Lecture ch 12 Intro. Nervous System PDF

Summary

This document is a lecture on the introduction to the nervous system. It covers the structural and functional divisions, components of the neuron, action potentials, synapses, and nerve regeneration. It also includes types of neuroglia and relevant diagrams.

Full Transcript

The Nervous System:
An Introduction

1
 The Nervous System: Intro
By the end of this lecture you will...
n Describe the structural and functional divisions of the
nervous system
n Describe the structural components of the neuron.
n Describe the events of the action potential, or nerve
impulse
n Describe the structure of a synapse.
n List the six types of neuroglia in nervous tissue.
n Define and describe a nerve
n Describe the process of nerve regeneration in the
peripheral nervous system. 2
 Words/Concepts you will learn…
n Neuron (and its n Terminate
anatomy) n Synapse
n Ganglion vs. nucleus n Electrochemical
n Nerve vs. tract Communication
n Effector cells

n Depolarization/repolarization/
hyperpolarization
n Action Potentials (all or none)
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3 Main Functional Divisions

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Basic Anatomical Divisions
Central nervous system (CNS):
integrating and command center

Peripheral nervous system (PNS)
Consists of nerves extending
from brain and spinal cord
Peripheral nerves link all
regions of the body to the CNS
Transmit sensory and motor
information

Ganglia: clusters of neuronal
cell bodies

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Further divided into...

Somatic:
Skin, skeletal
muscles, bones
Visceral:
GI tract, lungs,
heart, bladder,
etc.
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Figure 12.3 Schematic of levels of organization in the nervous system.
Central nervous system (CNS) Peripheral nervous system (PNS)
Brain and spinal cord Cranial nerves and spinal nerves
Integrative and control centers Communication lines between the CNS
and the rest of the body

Sensory (afferent) division Motor (efferent) division
Somatic and visceral sensory Motor nerve fibers
nerve fibers Conducts impulses from the CNS
Conducts impulses from to effectors (muscles and glands)
receptors to the CNS

Somatic nervous Autonomic nervous
Somatic sensory fiber Skin system system (ANS)
Somatic motor Visceral motor
(voluntary) (involuntary)
Conducts impulses Conducts impulses
from the CNS to from the CNS to
skeletal muscles cardiac muscles,
smooth muscles,
Visceral sensory fiber and glands
Stomach
Skeletal
muscle

Motor fiber of somatic nervous system

Sympathetic division Paraysmpathetic
Mobilizes body systems division
during activity Conserves energy
Promotes house-
keeping functions
during rest

Sympathetic motor fiber of ANS Heart

Structure
Function
Sensory (afferent) Bladder
division of PNS Parasympathetic motor fiber of ANS
Motor (efferent)
division of PNS
 Concept Check!

n What are the THREE functional divisions of the
nervous system?

n What are the TWO anatomical divisions of the
nervous system? What are their parts?

n Describe a nerve that carries pain information
from your intestines to your spinal cord in two
words.

n Describe a nerve that carries motor commands
to move your skeletal muscle in two words. 8
 Dendrites Cell body

The Typical Neuron
The cell of the nervous
system!
Nucleus

Axon
Nucleolus Impulse
direction
Nissl bodies Node of Ranvier
Axon
Axon hillock Schwann terminals
(a) Neurilemma cell
Terminal
branches
Copyright © 2011 Pearson Education, Inc., publishing as Pearson Benjamin Cummings.
Properties of Neurons

n Excitability -
respond to stimuli
n Conductivity - use
electrical signals
n Secretion - release
of a chemical

Electrochemical
response to stimuli!
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 Parts of the neuron
n Cell body (soma)
¡ Contains usual organelles plus other structures
¡ Most cell bodies in the CNS (Clustered into
nuclei)
¡ Cell bodies in the PNS are clustered into
ganglia

n Dendrites
¡ Branch from the cell body
¡ Receptive sites for receiving signals from other
neurons
¡ Transmit electrical signals toward the cell body
 Parts of the neuron
n Axons
Nerve impulse (a.k.a. action potential) is
generated at axon’s initial segment.

¡ Conducts the impulse away from the cell
body
¡ Branches at end of axon - End in knobs
called terminal boutons (axon terminals)
¡ Neurotransmitter released at the axon
terminals
 The Impulse:
The Action Potential
At rest – There is more Na+ outside than K+ inside. (3:2 ratio)

The A.P. is a LOCAL change in voltage from the movement of ions (Na+ in, K+
out)

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The Action Potential
Peak

Depolarization Repolarization

Depolarization
to threshold

Hyperpolarization

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 Concept Check!

n Draw a typical neuron and label its
parts. What direction is information
received from other neurons and
what direction does the impulse
travel within the neuron?

n Draw and label the graph (time vs.
mV) of the action potential. 15
Neural Communication:
The Synapse

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Neural Communication:
The Synapse

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Neural Communication:
The Synapse: Variations

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Review...Functional Divisions

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 Functional Classes of Neurons
n Sensory (afferent, PNS) - almost always
end in CNS
n Interneurons - always in CNS,
Integrative - process, store, retrieve,
make decisions. 90% of all neurons.
n Motor (efferent, PNS) - end (terminate)
on effector cells - cells that can do a job
- skeletal muscle, smooth muscle,
cardiac muscle, or glands.
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Functional Classification of Neurons -
Illustration

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22
Somatic vs. Visceral? Sensory vs. Motor?

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 (Neuro)glia: Supportive Cells

Glia (or glial cells, neuroglia) are not neurons!! They are
support or “housekeeping” cells

n Astrocytes
n Oligodendrocytes
n Microglia
n Ependymal cells

n Schwann cells
n Satellite cells 24
 Glia: In CNS

n Astrocytes (most
abundant):
§ Nourish and support
neurons
§ Form blood-brain barrier
§ Ion concentration
§ Neuron growth and
connections

n Oligodendrocytes: form
myelin sheaths 25
 Glia: In CNS

n Ependymal cells -
line CSF cavity; form
and circulate CSF

n Microglia (least
abundant): engulf
invading
microorganisms and
dead neurons
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 Glia: In PNS

n Schwann cells:
form myelin
sheaths

n Satellite cells:
surround cell
bodies in ganglia;
support and
nourish 27
 Myelination (CNS and PNS)

Myelin: lipoprotein

Increases speed of
nerve impulse
conduction

What happens in
multiple sclerosis?? 28
Unmyelinated cells still have support

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 Nerves - collection of axons in the PNS
Structural hierarchy of the nerve

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 Nerve damage and regeneration

If...
PNS 1. Axon becomes
fragmented at injury
Cell body intact site.
No scar formation

2. Macrophages invade
and destroy axon distal
to injury site.

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 Nerve damage and regeneration

3. Schwann cells at injury site 4. Axon regeneration;
form regeneration tube; axon new sheath forms. 32
filaments grow through tube.
 Concept Check!

n What are the 6 types of glial cells in
nervous tissue? Which ones are
found in the CNS, and which ones
are in the PNS?

n What are the four steps in
regeneration of a nerve? How likely
will that repair happen in the brain? 33