Nervous Tissue Lecture PDF

Summary

This document is a lecture on the nervous system and its components, such as nervous tissue, neurons, neuroglia, and classifications. It provides detailed explanations of different types of neurons and ganglia. The document is formatted for educational purposes.

Full Transcript

Nervous tissue
Specialised to react to stimuli and to conduct
impulses to various organs in the body which
bring about a response to the stimulus
Controls and integrates the activity of different
parts of the body
Is made up of specialised nerve cells called
neurons and supporting cells called neuroglia
Neurons are easily stimulated and transmit
electrical impulses very rapidly
Nervous tissue makes up the nervous system
 Nervous system
Anatomically divided into:
– Central nervous system (CNS)
– Peripheral nervous system (PNS)
Central nervous system:
Collects information from all areas of
the body, process information and
sends nerve impulses that control all
bodily movements
Includes brain and spinal cord
Peripheral nervous system:
Connects CNS to the rest of the
body
Includes cranial nerves, spinal
nerves and associated ganglia
 Nervous system - Functional
classification
Somatic and autonomic nervous system
Somatic nervous system – regulates body activities that are under
conscious control, such as the movement of skeletal muscles
– Composed of somatic parts of the CNS and PNS, provides sensory
and motor innervation to all parts of the body, except the viscera in the
body cavities, smooth muscle, and glands
Autonomic nervous system – regulates activities that are involuntary,
or not under conscious control (organs, glands and smooth muscles)
– When you start to run, the autonomic nervous system speeds up your
heart rate and blood flow to the skeletal muscles, stimulates the sweat
glands, and slows down the contractions of smooth muscles in the
digestive system
 Cells of nervous system
Neurons and neuroglia
- Neuron:
Is the structural and functional unit of nervous
system
Transmits electrical impulses
Size varies from 4-20 microns
Has a cell body and processes (axon and
dendrite)
- Neuroglia:
Do not transmit electrical impulses
Support and protect neurons
 Classification of Neurons
Based on Morphology:
depending on the number of
processes (neurites)
Multipolar neuron
Bipolar neuron
Pseudounipolar neuron

