1. Chapter 16: The Autonomic Nervous System & Higher-Order Functions

2. Homeostasis Responds to subconscious visceral sensations
Excites or inhibits smooth muscle, cardiac muscle, or glands
Includes
Autonomic sensory neurons
Integrating centers in CNS
Autonomic motor neurons
Enteric nervous system (ENS)

3. Somatic nervous system Autonomic nervous system
Figure 16-1 The Organization of the Somatic and Autonomic Nervous Systems.
Upper motor neurons in primary motor cortex
Visceral motor nuclei in hypothalamus
Brain
Brain
Somatic motor nuclei of brain stem
Preganglionic neuron
Visceral Effectors
Smooth muscle
Autonomic nuclei in brain stem
Autonomic ganglia
Glands
Skeletal muscle
Lower motor neurons
Spinal cord
Cardiac muscle
Ganglionic neurons
Spinal cord
Adipocytes
Somatic motor nuclei of spinal cord
Autonomic nuclei in spinal cord
Preganglionic neuron
Skeletal muscle a
Somatic nervous system b
Autonomic nervous system

4. Figure 16-10 A Comparison of Somatic and Autonomic Function.
Central Nervous System
Cerebral cortex
Limbic system
Thalamus
Hypothalamus
Somatic sensory
Visceral sensory
Relay and processing centers in brain stem
Somatic reflexes
Long reflexes
Lower motor neuron
Preganglionic neuron
Peripheral Nervous System
Sensory pathways
SNS
ANS
Short reflexes
Ganglionic neuron
Skeletal muscles
Sensory receptors
Visceral effectors

5. Table 16-5 A Comparison of the ANS and SNS.

6. Figure 16-2 Overview of the Autonomic Nervous System.

7. Anatomical Components
Preganglionic neuron
Cell body is in brain or spinal cord
Axons exits CNS as part of a cranial nerve or spinal nerve
Axon is type B fiber
Postganglionic neuron
Lies entirely outside of CNS
Cell body & dendrites located in autonomic ganglion
Axon is type C fiber
Terminates in visceral effector

8. Figure 16-2 Overview of the Autonomic Nervous System (Part 1 of 2).
Sympathetic Division
(Thoracolumbar)
Preganglionic Neurons
Preganglionic neurons are located in the lateral gray horns of spinal segments
T1–L2.
Ganglia
Ganglia are located near the spinal cord. Preganglionic fibers release acetylcholine (Ach), stimulating ganglionic neurons.
Target Organs
Most postganglionic fibers release norepinephrine (NE) at neuroeffector junctions.
Sympathetic activation
“Fight or flight” response
KEY
Preganglionic fibers
Postganglionic fibers

9. Sympathetic Ganglia Sympathetic chain ganglia Collateral ganglia
Preganglionic neurons
Ganglionic neurons
KEY
Gray ramus
Spinal nerve
Preganglionic neuron
Autonomic ganglion of left sympathetic chain
Sympathetic nerve (postganglionic fibers)
Innervates visceral organs in thoracic cavity by sympathetic nerves
Note: Both innervation patterns occur on each side of the body.
Autonomic ganglion of right sympathetic chain
Innervates visceral effectors by spinal nerves
White ramus
Ganglionic neuron
SYMPATHETIC CHAIN GANGLIA a c b
White ramus
COLLATERAL GANGLIA
Preganglionic fibers
THE ADRENAL MEDULLAE
Lateral gray horn
Splanchnic nerve (preganglionic fibers)
Postganglionic fibers
Collateral ganglion
Innervates visceral organs in abdominopelvic cavity
Endocrine cells (specialized ganglionic neurons)
Adrenal medullae
Secretes neurotransmitters into general circulation
Sympathetic chain ganglia
Aka vertebral chain ganglia or paravertebral ganglia
Collateral ganglia
Aka prevertebral ganglia
Adrenal medullae
Known as modified sympathetic ganglion
Involves chromaffin cells

