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(006) AUTONOMIC NERVOUS SYSTEM
DR. A. VIADO | 01/11/21

OUTLINE
Final common pathway linking the CNS to the skeletal muscle is
I. INTRODUCTION TO AUTONOMIC NERVOUS SYSTEM the alpha motor neuron while on the autonomic nervous system, the
A. Difference Between Somatic & Autonomic Nervous final common pathways are the sympathetic and parasympathetic
System motor neurons
B. Comparison Between Somatic & Nervous System
C. Autonomic Nervous System
D. Subdivisions of Autonomic Nervous System
E. Video: Autonomic Nervous System – Introduction A. DIFFERENTIATION BETWEEN SOMATIC AND
(Anatomy Zone) AUTONOMIC NERVOUS SYSTEM
II. SYMPATHETIC DIVISION
A. Sympathetic Division 1. SOMATIC (VOLUNTARY)
B. Sympathetic Chain Ganglia
C. Collateral Ganglia a. Consists of a single neuron between central nervous
D. Specialized Neurons system and skeletal muscle cells(effector organ)
E. Pathways of Sympathetic Division b. Innervates skeletal muscles
F. Adrenal Medulla of the Adrenal Gland c. Can lead only to muscle contraction
G. Summary
H. Video 2. AUTONOMIC (INVOLUNTARY)
III. PARASYMPATHETIC NERVOUS SYSTEM a. Has 2 neuron chain (connected by a synapse) between
A. Parasympathetic Division central nervous system and effector organ
B. Parasympathetic Outflow b. Innervates smooth & cardiac muscle, glands & GI neurons
C. Organization & anatomy of the parasympathetic c. Can either be excitatory or inhibitory
division
D. Functions of the Parasympathetic Division
E. Parasympathetic activation & Neurotransmitters
F. Video
IV. ANATOMICAL AND PHYSIOLOGICAL DIFFERENCES
BETWEEN THE PARASYMPATHETIC AND
SYMPATHETIC DIVISION
Figure 2. Somatic Nervous System Neuron
A. Origin
B. Location of ganglia
C. Relative length of axons
D. Rami communicantes
E. Degree of branching
F. Functional role
G. Neurotransmitters
H. Video Figure 3. Autonomic Nervous System Neuron
V. TEST YOUR KNOWLEDGE
VI. REFERENCES
VII. APPENDICES

I. NERVOUS SYSTEM

FIGURE 4. Somatic Nervous System

Main neurotransmitter is acetylcholine
Involve the ventral horn of the spinal cord that give rise to the
ventral root and goes to the peripheral nerve which is
myelinated and synapses in the neuromuscular junction with
the skeletal muscle through the acetylcholine receptors
Single neuron pathway
Cholinergic
Highly myelinated; Faster conduction

Figure 1. Nervous System
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e. Effectors
Skeletal Muscles
f. Responses
Contraction of Skeletal Muscle
g. Type of Nerve Fibers
Alpha motor neuron is large diameter and rapidly conducting
(highly myelinated)
FIGURE 5. Autonomic Nervous System
2. AUTONOMIC NERVOUS SYSTEM
Chain of two motor neuron a. Sensory Input
Preganglionic axon/fiber synapses with the second motor Mostly, some somatic senses & special senses
neuron which is the postganglionic neuron in a peripheral
b. Control of Motor output
ganglia (Cell bodies in PNS). Post ganglionic neuron
INVOLUNTARY CONTROL, hypothalamus, limbic system,
therefore will extend to the visceral or effector organ.
brainstem limited from cerebral cortex
Functionally, preganglionic neuron signals the c. Motor neuron pathway
postganglionic neuron, then the postganglionic neuron will
Two motor-neuron pathway
stimulate the effector organs
d. Neurotransmitters and Hormones
Preganglionic neurons are thinly myelinated and has slow
All PREGANGLIONIC fibers release ACETYLCHOLINE
conduction; Postganglionic neurons are unmyelinated and
POST GANGLIONIC fibers release different
has even slower conduction.
neurotransmitters incasein case of SYMPATHETIC and
Autonomic ganglia are motor ganglia containing motor
PARASYMPATHETIC
neurons
e. Effectors
Smooth muscles, cardiac muscles & glands
f. Responses
B. COMPARISON BETWEEN SOMATIC AND Contraction & relaxation of smooth muscle,
cardiac muscle, control of gland secretion
AUTONOMIC NERVOUS SYSTEM g. Type of Nerve Fibers
Pre-ganglionic fibers : B fibers (myelinated, small and slow
conducting)
Post-Ganglionic fibers: C fibers (unmyelinated, smaller and
slower-conducting)

