Introduction to the Nervous System PDF

Summary

This document is a lecture on the introduction to the nervous system. It covers the different cell types, meningeal coverings, components of the central and peripheral nervous systems, and their functions. The document also includes recommended reading.

Full Transcript

Introduction to
the Nervous
System
Body, Movement and Function
Presenter: Fiona Cronin
[email protected]
Learning outcomes
By the end of this lecture you should be able to:
Describe the different cell types found within the nervous
system
Describe the meningeal coverings of the central nervous
system
Identify and name the component parts of the central
nervous system
Explain the structure and functions of the different
components of the peripheral nervous system
Recommended reading
Abrahams, Peter H. et al.
McMinn & Abrahams’ Clinical Atlas of Human
Anatomy. Seventh edition. Maryland Heights,
Missouri: Elsevier Mosby, 2013. Print
Drake, Richard L.
Gray’s Anatomy For Students. 4th. ed.
Philadelphia: Elsevier, Inc., 2020. Print.
Moore, Keith L., Arthur F. Dalley, and A. M. R.
Agur. Essential Clinical Anatomy. 4th ed.
Philadelphia, Pa.; London: Lippincott Williams
& Wilkins, 2011. Print.
Netter, Frank H. (Frank Henry).
Atlas of Human Anatomy. 5th ed.
Philadelphia, Pa.; London: Saunders, 2010.
Print.
Smith, C., Dilley, A., Mitchell, B. and Drake,
R.L., 2017. Gray’s Surface Anatomy and
Ultrasound: Gray’s Surface Anatomy and
Ultrasound E-Book. Elsevier Health Sciences.
Spratt, J., Salkowski, L.R., Loukas, M.,
Turmezei, T., Weir, J. and Abrahams, P.H.,
2020. Weir & Abrahams' Imaging Atlas of
Human Anatomy. Elsevier Health Sciences.
Neuron
Neurons: nerve cells-excitable cells
specialized for the reception of
stimuli and conduction of nerve
impulses.
Vary in size and shape and are found
in the brain, spinal cord and ganglia
Cell body with one or more processes.
Cytoplasm
Nucleus
Dendrites are processes that receive
information and conduct it towards the
cell body.
Axons are processes that conduct
impulses away from the cell body
Function: transmit information to other
nerve cells, muscle, or gland cells - basic
working unit of the brain
Neuron
Unipolar neurons (pseduounipolar)-
Cell body has a single neurite that
divides a short distance from the cell
body. One proceeds to a peripheral
structure while the other to the CNS.
Eg- Dorsal root ganglion.

Bipolar neurons- elongated cell body.
One end gives rise to an axon and the
other end to a dendrite.
Eg- retinal bipolar cells, sensory cochlear
and vestibular ganglia.

Multipolar neurons- numerous
processes arise from the cell body.
Except the long process which is the
axon, rest are dendrites.
Eg- most of the neurons of the brain and
spinal cord, motor neurons
Neuroglia
Non-excitable cells
Provide structural support and produce
myelin

In CNS, four types:
Astrocytes
Oligodendrocytes
Microglia
Ependyma

In PNS, two types:
Schwan cells
Satellite cells
Neuroglia
Brain & spinal cord (CNS):
Glial cells:
Oligodendrocytes produce myelin
Astrocytes for structural support, eg insulate synapses, uptake & synthesis of
neurotransmitters
*glial cell brain tumours = gliomas
Microglia: specialised macrophages that remove damaged neurons and
infections
Ependymal cells: form the epithelial lining of the ventricles in the brain and the
central canal of the spinal cord, form a secretory epithelium (choroid plexus) that
produces the cerebrospinal fluid (CSF)

Nerves (PNS):
Schwann cells produce myelin
Satellite cells provide nutritional support and help regulate ions
concentration
Synapse
Neurons communicate
with one another at
synapses.
Pre-synaptic neuron:
neuron conducting the
impulse
Post-synaptic neuron:
neuron receiving the
impulse
General organization
Can be divided:
Functionally:
Somatic
Visceral (autonomic nervous system)

