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AUTONOMIC NERVOUS
SYSTEM (ANS)
Contents…
Comparison
 Comparison

Guyton and Hall , Textbook Of Medical Physiology, 11th edition; 2006; Elsevier Inc.1600 John F. Kennedy
Blvd., Suite 1800 Philadelphia.
 Central Control of ANS

Cerebral cortex through the
hypothalamus and reticular formation

Brain stem - reflexes for heart rate and
BP
Spinal cord - reflexes for
urination, defecation and erection

Taylor EW, Jordan D, Coote JH: Central control of the cardiovascular and
respiratory systems and their interactions in vertebrates. Physiol Rev 79:855,
 Autonomic Visceral Reflex Arc

Taylor EW, Jordan D, Coote JH: Central control of the cardiovascular and respiratory systems and their
interactions in vertebrates. Physiol Rev 79:855, 1999.
Comparison …

Two divisions: Sympathetic
and Parasympathetic
Usually two systems work
together to maintain a
balanced state or homeostasis
in the body

Guyton and Hall , Textbook Of Medical Physiology, 11th edition; 2006; Elsevier Inc.1600
John F. Kennedy Blvd., Suite 1800 Philadelphia.
Sympathetic and Parasympathetic ‘tone’
 SYMPATHETIC NERVOUS SYSTEM

Acts in times of emergency such as ‘FRIGHT’ or
‘FLIGHT’
Prepares the body to act
Increases heart rate and respiration
Raises blood pressure
Slows activity in the digestive tract

Guyton and Hall , Textbook Of Medical Physiology, 11th edition; 2006; Elsevier Inc.1600
John F. Kennedy Blvd., Suite 1800 Philadelphia.
PARASYMPATHETIC NERVOUS SYSTEM

Counteracts the actions of the sympathetic after
the emergency

Dominates in quite and relaxed conditions
‘House keeping functions’ – digestion and
micturition
Slows the heart rate and respiration
Lowers the blood pressure
Two Cell Motor Pathway
The first is the preganglionic neuron,
whose cell body is located in the brain
or spinal cord
– In the sympathetic division, the cell
body is located in the lateral grey
horns (thoraco-lumbar)
– In the parasympathetic division, the
cell body is located in various
nuclei of brain stem or in the
lateral grey horns (sacral)
Two Cell Motor Pathway
The second is the postganglionic
neuron,
whose cell body is in an autonomic
ganglion
-The postganglionic fiber sends
impulses to a target organ
-The effects at the target organ are
due to type of neurotransmitter
and specific cell surface receptors
on the effector cells
 Two Cell Motor Pathway

Guyton and Hall , Textbook Of Medical Physiology, 11th edition; 2006; Elsevier Inc.1600 John F. Kennedy
Blvd., Suite 1800 Philadelphia.
 SYMPATHETIC PARASYMPATHETIC

PREGANGLIONIC FIBRES THORACOLUMBAR DIVISION CRANIOSACRAL DIVISION

LENGTH OF PREGANGLIONIC
SHORT LONG
AXONS

PREGANGLIONIC FIBRES TRAVEL VENTRAL ROOT OFA SPINAL CRANIAL NERVE OR VENTRAL
IN NERVE ROOT OFA SPINAL NERVE

PARAVERTEBRAL GANGLIONAND
GANGLION TERMINAL GANGLION
PREVERTEBRAL GANGLION

THE PREGANGLIONIC AXON A LARGE NUMBER OF A SMALL NUMBER OF
SYNAPSES WITH: POSTGANGLIONIC NEURONS POSTGANGLIONIC NEURONS

EFFECTS WIDESPREAD NARROW

LENGTH OF POSTGANGLIONIC
LONG SHORT
AXONS

GENERAL DESCRIPTION OF
"FIGHT-OR FLIGHT" RESPONSE "HOUSEKEEPING"
EFFECTS

MOST BODY STRUCTURES
SWEAT GLANDS, ARRECTOR PILI
RECEIVE DUAL INNERVATION, BUT
MUSCLES, FAT CELLS, CUTANEOUS LACRIMAL (TEAR) GLANDS
A FEW ARE INNERVATED BY ONE
BLOOD VESSELS
DIVISION ONLY
Sympathetic Division
‘Thoracolumbar’
 The Sympathetic Division

Guyton and Hall , Textbook Of Medical Physiology, 11th edition; 2006; Elsevier Inc.1600 John F. Kennedy
 The Sympathetic Ganglion