Based on function:
Motor neuron
Sensory neuron Pseudounipolar

Interneuron
Functional classification of neurons: based on type of
information & direction of information transmission
- Motor (efferent) neurons
Transmit motor information from the CNS to effectors
(muscles/glands) in the periphery of the body
All are multipolar neurons
- Sensory (afferent) neurons
Transmit sensory information from receptors of PNS
towards the CNS
Most of the neurons are pseudounipolar and few are bipolar
- Interneurons
Transmit information between neurons within the CNS,
connect sensory and motor neurons, communicate with
each other
Are all multipolar neurons and most common type of neuron
 Multipolar neuron
Situated in the brain, spinal cord, sympathetic
and parasympathetic ganglia
Has a cell body, one axon and many dendrites
Cell body (soma or perikaryon):
Star shaped or irregular shaped
Has a cell membrane
Has cytoplasm
Has a nucleus
 Cytoplasm contains cell organelles like Golgi apparatus,
mitochondria
Also contains Nissle granules (bodies) and neurofibrils
Nissle granules are rough endoplasmic reticulum,
responsible for protein synthesis
Neurofibrils are thread like structures give support to the
cell body and processes of neuron
Part of cell body which lies adjacent to the initial part of
axon is called axon hillock, lacks Nissle granules
 Dendrites:
Short processes, many in number
Branch profusely and thickness diminishes as these divide
Surface is not smooth, but it bears many small spine-like
projections for making synaptic contacts with the axons of
other nerve cells
Contain Nissle granules
Carry nerve impulses towards the cell body
Axon:
One long process
Carry nerve impulse away from the cell body
Contains all the cell organelles except Nissle granules
Axon terminates by dividing into branches called
telodendria
 Telodendria end by supplying the muscles/gland
or end by synapsing with the dendrites or cell
bodies of other neurons
The cell membrane of axon – axollema
The cytoplasm of axon – axoplasm
The axons are surrounded by Schwann cells or
oligodendrocytes
Part of the Schwann cell closely surrounding the
axon forms myelin sheath
 Outer part of Schwann cell
is called neurilemma
Part of axon covered by
myelin sheath is called
internode
Part of axon not covered
by myelin sheath is called
node of Ranvier
These neurons are called
myelinated neurons
Myelin sheath is
composed of
phosopholipids
Unmyelinated axon
Unmyelinated neurons –
without myelin sheath
 Bipolar neuron:
Situated in the retina of eyeball, spiral
ganglia and vestibular ganglia of inner
ear
Has
– A cell body
– One axon
– One dendrite
Pseudounipolar neuron:
Situated in the spinal (dorsal root)
ganglia of spinal nerves
Has a cell body
Has one dendrite and one axon which
are united together initially and then
separate
 Neuroglia (glial
cells)
The cellular connective
tissue of nervous
system
Types of cells of
neuroglia are –
Astrocytes
Schwann cells
Oligodendrocytes
Microglia
Ependymal cells
Satellite or capsular
cells
 Astrocytes:
Star shaped cells with multiple
processes -2 types of astrocytes
Protoplasmic astrocytes – found
in the gray matter
Fibrous astrocytes – found in the
white matter
Create supportive framework for
neurons
Create “blood-brain barrier”
Monitor & regulate interstitial
fluid surrounding neurons
Microglia:
Smallest of the neuroglia,
present both in gray and white
matter
Act as scavenger cells
Show phagocytic activity in
trauma or other destructive
lesions of CNS
 Schwann cells:
Responsible for forming
myelin sheath in the
peripheral nerves
Passage of nerve impulse is
faster due to the presence of
myelin sheath
Oligodendrocytes:
Present both in grey and
white matter
Make up the three-fourth of
the glial cells
Responsible for forming
myelin sheath around the
axons within the brain and
spinal cord
May enclose several axons
 Ependymal cells:
Ciliated columnar cells
Line the ventricles of brain and
central canal of spinal cord
Involved in secretion of
cerebrospinal fluid
Satellite or capsular cells:
Satellite cell
Surround the neurons of spinal
and autonomic ganglia
Support and protect the neurons
of these ganglia
 Nerve trunk
Nerve is made up of group of axons (nerve
fibers) outside CNS
Nerve trunk is surrounded by connective
tissue sheath called epineurium
Nerve trunk contains bundles or fascicles
of nerve fibres Epineurium
Each fascicle is surrounded by a
Endoneurium
connective tissue sheath called
perineurium Perineurium
Individual nerve fiber in a fascicle is
surrounded by a connective tissue sheath
called endoneurium
Connective tissue sheath carries blood
capillaries in them
Most of the nerve fibers are covered by a
sheath of schwann cells
A nerve fiber consists of an axon, its
neurilemma and surrounding endoneurium
Nerve Cross Section – slide 28
Nerve – longitudinal section -28
 Cranial nerves:
There are 12 pairs
They take origin from the brain
Leave the skull by passing
through the foramina of skull
All supply the structures in the
head and neck region (except
10th cranial nerve)
10th cranial nerve (vagus) in
addition to head and neck
structures also supplies
structures in the thorax and
abdomen
 Cranial nerves:
Olfactory – 1st cranial nerve
Optic – 2nd cranial nerve
Oculomotor – 3rd cranial nerve
Trochlear – 4th cranial nerve
Trigeminal – 5th cranial nerve
Abducent – 6th cranial nerve
Facial – 7th cranial nerve
Vestibulo-cochlear – 8th cranial nerve
Glossopharyngeal – 9th cranial nerve
Vagus – 10th cranial nerve
Accessory – 11th cranial nerve
Hypoglossal – 12th cranial nerve
 Spinal nerves:
There are 31 pairs of spinal nerves
Attached to the spinal cord
They are named according to the region
Cervical spinal nerves (1st 8 nerves)
Thoracic spinal nerves (next 12 nerves)
Lumbar spinal nerves (next 5 nerves)
Sacral spinal nerves (next 5 nerves)
Coccygeal spinal nerve (last nerve)
 Typical spinal nerve:
Parts: roots, trunk and
rami
Roots:
Each spinal nerve
contains 2 roots – ventral
and dorsal
Spinal nerve is attached
to the spinal cord by 2
roots
Ventral root:
Contains motor fibres
These fibres leave the
spinal cord and supply
the muscles
 Dorsal root of spinal nerve with spinal ganglion

