Nervous Tissue Chapter 8 PDF

Summary

This document provides an overview of nervous tissue, including neuron structure and function, neuroglia, and classification. It also covers the sensory, interneuron, and motor functions.

Full Transcript

The Nervous System & Nervous
tissue

Dr. Ali Ebneshahidi

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 Functions of the Nervous System
1. Nervous system and endocrine system are the chief control centers
in maintaining body homeostasis.
2. Nervous system uses electrical signals (nerve impulses) which
produce immediate (but short- lived) responses; endocrine system
uses chemical signals (hormones) that produce slower (but long
lasting) responses.
3. Nervous system has 3 major functions:
Sensory input – sensory or afferent neutron detect internal or
external changes (stimuli) and send the message to the brain or
spinal cord.
Integration – interneurons in the brain or spinal cord process and
interpret the message from the sensory neurons, and relay the
massage back to body parts.
Motor output – motor or efferent neurons receive the message
from interneuron and produce a response at the effector organ (a
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muscle or a gland).
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 Nerve tissue
1. Nerve tissue is composed of 2 main types of cells:
Neurons- nerve cells that are specialized to detect and react
to stimuli, by generating and conducting nerve impulses.
Neuroglial cells- accessory cells for filling spaces and
supporting neurons.
2. Microscopic anatomy of neurons
All neurons have a cell body called soma which contains a
nucleus, organelles, and a modified endoplasmic reticulum
called Nissl body.
Although there is DNA in the neuron, somehow DNA
replication and mitosis do not occur, resulting in the
neurons lack of ability to reproduce or regenerate.

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 Extensions of the soma form nerve such as dendrites which conduct
nerve impulses toward the soma, and axon which conducts nerve
impulses away from the soma (to another neuron, or to an effect or
organ).
The number of dendrites ranges from 1( in unipolar and bipolar
neurons) to thousands (in multipolar neurons).
All neurons only contain 1 axon.
Longer axons are enclosed by a lipoprotein substance called myelin
sheath produced by a type of neuoglia cell called schwann cells.

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 This myelin sheath insulates the axon against depolarization, and
forces action potential to occur in the gaps (node of Ranvier) in
between the myelin sheath.
g) axons enclosed by myelin sheath are called myelinated axons
which make up the white matter in the nervous system; while axons
that have no myelin sheath are called unmyelinated axons which make
up the gray matter in the nervous system.

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 The myelin sheath insulates the axon leaving only narrow gaps called
Nodes of Ranvier to allow action potential to occur. This type of
nerve impulse propagation where action potential jumps from one gap
to the next is referred to as "saltatory conduction" (which increases the
rate of impulse transmission by 240 folds).

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 Synapse
A synapse is the junction between two neurons, or between a neuron
and an effector organ (muscle or gland). Each synapse consists of:
Presynaptic neuron - that sends an impulse to the synapse.
Axon – the nerve fiber extends from the presynaptic neuron, that
propagates the impulse to the synapse.
Synaptic knobs - the round endings of the axon.

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Synaptic vesicles - membranous
sacs that contain a neurotransmitter
(e.g. acetylcholine, norepinephrine,
dopamine), located in the synaptic
knobs.
Synaptic cleft - a gap between the
two neurons in the synapse.
Dendrite – the nerve fiber that
continues to propagate the nerve
impulse to the second neuron
(postsynaptic neuron). Receptors on
this dendrite receive the
neurotransmitter from the axon.
Postsynaptic neuron - the neuron
that receives the nerve impulse from
the presynaptic neuron, through the
synapse. ebneshahidi
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 Classification of neurons
Classification based on structure:
a) unipolar neuron - a single nerve fiber is extended
from the some, and it divides into a dendrite and an
axon (sensory neurons that conduct reflexes or detect
various stimuli).
b) bipolar neuron - a dendrite and an axon extend
from the soma independently (sensory neurons involved
in special senses such as vision, olfaction, and hearing).
c) multipolar neuron - one axon and many dendrites
extend from the soma (interneurons located inside the
brain and spinal cord). ebneshahidi
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classification based on function:
a) sensory or afferent neuron:
- conducts nerve impulses from the body to the brain or spinal cord.
- endings of its dendrite may be modified to become nerve receptors.
- usually unipolar in structure.
b) interneuron:
- relays nerve impulse from sensory neuron to motor neuron.
- located totally inside the tissues of the brain or spinal cord.
- involved in the processing and integration in the nervous system.
- usually multipolar in structure.
c) motor or efferent neuron:
- conducts nerve impulses from the brain or spinal cord to the effector
organ (muscles or glands).
- usually multipolar in structure.
- accelerator motor neurons cause an increase of activity in the
effector organ; while inhibitory motor neurons cause a decrease of
activity in the effector organ.
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 Classification of Neuroglia
Neuroglia: are the supporting cells of the nervous system.
1. Astrocytes: star shaped cells found between neurons and blood
vessels. They are the most abundant glial cells, and help form the
blood – brain barrier.
Function: structural support, transport of substance between blood
vessels and neurons, mop up excess ions (k) and neurotransmitters.
2. Microglial cells: small ovoid cells.
Function: structural support and phagocytosis (immune protection).
3. Ependymal cells: cuboidal or columnar shaped cells.
Function: form a porous layer through which substances diffuse
between the interestitial fluid and the cerebrospinal fluid.
4. Oligodendrocytes: resemble astrocytes but have less processes and
arranged in rows along nerve fibers.
Function: produce myelin sheet within the brain spinal cord.
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 Divisions of the Nervous System
1. The human nervous system consists of the Central Nervous
System (CNS) and the Peripheral Nervous System (PNS).
2. CNS is composed of the brain (located in the cranial cavity) and
the spinal cord (located in the vertebral cavity), which serve as the
main control centers for all body activities.
3. PNS is composed of nerves derived from the brain and spinal cord
(12 pairs of cranial nerves and 31 pairs of spinal nerves), which
serve as linkage between the CNS and the body.
4. PNS can be subdivided into Sensory (afferent) nerves and
Motor (efferent) nerves. Sensory nerves send nerve impulse
from the body to CNS, while motor nerves send impulse from
CNS to effector organs.
5. Motor nerves are divided into the Somatic Nervous system
(SNS) which regulates the voluntary contraction of skeletal
muscles and autonomic nervous system (ANS) which regulates
the involuntary control of ebneshahidi
smooth, cardiac muscles and glands.
6. Finally, the ANS can be divided into Sympathetic and
Parasympathetic branches where in general sympathetic nerves
stimulate activities of the effector organs (except digestive organs),
and parasympathetic nerves inhibit activities of the effector organs
(except digestive organs).

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