C. AUTONOMIC NERVOUS SYSTEM

Figure 5. Comparison of Somatic and Autonomic Nervous System

1. SOMATIC NERVOUS SYSTEM

a. Sensory Input
somatic & special senses (5 special senses)
b. Control of Motor output
VOLUNTARY CONTROL, cerebral cortex, basal ganglia,
cerebellum, spinal cord
c. Motor neuron pathway
one-neuron pathway Figure 6. Role of the Autonomic Division in Homeostasis
d. Neurotransmitters and Hormones
All Somatic neuron secretes ACETYLCHOLINE
(cholinergic)

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Part of the Peripheral nervous system 2. PARASYMPATHETIC NERVOUS SYSTEM
Responsible for regulating involuntary body functions
- Such as heartbeat, blood flow, breathing and CRANIOSACRAL DIVISION
digestion Rest and digest
- A.k.a. VISCERAL or AUTONOMIC NERVOUS Concerned with conserving energy
SYSTEM All preganglionic fibers release ACETYLCHOLINE.
Function outside of our conscious awareness The effects are STIMULATORY.
Postganglionic fibers release ACETYLCHOLINE but
Makes routine adjustments in our body’s systems the effects CAN BE INHIBITORY.
(homeostasis) Parasympathetic nervous system – Craniosacral division
- Regulates body temperature
- Coordinates cardiovascular, respiratory,
digestive, excretory and reproductive
functions

1. AUTONOMIC (SELF-GOVERNING)

-operates in certain amount of independence
Together with the endocrine system, control the internal
environment of the body.
Provides a fine discrete control over the functions of many
organs and tissues including heart, smooth muscles, and
exocrine glands.
Functions outside of our conscious awareness
(INVOLUNTARY)
Makes routine adjustments in our body’s systems
Regulates body temperature
Coordinates cardiovascular, respiratory, digestive,
excretory and reproductive.
Afferent, connector and efferent neuron
Divided into two parts, the Sympathetic and
parasympathetic
Rapid control
Widespread (since one preganglionic axon may synapse
with several postganglionic neurons)
Contribution to homeostasis

D. SUBDIVISION AUTONOMIC NERVOUS SYSTEM

Balance between these divisions gives our system running smoothly

1. SYMPATHETIC NERVOUS SYSTEM Figure 7. Autonomic Innervation.

THORACOLUMBAR DIVISION E. VIDEO
Fight, flight or fright
Activated during exercise, excitement and emergencies
All preganglionic fibers release ACETYLCHOLINE. The
effects are STIMULATORY.
Most postganglionic fibers release NOREPINEPHRINE.
The effects are STIMULATORY.
Not all postganglionic fiber in the sympathetic division are
ADRENERGIC: Those that INNERVATE the SWEAT
GLANDS and BLOOD VESSELS in skeletal muscle are
CHOLINERGIC.
Sympathetic nervous system – Thoracolumbar division

