-myelinated
axon
– The sheath electrically insulates the axon
and increases the speed of nerve impulse
conduction
...

White matter
– Consists of myelinated processes (the
myelination gives it the white colour)
– Do not contain cell bodies
...

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Gray matter:
In the spinal cord
• Gray matter forms an H-shaped inner
core surrounded by white matter
In the brain
• Gray matter forms thin outer shell of gray
matter of the cerebral cortex
– and is found in clusters called nuclei
inside the brain

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• A nucleus
– a mass (group) of nerve cell
bodies and dendrites inside the
CNS
...

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Communication in the nervous system
• Refers to the flow of information
between neurons
• Neurons are electrically excitable
...
8

Resting Membrane Potential
• Voltage (V)
– Electromotive force or potential difference,
usually expressed in volts
...

• Resting potential
– refers to the potential difference (- 70 mv)
• between the inside and the outside of
the cell, while at rest
...

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The outside of the cell is positive
...
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CHANGES IN MEMBRANE POTENTIAL
• Certain stimuli can cause changes in membrane
potential
...

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Action Potential (AP)
• A brief reversal of membrane potential
– after the membrane undergoes graded
potential above threshold
...

Depolarization Phase
Membrane permeability to Na increases
Na+ enters the inside of the cell
Membrane potential reverses (towards
positive value)
Threshold – a critical level of depolarization
(-55 to -50 mV)
• Above this level can cause action
potential
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Repolarization phase
• Membrane permeability to Na+ declines
– Na+ ions stop moving into the inside cell
• K+ moves from inside to outside cell
• Resting membrane potential increases in
negativity towards resting membrane
potential

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Hyperpolarization
• Excessive movement of K+ (to inside cell)
occurs
• This causes hyperpolarization of the
membrane (undershoot)
– i
...
the potential becomes more negative
than the resting potential

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The Action Potential: SUMMARY
Resting membrane potential is -70mV
Depolarization is the change from -70mV
to +30 mV
Repolarization is the reversal from +30
mV back to -70 mV)
Hyperpolarization – The reversal
continues slightly before attaining the
resting potential
...

– The traveling action potential is called a
nerve impulse
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Propagation of action potential
AP or impulse moves along the axon as:
• Continuous conduction (along unmyelinated
fibers (axons))
– Nerve impulse travels continuosly along
the axon
...

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Saltatory Conduction

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SYNAPTIC TRANSFER OF IMPULSE
–Impulse is transferred from neuron to
neuron via synapse
• THERE IS NO DIRECT CONNECTION
BETWEEN NEURONS

• Synapse
–Is the functional junction between
one neuron and another
–Or between a neuron and an effector
such as a muscle or gland
...

• Excitatory and inhibitory neurotransmitters
• Important neurotransmitters include
acetylcholine,, noradrenalin, adrenalin, and
dopamine, glutamate, aspartate, gamma
aminobutyric acid, glycine, nitric oxide (NO)

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NEUROTRANSMITTERS
• Many pharmaceutical drugs affect the
synapse or NMJs
• Many Toxins and Diseases NMJ & Synaptic
Transmission

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Regeneration & repair of nervous tissue
• Limited ability for regeneration (repair)
– PNS - can repair damaged dendrites or
axons
– CNS - no repairs are possible

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Multiple Sclerosis (MS)
• Nervous disorder causing destruction of
myelin sheaths in CNS
• Muscle weakness

Epilepsy
• Characterized by short, recurrent attacks
initiated by electrical discharges in the
brain
• skeletal muscles may contract involuntarily
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• loss of consciousness

TOPICS
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Parts of brain and their functions
Functional areas of brain
Cerebrospinal fluid
Reticular formation
Brain waves
Consciousness, sleep
Memory
Spinal cord, nerve tracts
70

CENTRAL NERVOUS SYSTEM (CNS)
• Composed of brain and spinal cord
Brain
• Functions in sensations, memory, emotions,
decision making, behavior, etc
• Composed of wrinkled, pinkish gray tissue
• Outer layer - gray matter
• Internal layer- white matter and dispersed
areas of gray matter (known as nuclei)
White matter of the brain is made up of fibre71
tracts - myelinated nerve fibres (axons)

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BRAIN STRUCTURES
Cerebrum: Cerebral hemispheres
Cerebral cortex
Cerebral white matter
Basal nuclei
Diencephalon
Thalamus
Hypothalamus
Epithalamus
Midbrain
Brain stem: pons, medulla oblongata

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Basic Pattern of the Central Nervous System

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Figure 12
...

