Introduction To Nervous System PDF

Summary

This document provides an introduction to the anatomy and physiology of the nervous system, including its function, major parts, and subdivisions. The document also touches upon the nervous system's development, organization of the spinal cord and brain, peripheral nervous system, and autonomic nervous system.

Full Transcript

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