Paravertebral ganglion
– Located parallel to spinal cord on either
side
– Connected to the spinal nerve through
the grey and white rami
Prevertebral Gangliaon
– Lie anterior to the vertebral column
– Occur only in abdomen and pelvis
– Unpaired, not segmentally arranged
– Also called collateral
 Postganglionic Neurons
3 types of postganglionic fibres
– Which enter the spinal nerve
through the grey ramus
– Which travel along the blood vessels
to supply head & neck
– From collateral ganglia which
travel short distance to innervate
visceral organs
The Sympathetic Ganglion
Sympathetic Pathways to Periphery
The Adrenal Medulla
Parasympathetic Division
‘Craniosacral’
 The Parasympathetic Division
Preganglionic neurons originate in the
brainstem and the lateral horn of the
spina cord in sacral region

Pass through cranial nerves III, VII, IX,
X and S2-4

Extend some distance, synapse in terminal
ganglia, and release Ach
 Postganglionic neurons originate in the terminal ganglia, pass a short distance
and then release Ach
 Cranial Outflow
Origin of
Location of
Nerve preganglionic Effector organ
terminal ganglia
fibers
Eyes (smooth
Occulomotor nerve
Midbrain Cilliary ganglion muscle in iris &
(III) nerve
cilliary body )
Pterygopalatine &
Lacrimal, Salivary
Facial (VII) nerve Pons submandibular
& mucous glands
ganglia

Glossopharyngeal
Medulla oblongata Otic ganglion Parotid gland
(IX) nerve

Heart, lungs, GI
Vagus (X) nerve Medulla oblongata Terminal ganglia tract, liver,
pancreas
Parasympathetic innervations
 Sacral Outflow

Emerges from S2-S4
Form splanchnic nerves
Innervates lower half of large
intestine, rectum, urinary bladder,
reproductive organs

Guyton and Hall , Textbook Of Medical Physiology, 11th edition; 2006; Elsevier Inc.1600
John F. Kennedy Blvd., Suite 1800 Philadelphia.
 ANS Dual Innervations

Divisions of the ANS
innervate many of the same organs
-Different effects are due to specific
different neurotransmitters and receptor
types of effectors

Guyton and Hall , Textbook Of Medical Physiology, 11th edition; 2006; Elsevier Inc.1600
John F. Kennedy Blvd., Suite 1800 Philadelphia.
Target Parasymp.Symp

(Eye (Iris.Myosis.Mydriasis

(Eye (Ciliary ms.Contraction.No innervation

Salivary Gland.Watery sec.Mucous sec
Sweat Glands No innervation sweating ++
Target Parasymp. Symp
Organ
Heart - - - HR. ++ HR & force
VC coronary VD
Lungs Bronchoconst. Bronchodilation
GIT ++ peristalsis, -- peristalsis,
secretion & bile. secretion.
UB& rectum Urination & Retension.
defecation
Genetalia Erection Ejaculation.
Target Organ Parasympathetic Sympathetic
Effects Effects

Endocrine Pancreas Stimulates insulin Inhibits insulin
secretion. secretion.

Blood Vessels Little effect. Constricts most blood
vessels and increases
BP. Exception – dilates
blood vessels serving
skeletal muscle fibers
(cholinergic).
 Neural Communication
▪ Neurotransmitters
▪ Chemical messengers that traverse the
synaptic gaps between neurons
▪ When released by the sending neuron,
neurotransmitters travel across the
synapse and bind to receptor sites on the
receiving neuron, and thereby bring about
effect

K D Tripathi, Essentials of Medical Pharmacology,6th edition,2008 Jaypee
brothers medical publishers,Delhi
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 Neurotransmitters
SOMATIC NERVOUS SYSTEM
ACh Striated
muscle

AUTONOMIC NERVOUS SYSTEM
Sympathetic Heart
ACh NE Sm. mus.
Glands
Sweat
ACh ACh
glands

ACh Ad. M. → E, →
NE
Parasympathetic Heart
ACh ACh Sm. mus.
Glands
 Cholinergic Receptors

Muscarinic Receptors Nicotinic Receptors
(Peripheral Cholinergic ) (Central Cholinergic) R.)

Strong affinity to muscarine Weak affinity to muscarine
Weak affinity to nicotine Strong affinity to nicotine

-Parasympathetic supplying -Autonomic ganglia (Nn)
effector organs - Adrenal Medulla (Nn)
-Sweat gland - Neuromuscular junction (Nm)
- CNS -CNS (Nn)

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 Muscarinic Receptors

M1 (Neural) M2 (Cardiac) M3 (Glandular)

-CNS Presynaptically -Exocrine gland
- CNS
- Atria and conducting -Smooth muscles
- Gastric parietal cells
tissue -Vascular endothelium

Atropine Atropine Atropine
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 Adrenergic
Adrenergic
Adrenergic
Adrenergic Receptors
Receptors
Receptors
Receptors

αα Subtype
Subtype ββSubtype
Subtype

α1 α2 β1, β2 & β3

- Presynaptic adrenergic
smooth muscles β1 (heart)
nerve terminal
β2 (smooth muscles)
CNS-
β3 (lipocytes)
β cells of pancreas-
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