• Contain the higher brain centres
...
8a

Ventricles of the Brain
• Ventricles are cavities filled w/ fluid
• paired lateral ventricles
• third ventricle
• fourth ventricle

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Ventricles of the Brain

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Figure 12
...
8b

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Motor Cortex

Figure92
12
...
1

Sensory Areas

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Figure 12
...
9
...
10a

Fiber Tracts in White Matter

Figure 97
12
...
11a

Basal Nuclei

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Figure 12
...
12

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Midbrain
• Extends from pons to diencephalon
• Cerebral aqueduct connects 3rd
ventricle above to 4th ventricle below

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Thalamus
• serve as relay stations
for all sensory impulses, except smell,
to the cerebral cortex
...
13b

110

Epithalamus
• Contains the endocrine pineal gland
– secretes the hormone melatonin which
involves in sleep regulation, sleep-wake
cycles, and mood
Limbic System
• Consists of structures found in the cerebral
hemispheres and diencephalon
• Known as “emotional brain”- because it is
associated w/ emotion (including pleasure, 111
pain) and behavior
...
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Brain Stem
Three regions – midbrain, pons, and
medulla oblongata
Medulla Oblongata
Continuation of spinal cord
Path ascending and descending motor tracts
The vital centres are located here:
Cardiovascular center
Respiratory center
Reflex centres for coughing, sneezing,
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swallowing etc
...

• Protects brain cells from harmful substances
and pathogens
• Injury to the brain causes a breakdown of the
BBB, permitting the passage of normally
restricted substances into brain tissue
...

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Protection of the Brain
• The brain is protected by the:
– Cranial bones
– Cranial meninges
(membranes/coverings)
• The cranial meninges are continuous
with the spinal meninges and are
named:
– dura mater, arachnoid, and pia
mater
...

• Functions to transport nutrients and
waste products, etc, througout brain
and spinal cord
...
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Brain Waves
• Normal brain function involves continuous
electrical activity
• An electroencephalogram (EEG) records
this activity
• Patterns of neuronal electrical activity
recorded are called brain waves
• Each person’s brain waves are unique
• Continuous train of peaks and troughs
• Wave frequency is expressed in Hertz (Hz)

Types of Brain Waves
• Alpha waves – regular and rhythmic, lowamplitude, slow, synchronous waves
indicating an “idling” brain
• Beta waves – rhythmic, more irregular
waves occurring during the awake and
mentally alert state
• Theta waves – more irregular than alpha
waves; common in children but abnormal in
adults
• Delta waves – high-amplitude waves seen in
deep sleep and when reticular activating

Types of Brain Waves

Figure 12
...
21

Summary of Brain Structure
• Medulla oblongata
– Vital centres – vital functions such as
breathing, and CVS functions such as heart
functions and blood pressure
– Centers for reflexes such as vomiting,
coughing, sneezing, hiccupping, swallowing,
and digestion
• Pons
– Respiratory (breathing) centres
– Connects spinal cord, cerebellum and higher
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brain centers

• Cerebellum (little brain)
–Motor coordination – body
equilibrium
• coordinates body movements
• Midbrain
–Receives visual, auditory, and tactile
information
–This information is sent to the
thalamus and higher brain centers
...

– Contains part of the reticular
formation (which controls arousal)
...
28a

Epidural space
- Epidural injections of drugs and anaesthetics
...
30a

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Gray Matter and Spinal Roots
• Gray matter consists of soma, unmyelinated
processes, and neuroglia
• Gray commissure – connects masses of gray
matter; encloses central canal
• Posterior (dorsal) horns – interneurons
• Anterior (ventral) horns – interneurons and
somatic motor neurons
• Lateral horns – contain sympathetic nerve
fibers
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Gray Matter and Spinal Roots

157
Figure 12
...
31

Spinal Cord - White Matter
• Contains nerve fibre tracts or pathways:
Ascending tracts
Descending tracts
• Fibre tracts are composed of axons with
similar functions
• Most consist of two or three neurons
• Pathways are paired (one on each side of
the spinal cord or brain)
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White Matter: Nerve tracts or pathways

162
Figure 12
...

• Ascending tracts
• Descending tracts

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Ascending (Sensory) Pathways

• Sensory impulse is carried from the
sensory receptors through the afferent
nerve into the spinal cord (white matter)
• Ascend to the sensory cortex of the
opposite side of the brain

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Ascending (Sensory) Pathways
• Pathways decussate
– The sensory fibres cross to the
opposite side of the brain at level of
the spinal cord or thalamus (relay
station)
– The right sensory cortex receive
sensory sensation from the left side of
the body and vice versa

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Ascending (Sensory) Pathway

166
Figure 12
...
33a

Descending (Motor) Pathways
• Descending tracts deliver efferent
impulses from the brain (motor area) to
the spinal cord
• Carry impulses to cause contraction of
the skeletal muscle
• Like the ascending tracts the descending
tracts also decussate – i
...
the right
motor area controls left side of the body
& vice versa
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Decending
pathway

169
Figure 12
...
34a

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• Paralysis – loss of motor function
• Cross sectioning of the spinal cord
at any level results in total motor and
sensory loss in regions inferior to
the cut

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Reflex Action
• A reflex is an automatic reaction to a
stimulus
• Reflex Arc – consists of neural
pathways