Structurally:
Central nervous system (CNS)
Brain: within the skull
Spinal cord: within the vertebral canal

Peripheral nervous system (PNS)
Cranial nerves
Spinal nerves
 Major divisions of the CNS
Cerebrum (Telencephalon)

Forebrain

Diencephalon

Cerebellum (metencephalon)
Midbrain (mesencephalon)
Brain stem

Pons (metencephalon)
Spinal cord
Medulla oblongata (myelencephalon)
Major divisions of the PNS

31 pairs of spinal nerves and their 12 pairs of cranial nerves and their ganglia
ganglia
CNS-Cerebrum
Surface: Gyri
(elevations) and sulci
(depressions),
fissures (deep
depressions)

Five lobes

Two separate
hemispheres (by the
longitudinal
fissure) and
connected by the
corpus callosum

Images from: Shier, D., Butler, J. and Lewis, R., 2003. Hole's essentials of human anatomy and physiology. McGraw-Hill.
 Longitudinal

CNS-Cerebrum Corpus
fissure Grey matter

callosum White matter

Grey matter- nerve cell
bodies and neuroglia
In the cortex
Scattered in the core
(basal ganglia)

White matter- nerve
fibres and neuroglia
Central/inner matter
White matter

Excitable nerve cells-
neurons Coronal section Cross section

Supportive cells-
neuroglia
Ventricles
CSF-filled cavities.
Two lateral ventricles
One third-ventricle between the thalamic walls
One fourth-ventricle between the cerebellum and
brainstem
Lined by ependyma
Lateral
CSF is produced at the rate of 500ml/day ventricles

Third ventricle

forth ventricle
Interventricular canal
(of Monro)

Cerebral aqueduct
(of Sylvius) Lateral Median aperture (of
apertures (of Magendie)
Luschka)
 Choroid plexus in the lateral Arachnoid
ventricle granulation
Lateral
ventricle

Third ventricle CSF flow
Fourth 1. CSF produced by the choroid plexus
ventricle (mainly in the lateral ventricles)

2. CSF flows through interventricular
foramen to the third ventricle
Interventricular canal
(of Monro)
Cerebral aqueduct (of
Sylvius) 3. CSF flows through the cerebral
aqueduct to the fourth ventricle

Lateral aperture (of
Luschka) Median aperture (of 4. CSF courses through the midbrain and
Magendie) subarachnoid space via the lateral
foramina of Luschka and midline foramen
of Magendie

5. CSF gets reabsorbed into the venous
circulation through the arachnoid
granulations
Meninges
Brain and spinal cord are Scalp
Skin Endosteal layer
protected by the skull, of dura mater Meningeal layer
of dura mater
covered by the meninges
and suspended in
cerebrospinal fluid (CSF). Dura mater
The meninges are: Periosteum
Dura mater (tough outer
layer)
Outer endosteal layer
Inner meningeal layer Pia
mater
Arachnoid mater (delicate, Arachnoid
spidery) mater
Pia Mater (inner firmly
attached to the brain)
Dural partition Falx cerebri

Outer dural layer- endocranium:
loosely attached to the vault of the
skull

The meningeal dural layer encloses
the brain and spinal cord. Extends
from the foramen magnum to S2.

The two layers of dura separate from
each other at numerous locations to
form:
Dural partitions, which project
into the cranial cavity and partially
subdivide the cranial cavity.
Falx cerebeli
Dural sinuses: intracranial venous
structures
Arachnoid mater
Delicate, non-vascular Arachnoid
granulation
connective tissue layer villi Endosteal layer
between dura mater and pia of dura mater Meningeal layer
mater covering the brain of dura mater
and spinal cord.
Ends at the level of S2
Dura mater
Separated from dura mater
Periosteum
by subdural space
Arachnoid granulations
villi: Small finger-like
projections of arachnoid Pia
mater project into the dural mater
venous sinuses that permit
one-way flow of CSF to the
bloodstream. Arachnoid
CSF is found in the mater
Subarachnoid space
subarachnoid space
Pia mater
Arachnoid
The pia mater is a thin, granulation
villi Endosteal layer
delicate membrane that of dura mater Meningeal layer
closely invests the of dura mater
surface of the brain.
Follows the contour of
Dura mater
the brain.
Separated from the Periosteum

arachnoid layer by the
subarachnoid space
which contains CSF.
Forms an effective Pia
barrier between the Arachnoid mater
mater
subarachnoid space and
the brain.
 CNS-Spinal cord
The spinal cord extends from the
foramen magnum to approximately the
level of the disc between vertebrae
L1/L2 in adults (L3 in neonates).

