Introduction to Nervous System.pdf

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ANATOMY OF THE
NERVOUS SYSTEM

MSPC 112 / BAHS 102 LECTURE
DR. KEVIN ADUTWUM-OFOSU
ANATOMY, CHS,UG
INTENDED LEARNING OUTCOMES
▪ At the end of the lecture students should be able to:
▪ State the role and functional significance of the
nervous system
▪ Identify the major parts of the nervous system
▪ Outline the major structural and functional
subdivisions of the nervous system
▪ Distinguish between sympathetic and parasympathetic
systems
▪ Distinguish between neurons and neuroglia
▪ Describe the major receptors in the nervous system
 ROLE OF NERVOUS SYSTEM

▪ Perceive & respond to changes in
▪ External environment
▪ Internal environment
▪ Transport information from
periphery to the spinal cord and
brain
▪ Integrate various activities of the
body
▪ Process information for learning
▪ Respond to information to
protect the organism
▪ Function within normal physiologic
limits
▪ Normal growth; reproduction
SUBDIVISIONS OF THE NERVOUS SYSTEM

Peripheral nervous
Central nervous system (PNS)
system (CNS) Cranial & Spinal
Brain & nerves, & associated
Spinal cord ganglia

Somatic nervous system (SNS)
Autonomic nervous system (ANS)
TERMINOLOGIES:
CENTRAL VERSUS PERIPHERAL

▪ CNS  PNS
▪ Nucleus  Ganglion
▪ Tract  Nerve
▪ Ascending  Sensory/Afferent
▪ Descending  Motor/Efferent
▪ Connective tissue covering  Connective tissue covering
▪ Pia mater  Endoneurium
▪ Arachnoid mater  Perineurium
 Epineurium
▪ Dura mater
TERMINOLOGIES:
SOMATIC VERSUS AUTONOMIC

▪ Somatic  Autonomic/Visceral
▪ Neurons  Neurons
▪ Afferent/Sensory  Preganglionic
▪ Efferent/Motor  Postganglionic
▪ Interneuron
 CENTRAL NERVOUS SYSTEM (CNS)

 Integration of sensory information
and responding accordingly.
 Two main components: brain &
spinal cord
 Spinal cord: conduit for signals
between the brain and the rest of
the body; control of simple
reflexes.
 Brain: integration of most sensory
information; coordination of body
function
 Complex functions such as thinking,
feeling and homeostasis are
controlled by different parts.
CENTRAL NERVOUS SYSTEM (CNS)

 Brain
 Forebrain
 Midbrain
 Hindbrain

 Spinal cord
 Cervical segments (C1-C8)
 Thoracic segments (T1-12)
 Lumbar segments (L1-5)
 Sacral segments (S1-5)
 Coccygeal (1)
DEVELOPMENT OF NERVOUS SYSTEM
 Begins early (third week of
development) but completed after
birth
 Neurulation
 Neural tube formation
 Migration of neural crest cells
 Development of brain vesicles
 Primary and secondary
 Prosencephalon (Forebrain)
 Tel- & Di- encephalon
 Mesencephalon (Midbrain)
 Rhombencephalon (Hindbrain)
 Met- & Myl- encephalon
 Development of spinal cord
ORGANIZATION OF SPINAL CORD

 Simplest form of CNS
 Inner grey matter
 Dorsal horn (sensory)
 Ventral horn (motor)
 Lateral horn (T1-L1-2)
sympathetic outflow

 Outer white matter
 Descending tracts
 Ascending tracts
PARTS OF THE BRAIN
 Prosencephalon (Forebrain)
 Telencephalon (Cerebrum)
 Diencephalon (Thalamus,
Epithalamus, Hypothalamus,
Subthalamus, Metathalamus)
 Mesencephalon (Midbrain)
 Rhombencephalon
(Hindbrain)
 Metencephalon (Cerebellum and
Pons)
 Mylencephalon (Medulla
oblongata)
ORGANIZATION OF BRAIN

 Cerebral hemispheres
(telencephalon)
 Recognition
 Processing
 Interpretation
 Storage of information
 Modification of information
 Recall
 Utilization
 Cortex (gray)
 Medulla (white)
ORGANIZATION OF BRAIN

 Diencephalon
 Thalamus
 Final sensory relay station to
cerebral hemisphere
 Hypothalamus
 Regulation of
 Autonomic nervous system
 Endocrine system
 Epithalamus
 Metathalamus
 Relay of vision (sight) and
audition (hearing)
ORGANIZATION OF BRAIN
 Mid brain
 Situated between fore and
hind brains
 Connects fore and hind
brains functionally

 Hind brain
 Pons
 Medulla oblongata
 Regulation of heart &
respiration
 Cerebellum
 Motor coordination &
balance
THE PERIPHERAL NERVOUS SYSTEM