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Components of a reflex arc
– Receptor – site of stimulus
– Sensory neuron – transmits the afferent
impulse to the CNS
– Integration center –located in the CNS
– Motor neuron – conducts efferent impulses
from the integration center to an effector
– Effector – muscle or gland that responds to
the efferent impulse
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Components of reflex arc

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Knee jerk reflex
• A sudden involuntary forward movement
of the lower leg that can be produced by
a firm tap to the patellar tendon located
just below the kneecap
...
This stimulates the
sensory receptor ( muscle spindle) to
produce nerve impulse
178

Knee jerk reflex
• Sensory receptor
afferent (sensory)
neuron
integrating centre in the spinal
cord
efferent (motor) neuron
effector
contraction of quadriceps muscle
the
knee jerks forward involunatrily

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Types of reflexes
• Somatic reflexes
– PNS – skeletal muscle
– Postural reflexes
• maintaining body equilibrium
• Involving cerebellum
– Spinal reflexes – eg
...
g BP regulation
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– Pupillary reflexes

Types of reflexes
• Monosynaptic – knee jerk
• Polysynaptic reflexes – cross extensor reflex
• Conditioned reflex
– an acquired response that is under the control of
(conditional on the occurrence of) a stimulus

– Pavlov’s dog

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Communication in the nervous
system
• Refers to the flow of information
between neurons
• Neurons are electrically excitable
...

• Synapse
– Is the functional junction between one
neuron and another
– Or between a neuron and an effector such
as a muscle (neuromuscular junction) or
gland
...

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Excitatory & Inhibitory Synapses
Excitatory synapse:
– Produces EPSP (Excitatory postsynaptic
potential)
– Leads to the formation of action potential
...

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Regeneration & repair of nervous tissue
• Limited ability for regeneration (repair)
– PNS - damaged dendrites or axons can be repaired
– CNS – no repairs are possible

•

•
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•

Multiple Sclerosis (MS)
Nervous disorder causing destruction of myelin
sheaths in CNS
Muscle weakness
Epilepsy
Uncontrollable jerking, characteristic of epileptic
seizure
loss of consciousness
Fall stiffly

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TOPICS
• Peripheral nervous system
• Receptor physiology
• Reflex action

Peripheral Nervous System (PNS)
• PNS – all neural structures outside the brain
and spinal cord
• Includes sensory receptors, peripheral
nerves, associated ganglia, and motor
endings
• Provides links to and from the external
environment
• Divisions
• Somatic SNS
• Autonomic NS

202

Sensory Receptors
• Structures specialized to respond to
stimuli
• Activation of sensory receptors results
in depolarizations that trigger
impulses to the CNS
• The realization of these stimuli,
sensation and perception, occur in
the brain

Receptor Classification by
Stimulus Type
• Mechanoreceptors – respond to touch,
pressure, vibration, stretch, and itch
• Thermoreceptors – sensitive to changes in
temperature
• Photoreceptors – respond to light energy (e
...
,
retina)
• Chemoreceptors – respond to chemicals (e
...
,
smell, taste, changes in blood chemistry)
• Nociceptors – sensitive to pain-causing stimuli

Receptor Class by Location:

1
...
Interoceptors:
• Respond to stimuli arising within the
body
• Found in internal viscera and blood
vessels
• Sensitive to chemical changes,
stretch, and temperature changes

3
...
1
...
1
...
1
...
1
...
33b

Ascending
(Sensory)
Pathway

Figure 12
...
3b

Classification of Nerves
• Sensory and motor divisions
–Sensory (afferent) – carry impulse
to the CNS
–Motor (efferent) – carry impulses
from CNS
• Mixed – sensory and motor fibers
carry impulses to and from CNS; most
common type of nerve

Reflex Action
• A reflex is an automatic reaction to a
stimulus
• Reflex Arc – consists of neural
pathways

227

Components of a reflex arc
– Receptor – site of stimulus
– Sensory neuron – transmits the afferent
impulse to the CNS
– Integration center –located in the CNS
– Motor neuron – conducts efferent impulses
from the integration center to an effector
– Effector – muscle or gland that responds to
the efferent impulse
228

Components of reflex arc

229

Knee jerk reflex
• A sudden involuntary forward movement
of the lower leg that can be produced by
a firm tap to the patellar tendon located
just below the kneecap
...
This stimulates the
sensory receptor ( muscle spindle) to
produce nerve impulse
230

Knee jerk reflex
• Sensory receptor
afferent (sensory)
neuron
integrating centre in the spinal
cord
efferent (motor) neuron
effector
contraction of quadriceps muscle
the
knee jerks forward involunatrily

231

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Types of reflexes
• Somatic reflexes
– PNS – skeletal muscle
– Postural reflexes
• maintaining body equilibrium
• Involving cerebellum
– Spinal reflexes – eg
...
g BP regulation
– Pupillary reflexes
235

Types of reflexes
• Monosynaptic – eg
...
cross extensor reflex
• Conditioned reflex
– an acquired response that is under the control of
(conditional on the occurrence of) a stimulus

– Pavlov’s dog

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