Covered with the same three
meningeal layers

Two swellings: Cervical (C5-T1) and
lumbosacral (L1-S3)

Core is made of grey matter
surrounded by white matter (the
ascending and descending tracts).

Spinal segments vs vertebral level
Lumbar puncture
A spinal tab can also be used to
inject drugs or induce anaesthesia.
The following structures are
encountered before it enters the
subarachnoid space (where CSF is
located):
Skin
Superficial fascia
Supraspinous ligament
Interspinous ligament
Ligamentum flavum
Areolar tissue with internal vertebral
At what level should the spinal tab be
venous plexus
performed? Dura mater
L3/L4 or L4/L5- at this level, the spinal cord has Arachnoid mater
ended, and the needle will go through the
subarachnoid space to collect CSF.
Major divisions of the PNS
Sensory
Somatic
(skeletal muscles)
Motor
PNS
Visceral Sensory
(smooth & cardiac muscles and Sympathetic
glands Motor (Fight or flight)

Nerve=should always mean a Parasympathetic
(Rest and digest)
peripheral nerve-a collection of many
axons
cranial
 CNI-Olfactory nerve: smell
CNII-Optic nerve- vision Cranial nerves
CNIII (oculomotor), IV
(trochlear), VI (abducent)
eye movements CNI
CNV-Trigeminal- facial and
scalp sensation, mandibular
movements
CNVII-Facial: facial
expression
CNVIII-Vestibulocochlear:
hearing, balance
CNIX (glossopharyngeal), X
(vagus): swallowing,
phonation
CNXI (accessory): neck and
head movements
CNXII (hypoglossal): tongue
movements
If you are a Harry Potter fan,
think:
On, On, On, They Traveled And
Found Voldemort Guarding Very
PNS-Spinal nerves
31 pairs of spinal nerves and
their ganglia
8 Cervical nerves (neck and
UL)
12 Thoracic nerves (UL and
thorax)
5 Lumbar nerves (abdomen
and LL)
5 Sacral nerves (LL and
perineum)
1 Coccygeal nerve

They contain a mixture of
both sensory and motor
fibres.
 posteri
Spinal nerve injury or

Herniated intervertebral disc
The posterior part of the anulus fibrosus of
the disc ruptures and the centrally located
nucleus pulposus is forced out.

Disc herniations, fractures of vertebral bodies
and osteoarthritis of the joints of the
vertebra can result in pressure, stretching or
oedema of the emerging spinal nerves.
This gives rise to dermatomal pain, muscle
weakness and diminished or absent reflexes.

In lumbar disc herniation (L5, S1) pain is
referred down the leg and foot along the
distribution of the sciatic nerve called
sciatica
 Why is it important
to know dermatomes
and some
myotomes?

The distribution of the sensory fibres in the cranial
Ventral rami of the spinal nerves contribute and spinal nerves often overlap.
to the formation of the brachial plexus and A strip of skin supplied by a particular spinal or
the lumbosacral plexus that innervate the cranial nerve is called a dermatome (image above),
upper and lower limbs, respectively. while a collection of muscles innervated by motor
nerve fibers from a particular spinal nerve are called
myotome.
Reflexes
Simplest, quickest form of
activity in the nervous
system
Automatic, involuntary
response to a stimulus
Monosynaptic
Knee
Ankle
Polysynaptic
Stages:
1. Receptor
2. Sensory neuron
3. Integration centre
4. Motor neuron
5. Effector
Autonomic nervous system
Visceral motor system Sympathetic Parasympathetic
nervous system nervous system
Sympathetic system ‘fight or flight’ ‘rest and digest’
Fight or flight response-increase Alert, wary, increases Decreases heart rate
heart rate heart rate & and contractility
Derived from cells in the lateral contractility, blood
horn T1-L2 (thoracolumbar flow) pressure rises
Blood vessels to Relaxes the gut tube
muscles dilate-ready muscle
Parasympathetic system for running away
Rest and relax response-slows Pupil dilation-for good Pupil constriction
HR, increases intestinal and distant vision
glandular activity and relaxes
sphincter muscles Bronchioles dilation Bronchioles
Derived from CNIII, CNVII, CNIX, constriction
CNX and S2-4 Close sphincters Open sphincters
 Autonomics
Preganglionic/ Postganglionic/
Sympathetic