Dorsal ramus Spinal cord in the vertebral canal
of spinal nerve Ventral ramus of spinal nerve
Ventral ramus Grey and white
of spinal nerve rami communicantes

Sympathetic
ganglion

Ventral root
of spinal nerve
Lateral
cutaneous Trunk of spinal nerve
nerve

Muscles

Anterior cutaneous nerve Typical spinal nerve
 Dorsal root:
Contains sensory fibers
which enter the spinal
cord
These fibers carry
sensation from the skin,
muscle, bone and joints
Presents an
enlargement – dorsal
root (spinal) ganglion
Ganglion contains
pseudounipolar
neurons
 Dorsal and ventral roots terminate at
the intervertebral foramen by joining
each other to form trunk of spinal
nerve
Trunk of spinal nerve:
Formed by the union of ventral and
dorsal roots
Located in the intervertebral foramen
As it leaves the intervertebral foramen
it terminates by dividing into ventral
and dorsal rami
 Dorsal ramus:
Is the smaller division of spinal trunk
It runs backwards
Divides into medial and lateral branches
Both supply the muscles and skin of the back
 Ventral ramus:
Larger division of spinal trunk
Runs laterally and forwards
Gives lateral cutaneous nerve
which supplies the skin of
lateral side of body (trunk)
Gives muscular branches
which supply the lateral and Anterior
cutaneous
front muscles of the body Lateral nerve
Terminates as anterior cutaneous
nerve
cutaneous nerve which
supplies the skin of front of
body
 Ventral rami of all spinal
nerves are connected to the
sympathetic ganglia by gray
rami communicantes
Ventral rami of all thoracic
spinal nerves and 1st and 2nd
lumbar spinal nerves are
connected to sympathetic
ganglia by gray and white
rami communicantes
Ventral rami of lower cervical
spinal nerves also supply
upper limb
Ventral rami of lumbar and
sacral nerves also supply
lower limb
 Ganglia
Collection of neurons
outside the central nervous
system
Ganglion is covered by a
connective tissue capsule
Ganglion contains cell
bodies of neurons, nerve
fibres, satellite cells and
blood capillaries
2 types – sensory and
autonomic
 Sensory ganglia eg. Spinal ganglia
Covered by a connective tissue capsule
Contain cell bodies of pseudounipolar
neurons
Cell bodies of neurons
– Are large and rounded
– Are in groups
– Are surrounded by a layer of flattened cells
called satellite or capsular cells
Contains bundles of nerve fibers
Groups of cell bodies of neurons are
separated by bundles of nerve fibers
Pseudounipolar
Contains few blood capillaries Nerve
fibers
neurons
 Spinal ganglia

Nerve fibres

Cell body of
pseudounipolar
neuron

apsule

Blood capillary
CB – cell bodies of pseudounipolar neurons

Satellite cells
Pseudounipolar
Nerve neurons
fibers
 Autonomic ganglia
eg. sympathetic and parasympathetic
ganglia
Contain cell bodies of multipolar
neurons
Cell bodies of neurons
– Are small and irregularly shaped Capsule
– Are scattered
– Are surrounded by few flattened cells
called satellite or capsular cells
The cell bodies of neurons are
separated by scattered nerve fibers
Contains many blood capillaries
Autonomic/ Sympathetic ganglia - slide 36

Cell body of
multipolar
neuron

Nerve fibres –
scattered
 Concerned with innervation
of involuntary structures
Autonomic nervous system
like heart, smooth muscle
and glands
Nerve fibers of autonomic
nervous system begin at
the brain and spinal cord
and these fibers are
distributed through
peripheral nervous system
(cranial and spinal nerves)
Hypothalamus controls the
autonomic nervous system
Divided into 2 parts –
sympathetic and
parasympathetic
 Sympathetic nervous system:
– Prepares the body for an emergency – increases
heart rate, constriction of peripheral blood
vessels, raises blood pressure
– Redistributes blood – less blood to the skin,
intestine and more to brain, heart, skeletal muscle
– Inhibits peristalsis of intestinal tract and closes the
sphincters
Parasympathetic nervous system:
– Concerned with conserving and restoring energy
– reduce heart rate, increase peristalsis of the
intestine, increase glandular activity, open
sphincters