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II. SYMPATHETIC DIVISION

A. SYMPATHETIC DIVISION

“FIGHT OR FLIGHT”
Larger of the 2 parts – more diverse compared to the
parasympathetic
Widely distributed throughout the body
Innervates the heart and lungs, muscle if the blood vessels,
hair follicles and the sweat glands, abdominopelvic viscera
“PREPARE the body for emergency”
Increase heart rate – to deliver more oxygen and blood to
the skeletal muscle
Pupillary dilation – let more light for clearer vision
Bronchodilation – let more air for more oxygenation
Liver releases more sugar into the blood to provide energy
Arterioles of the skin and intestines are constricted – leads
to cold skin, blood is being diverted to more vital organs,
such as the brain
Arterioles of the skeletal muscle are dilated
Blood pressure is raised
The hair is made to stand on end, and sweating occurs. Figure 8. Sympathetic Pathway
These are the signs that the sympathetic division has been mobilized,
that are response for any dangerous situation.
THE SYMPATHETIC DIVISION:
This means that non-vital organs, such as intestine or non-essential
More complex than parasympathetic
functions, are inhibited or temporarily stopped.
Innervates more organs
Supplies not only all visceral organs in the internal cavities
1. PREGANGLIONIC NEURONS but visceral structures in the superficial region of the body
Thoraco-Lumbar Division - Sweat glands
- Hair raising arrector pili muscles of the skin (Scared)
between T1 and L2
- Smooth muscles in the walls of arteries and vein
Cell bodies are in the lateral gray horns
It has more ganglia compared to parasympathetic
Axons enter the ventral roots
- Sympathetic trunk ganglia (lateral to the vertebral
2. GANGLIONIC NEURONS (GANGLIA) column)
a. SYMPATHETIC CHAIN GANGLIA (Paravertebral - Collateral Ganglia (anterior to the vertebral column)
ganglia)
Lateral to the vertebral column
Control effectors in the body wall, head, neck, limbs, and
thoracic cavity

b. COLLATERAL GANGLIA (Prevertebral ganglia)
Anterior to the vertebral column
Neurons innervates effectors in the abdominopelvic
cavity

3. SPECIALIZED NEURONS (Direct Innervation of the Adrenal
Gland)
neurons in the interior of the suprarenal gland
Modified sympathetic ganglion in the suprarenal gland
(Adrenal Gland)
Neurons release neurotransmitters (Epinephrine and
Norepinephrine) that act like hormones (adrenergic Rush)

Figure 9. Sympathetic Division of Autonomic Nervous System

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1. ANATOMY OF THE SYMPATHETIC GANGLIA
B. SYMPATHETIC CHAIN GANGLIA
(PARAVERTEBRAL GANGLIA) Each spinal nerve consists of:

Preganglionic and postganglionic fibers
- Control effectors in the body wall, head, neck, limbs, and There are:
thoracic cavity 1. Cervical sympathetic chain ganglia
2. Thoracic sympathetic chain ganglia
3. Lumbar sympathetic chain ganglia
4. Sacral sympathetic chain ganglia
5. Coccygeal sympathetic chain ganglia

Figure 10. Locations of Ganglia

Figure 12. Autonomic Nerves, plexuses and Ganglia

Figure 11. Sympathetic Chain Ganglia. Originates form the
ventral horn cells, and enters ventral root then to the spinal nerve,
it give rise to the white ramus comunicantes, which
communicates with your ganglion. This preganglionic fibers,
comunicates with the sympathetic ganglia and that it gives rise to
the post ganglionic neuron which enters the gray ramus
comunicantes, which will enters again in the spinal nerve to
innervates the visceral effectors.

Figure 13. Anatomic Division of Sympathetic Postganglionic
Fibers
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2. FUNCTION OF SYMPATHETIC CHAIN GANGLIA
Neurons release neurotransmitters (Epinephrine and
Reduction of circulation to the skin Norepinephrine) that act like hormones
More circulation to skeletal muscles
Stimulates more energy production by skeletal muscles 1. SUPRARENAL MEDULLAE
Releases stored adipose
Stimulation of arrector pili muscles Fibers pass through sympathetic chain and the
Dilation of pupils Celiac ganglion without synapsing
Increase heart rate Proceed to the suprarenal medulla
Dilation of respiratory tubes Fibers then synapse on modified neurons that when
stimulated will release neurotransmitters that act as
- Neurons innervate effectors in the abdominopelvic cavity hormones:
The collateral ganglia, or prevertebral ganglia, differ from the - Epinephrine and norepinephrine
sympathetic trunk ganglia in at least three ways:
1. They are not paired and not segmentally arranged
2. They occur only in the abdomen and pelvis
3. They all lie anterior to the vertebral column (hence the
name pre-vertebral)
The main collateral ganglia
- The Celiac
- Superior mesenteric
- Inferior mesenteric
- Inferior hypogastric ganglia