Target Organs
Presynaptic Postsynaptic
(SNS)
Thoraco-lumbar
Sympathetic
ganglia
CNS PNS
Preganglionic/
Parasympatheti Presynaptic
c (PSNS)
Cranio-sacral

Cell bodies of neurons: Distinction between SNS and
Nucleus (CNS) PSNS:
Ganglion (PNS) Location of the pre-synaptic cell Parasympathetic
bodies
Location of the post-synaptic cell
ganglia
bodies
Sympathetic
Fibers originate in
thoracolumbar
regions of the spinal
cord
(Intermediolateral
cell column of T1-
L2).
Ganglia
Paravertebral
Sympathetic chain
Prevertebral
Pre-aortic ganglia
Around the main
abdominal arteries
Parasympathetic
Presynaptic
parasympathetic nerve
cell bodies are located:
Gray matter of the
brainstem
CN III
CN VII
CN IX
CN X
Gray matter of the sacral
segments of the spinal cord
(S2-S4)
Important definitions
Direction of nerve impulse: sensory (afferent) / motor (efferent)
Towards the CNS: sensory (afferent) impulse
Away from CNS: motor (efferent) impulse

Nature of perception: somatic sensory – autonomic (visceral) sensory
Somatic sensation: we are acutely aware of these; well localised (e.g. sharp pain,
touch). Generally originates in body wall structures rather than internal organs.
Visceral sensation: either imperceptible, only vaguely localisable, or only become
perceptible in disease. From blood vessels and internal organs (viscera).

Type of action: voluntary motor / autonomic (visceral or involuntary)
motor
Voluntary motor impulses control skeletal muscle over which we have voluntary control
Visceral (involuntary) motor or autonomic control muscle over which we do not normally
have voluntary control
 Thank you

Acknowledgement: Dr Sara Sulaiman
Extra materials
Use the following slides to expand your knowledge and clarify
concepts
Spinal cord-internal/external
features
H-shaped grey matter
through which passes the
central canal.
Dorsal horn
Anterior/ ventral horn-
Large in cervical and lumbar Lateral horn
region which is proportional
Ventral horn
to the volume of tissue
supplied
Posterior/ dorsal horn
Section through the spinal cord at T3 level
Lateral horn (T1-L2, S2-S4)
Ganglia
Sensory ganglia
Posterior root ganglia- sensory
ganglia are fusiform swellings found
close to the dorsal root of each
spinal nerve

CN ganglia
Sensory ganglia are also found along
cranial nerves V,VII, VIII,IX,X are
called sensory ganglia.

Autonomic ganglia
Found in paravertebral sympathetic
chains around roots of great arteries
in the abdomen and in the walls of
viscera
 Anterior (ventral/motor) root and posterior
(dorsal/sensory) root unit to form the spinal
nerve.
Where are the cell bodies of each of these
neurons found? Posterior ramus innervates
the posterior vertebral
muscles and skin of the
back

The ventral ramus innervates
the limbs along with muscles
and skin of anterior part of
the trunk
 Anterior
Sympathetic
ganglia

Anterior root

White rami
communicantes

Spinal nerve
Grey rami communicantes

Anterior ramus

Posterior ramus

Posterior root

Posterior
 Lateral cutaneous branch

Lateral cutaneous branch
Anterior ramus (intercostal
nerve)

Posterior ramus

Medial branch Lateral branch
Posterior cutaneous branch