 Peripheral nervous system (PNS)
 Somatic
 12 pairs of cranial nerves
 31 pairs of spinal nerves

 Visceral (autonomic)
 Sympathetic
 Parasympathetic

 Receptors
PERIPHERAL NERVOUS SYSTEM

 Receptors
 Afferent neurons
 Efferent neuron
 Effector organ
 Connection with the CNS
ORGANIZATION OF PNS

 Cranial nerves (12 pairs)
 Olfactory
 Optic
 Oculomotor
 Trochlear
 Trigeminal
 Abducens (Abducent)
 Facial
 Vestibulo-cochlear
 Glossopharyngeal
 Vagus
 Accessory
 Hypoglossal
ORGANIZATION OF PNS

 Spinal nerves
 Dorsal roots (sensory)
 Ventral roots (motor)
 Spinal nerves (mixed)
 Dorsal rami
 Ventral rami
 Plexuses
 Cervical; brachial; lumbar;
sacral
AUTONOMIC NERVOUS SYSTEM (ANS)

 Divided into two parts:  General characteristics
 Sympathetic and  Ganglia
Parasympathetic  Afferent and efferent fibres
 Division based on  Pre-ganglionic fibres
following: (myelinated)
 Anatomical differences
 Post-ganglionic fibres
 Differences in (nonmyelinated)
neurotransmitters
 Differences in physiologic
effects
 ORGANIZATION OF ANS
SYMPATHETIC PARASYMPATHETIC
 Distributed widely throughout the body  Discrete supply (Smaller of the two
divisions)
 Efferent outflow from thoracic and upper
two lumbar segments of spinal cord  Efferent outflow from brainstem in the
(Thoraco-lumbar outflow) cranium and 2nd to 4th sacral segments
of spinal cord (Cranio-sacral outflow)
 Ganglia situated paravertebral or
prevertebral  Ganglia are located near or within
viscera (organs)
 Postganglionic neurotransmitter is
predominantly noradrenalin or adrenaline  Both pre-ganglionic and post-ganglionic
 A few such as ending to sweat glands neurotransmitter is acetylcholine
produce acetylcholine  Action is discrete and is directed at
 Action is widespread and prepares the conservation and restoration of energy
body to deal with emergency situations- (slows down the overall activity of the
"fight or flight" response body) – “rest and digest” response
ORGANIZATION OF ANS
 THE NEURON

 Basic unit of nervous
system
 Types (functional)
 Sensory
 Motor
 Integrative

 Types (morphology)
 Unipolar
 Bipolar
 Multipolar
 NEURONAL PARTS: SOMA & DENDRITES

 Cell body /perikaryon/
soma (5-135m)
 Nucleus, neuroplasm,
neurolemma
 Axon hillock

 Dendrites
 Receptive field
 Peripheral process
 NEURONAL PARTS: AXONS

 Conducts impulse away  Myelination
 Collaterals  Myelinated
 Schwann cells (PNS)
 Size (diameter)
 Oligodendrocytes
 0.2m – 20m
 Nonmyelinated
 Speed of conduction
 Growth rate - 1mm/day
 (M/sec) 5 x diameter
 NEUROGLIA

▪ Also called Glial ▪ Functions
cells/Supporting cells
of the nervous system ▪ Physical support
▪ Nutrition
▪ Non-excitable
▪ Myelination
▪ Smaller in size but out
number neurons ▪ Homeostasis
 NEUROGLIA

 CNS
 Astrocytes
 Oligodendrocytes
 Microglia
 Ependymal cells

 PNS
 Schwann cells
 Satellite cells
 RECEPTORS 1

 Exteroceptors (associated
with external environment)
 Pain (free nerve endings)
 Temperature (encapsulated &
free nerve endings)
 Pressure (encapsulated)
 Vision (rods & cones in
retina)
 Hearing (hair cells in organ of
corti in cochlea)
 Olfaction (olfactory cells in
nasal mucosa)
 Taste (taste buds of tongue)
RECEPTORS 2

 Proprioceptors
(locomotor system)
 Position/ balance/
movement (vestibular
apparatus)
 Stretch (muscle spindles)
 Tension (tendon organs)
 Pressure/vibration
(Pacinian corpuscles)
RECEPTORS 3
 Interoceptors
 Associated with viscera (internal
organs)
 Connected to the autonomic
nervous system
 Located in
 Mucous membranes
 Walls of vessels/tubular structures
 Connective tissue of viscera
 Types
 Free nerve endings
 Encapsulated
 Modified epithelial cells
SUMMARY

▪ Role and functional significance of the nervous
system
▪ Major parts of the nervous system
▪ Major structural and functional subdivisions of the
nervous system
▪ Difference between sympathetic and
parasympathetic systems
▪ Difference between neurons and neuroglia
▪ Major receptors in the nervous system