3. COLLATERAL GANGLIA

Reduction of flow of blood to the visceral organs
Decrease in activity of the digestive organs
Stimulation of the release of glucose from glycogen in the Figure 15. The Suprarenal Medullae
liver
Stimulates adipose cells to release energy reserves
Relaxation of smooth muscle in the urinary bladder 2. FUNCTIONS OF THE SUPRAMEDULLA
Causes ejaculation in males
Increase alertness by activating the reticular activating
system
Increase cardiovascular and respiratory activity
Increase muscle tone
Increase the mobilization of energy reserves
Increase release of lipids from adipose cells
Increase breakdown of glycogen in liver

5. THREE PATHWAYS OF SYMPATHETIC DIVISION

1. SYNAPSE IN TRUNK GANGLION AT THE SAME
LEVEL

From the lateral horn, ventral horn goes to the ventral root to the
spinal nerve, into the ventral ramus (which is the only involved
Figure 14. Collateral Ganglia here) then to white ramus (white ramus are white because the
nerve fibers are covered with white myelin) comunicantes and
synapses with the neurons in the sympathethic ganglion, and it
releases the post ganlionic neuron thru the gray ramus
comunicates and then enters again in the spinal nerve and goes
4. SPECIALIZED NEURON to your effector organs

Modified sympathetic ganglion in the suprarenal gland
(Adrenal Gland)

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Figure 16. Synapse in trunk ganglion at the same level

2. SYNAPSE IN THE TRUNK GANGLION AT A
HIGHER OR LOWER LEVEL
- The preganglionic axon ascends or descends in the sympathetic
trunk to synapse in another trunk ganglion. The postganlionic fiber
exits the sympathetic trunk via the gray ramus communicans at the
level of the synapse.

Figure 18.. Pass through sympathetic trunk in a collateral ganglion
anterior to the vertebral column

D.ADRENAL MEDULLA OF THE ADRENAL GLAND

- The internal portion of this gland- the adrenal medulla- is a major
organ of the sympathetic nervous system.
- These neuron-derived cells secrete great quantities of two
excitatory hormones into the blood of neaby capillaries during the
fight-or-flight response
- Hormones secreted are norepinephrine (the chemical secreted by
other postganglionic sympathetic neurons as a neurotransmitter)
and greater amounts of a related excitatory molecule called
epinephrine (adrenaline)
- A “surge of adrenaline”
Figure 17. Synapse in trunk ganglion at a higher or lower level

E.SUMMARY
3. PASS THROUGH SYMPATHETIC TRUNK IN A
COLLATERAL GANGLION ANTERIOR TO THE ✓ consists of parallel chain on either side of the spinal cord
VERTEBRAL COLUMN ✓ preganglionic fibers are short and extend from the spinal
cord to the body organs
✓ the sympathetic division shows considerable divergence
- The preganlionic axon passes through the sympathetic trunk, exits ✓ all preganglionic neurons release ACh/ most post ganlionic
on a splanchnic nerve, and synapses in a collateral ganglion. neurons release norepinephrine
- The postsynaptic fiber extends from the collateral ganglion to the
visceral organ vio an autonomic nerve plexus.

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post ganglionic neurons are near (terminal) the target
organ or within (intramural) the target organ. Eg. Organs
coming from the sacral division (s2-s4)

B. PARASYMPATHETIC OUTFLOW

1. CRANIAL OUTFLOW

-originates from the brainstem and innervates head, neck,
thorax, and most of the abdomen
CRANIAL NERVES:
III: Oculomotor (Edinger-Westphal nucleus)
VII: Facial (Superior salivatory nucleus & lacrimal
nucleus)
IX: Glossopharyngeal (Inferior salivatory nucleus)
X: Vagus (Dorsal nucleus of vagus)
Remember: 1973

2. SACRAL OUTFLOW
-originates from S2, S3, S4 supplies the distal portion of
digestive/pelvic organs
Figure 19. The Adrenal Medulla - SACRAL OUTFLOW
Sacral Spinal Cord S2, S3, S4

F.VIDEO
C. ORGANIZATION & ANATOMY OF THE
PARASYMPATHETIC DIVISION

-preganglionic fibers leave the brain via:
A. CRANIAL NERVE III
To the intrinsic eye muscles, pupil and lens
B. CRANIAL NERVE VII
To the tear (Lacrimal) glands and salivary glands
(submandibular/sublingual)
C. CRANIAL NERVE IX
To the parotid salivary glands
D. CRANIAL NERVE X
To the visceral organs of the thoracic cavity and
abdominal cavity
III. PARASYMPATHETIC DIVISION
-preganglionic fibers leave the sacral region via: PELVIC NERVES :
to the visceral organs in the inferior portion of the abdominopelvic
cavity.
A. PARASYMPATHETIC DIVISION

Most ACTIVE when the body is at REST
Concerned with conserving energy
Direct vital “housekeeping” activities (digestion, elimination
of feces and urine)
“REST and DIGEST”
Preganglionic neurons are in the brain stem and sacral
segments S2-S4
Pre ganglionic neurons do not diverge as mucsh as the
sympathetic division (SymphateticSympathetic division is
much more diverse)
- Therefore, the parasympathetic division is more
localized and specific as compared to the
sympathetic division
Figure 20. Parasympathetic Division of Autonomic Nervous System
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Most stimulations are short lived due to the immediate
breakdown of Acetylcholine by
ACETYLCHOLINESTERASE (within 2-3 msec, ACh is
hydrolysed into acetic acid and choline by the enzyme
(AChE, which is located on the surface of the nerve and
receptor membrane. The choline is reabsorbed into the
nerve ending and used again for synthesis of ACh).

F. SUMMARY OF THE PARASYMPATHETIC DIVISION

Involves CN III, CN VII, CN IX and CN X
Involves sacral segments S2 to S4
All parasympathetic neurons are cholinergic
Release of Ach stimulates nicotinic receptors on ganglionic
neurons
Release of Ach on neuroeffector junctions stimulates
muscarinic receptors

Figure 21. Autonomic Distribution of the Parasympathetic Output

Sacral outflow emerges from segments s2-s4 continuing where the
G. VIDEO
vagus nerve ends, innervating the organs of the pelvis including:

Distal parts of intestines
Urinary bladder
Uterus
Ovaries
Erectile tissues/external genitalia

Parasympathetic effects therefore on these organs include:

Digestion
Stimulation of defacation
Voiding of urine
Erection III. ANATOMICAL AND PHYSIOLOGICAL
DIFFERENCES BETWEEN THE
PARASYMPATHETIC AND SYMPATHETIC
D. FUNCTIONS OF THE PARASYMPATHETIC DIVISION DIVISION
Pupil Constriction
Secretion of digestive enzymes from digestive glands
Increased smooth muscle activity of the digestive system
Stimulation and coordination of defecation A. ORIGIN
Contraction of the urinary bladder
Constriction of respiratory passages SYMPATHETIC
Reduced heart rate - Thoracolumbar outflow
Sexual arousal - Lateral horn of the gray matter of Spinal cord
segments T1-L2

PARASYMPATHETIC
E. PARASYMPATHETIC ACTIVATION & - Craniosacral outflow
NEUROTRANSMITTER RELEASE - Brain stem nuclei of CN 3, 7, 9 and 10
- Spinal cord segments S2-S4
All preganglionic and postganglionic fibers release
Acetylcholine at their synapses and neuroeffector junctions

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Figure 23. Autonomic Nervous System Differences

D. RAMI COMMUNICANTES

SYMPATHETIC
- Gray and White Rami Communicantes
- White contain Myelinated Preganglionic Axons
- Gray contain Unmyelinated Postganglionic axons
(nerve fibers are devoid of myelin)

PARASYMPATHETIC
- NONE

Figure 22. Autonomic Innervation

B. LOCATION OF GANGLIA
SYMPATHETIC
- Ganglia close to CNS
- Alongside vertebral column (Sympathetic Trunk
Ganglia) and anterior to Vertebral Column
(Collateral Ganglia)

PARASYMPATHETIC
- Ganglia in (Intramural) or close to visceral organ
serve

Figure 24. Rami communicantes

C. RELATIVE LENGTH OF PRE- AND
POSTGANGLIONIC AXONS
E. DEGREE OF BRANCHING
SYMPATHETIC
- Short preganglionic (Splanchic Nerves are
exceptions) SYMPATHETIC
- Long Postganglionic - Extensive
- Branch Profusely
- Visceral organs mobilize simultaneously during
PARASYMPATHETIC
Fight or Flight situation
- Long Preganglionic
- Short Postganglionic
PARASYMPATHETIC
- Minimal
- DO NOT Branch Profusely
- More localized reaction and more discreet

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Figure 25. Degree of Branching

F. FUNCTIONAL ROLE

SYMPATHETIC Figure 26. Neurotransmitters
- Prepares body to cope with emergencies and
intense muscular activity
- Fight or Flight response

PARASYMPATHETIC TEST YOUR KNOWLEDGE
- Maintenance functions
- Conserves and stores energy 1. Which is not a part of parasympathetic origin?
- Rest and Digest response a. Oculomotor
b. Vagus
c. Trigeminal
G. NEUROTRANSMITTERS
d. Facial
SYMPATHETIC 2. Type of Nerve fiber in post-ganglionic fibers?
- All preganglionic axons release Ach a. A
- Most postganglionic axons release b. B
Norepinephrine (Adrenergic Axons)
- Postganglionic Axons to sweat glands and blood c. C
vessels of skeletal muscles release Ach d. D
- Neurotransmitter activity augmented by release of
Adrenal Medullary Hormones (Epinephrine and
3. Neurotransmitter stimulating sweat glands and
Norepinephrine) smooth muscle of small arteries?
a. Dopamine
PARASYMPATHETIC
- All axons, preganglionic and postganglionic
b. Norepinephrine
release Ach (Cholinergic Axons) c. Acetylcholine
d. Serotonin
4. Organophosphates causes inhibition of this
enzyme resulting into prolonged contraction of
muscle
a. Monoamine oxidase
b. Cyclooxygenase
c. Acetylcholinesterase
d. Glutamate dehydrogenase

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5. Which is true of sympathetic division?
a. It promotes conservation of energy and
GIT smooth muscle contraction
b. Originates from the sacral segments of
spinal cord
c. Releases acetylcholine to stimulate the
salivatory glands
d. Has special fibers synapsing with the
chromaffin cells for Norepi release
(S) Sympathetic or (P) Parasympathetic:
6. Bronchodilation:
7. Promotes Intestinal peristalsis:
8. Ejaculation:
9. Contraction of the arrector pili:
10. Cutaneous vasoconstriction:
11. Mydriasis
12. Contraction of the gallbladder
13. Salivation
14. Detrusion of the urinary bladder
15. Long post-ganglionic fiber:
Answer: 1.C 2.C 3.C 4.C 5. D 6. S 7. P 8. S 9. S 10.S 11.S 12.
S 13.P 14.P 15.S

REFERENCES

1. PPT-Doc Allan Viado
2. Snell’s Clinical Anatomy by R. Splittgerber. 8th
EDITION. Chapter 14: Autonomic Nervous System.
Pages 387-411.

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APPENDICES

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