10. Figure 16-4 The Distribution of Sympathetic Innervation.
Eye
Pons
Salivary glands
Sympathetic nerves
Superior
Middle
Cervical sympathetic ganglia
Heart
Inferior
Cardiac and pulmonary plexuses T1 T1
Greater splanchnic nerve
Gray rami to spinal nerves T2 T2 T3 T3
Lung
Celiac ganglion T4 T4 T5 T5
Superior mesenteric ganglion T6 T6
Liver and gallbladder T7 T7 T8 T8
Stomach T9 T9
Lesser splanchnic nerve
T10
T10
Spleen
T11
T11
Pancreas
T12
T12
Large intestine
Postganglionic fibers to spinal nerves (innervating skin, blood vessels, sweat glands, arrector pili muscles, adipose tissue) L1 L1 L2 L2
Lumbar splanchnic nerves
Inferior mesenteric ganglion
Small intestine L3 L3 L4 L4 L5 L5
Adrenal medulla S1 S1 S2 S2
Sacral splanchnic nerves S3
Sympathetic chain ganglia S4
Kidney S3 S4 S5 S5
Spinal cord
KEY
Coccygeal ganglia (Co1) fused together (ganglion impar)
Preganglionic fibers
Postganglionic fibers
Uterus
Ovary
Penis
Scrotum
Urinary bladder

11. Figure 16-2 Overview of the Autonomic Nervous System (Part 2 of 2).
Parasympathetic Division
(Craniosacral)
Preganglionic Neurons
Preganglionic neurons in brain stem and in lateral portion of anterior gray horns of S2–S4.
Ganglia
Ganglia are in or near the target organ. Preganglionic fibers release acetylcholine (Ach), stimulating ganglionic neurons.
Target Organs
All postganglionic fibers release Ach at neuroeffector junctions.
Parasympathetic stimulation
“Rest and digest” response
KEY
Preganglionic fibers
Postganglionic fibers

12. Parasympathetic Ganglia
Terminal ganglia
Aka intramural glanglia
Close to or within wall of visceral organ

13. Figure 16-6 The Distribution of Parasympathetic Innervation.
Pterygopalatine ganglion
N III
Lacrimal gland
Eye
Pons
Ciliary ganglion
N VII
Salivary glands
Submandibular ganglion
N IX
Otic ganglion
N X (Vagus)
Heart
Lungs
Autonomic plexuses (see Figure 16-8)
Liver and gallbladder
Stomach
Spleen
Pancreas
Large intestine
Pelvic nerves
Small intestine
Rectum
Spinal cord S2
Kidney S3 S4
KEY
Preganglionic fibers
Postganglionic fibers
Uterus
Ovary
Penis
Scrotum
Urinary bladder

14. Figure 16-8 The Autonomic Plexuses and Ganglia.
Aortic arch
Right vagus nerve
Trachea
Autonomic Plexuses and Ganglia
Left vagus nerve
Cardiac plexus
Thoracic spinal nerves
Pulmonary plexus
Esophagus
Thoracic sympathetic chain ganglia
Esophageal plexus
Splanchnic nerves
Celiac plexus and ganglion
Superior mesenteric ganglion
Diaphragm
Superior mesenteric artery
Inferior mesenteric plexus and ganglia
Inferior mesenteric artery
Hypogastric plexus
Pelvic sympathetic chain

15. Neurotransmitters & Receptors
Cholinergic
Adrenergic
Neurons release Ach
Includes
All preganglionic neurons
All parasympathetic postganglionic neurons
Sympathetic postganglionic neurons to most sweat glands
Receptors
Nicotinic
Excitatory
Muscarinic
May be excitatory or inhibitory depending on cell
Neurons release NE
Includes most sympathetic postganglionic neurons
Receptors
Alpha 1
Alpha 2
Beta 1
Beta 2

16. Table 16-1 Adrenergic and Cholinergic Receptors of the ANS.

17. Sympathetic Parasympathetic CNS Preganglionic neuron PNS
Figure 16-7 Summary: The Anatomical Differences between the Sympathetic and Parasympathetic Divisions.
Sympathetic
Parasympathetic
CNS
Preganglionic neuron
PNS
Preganglionic fiber
KEY
Sympathetic ganglion
Neurotransmitters
Acetylcholine
Norepinephrine or
Epinephrine
Ganglionic neurons
Bloodstream
Postganglionic fiber
Parasympathetic ganglion
TARGET

18. Table 16-2 A Structural Comparison of the Sympathetic and Parasympathetic Divisions of the ANS.

19. Responses Sympathetic Parasympathetic “Fight or Flight” “E” situations
Exercise
Emergency
Excitement
Embarrassment
Includes
Pupils dilate
HR, force of contraction, & BP all increase
Airways dilate
Some blood vessels vasodilate & some vasoconstrict
Stimulates glycogenolysis & lipolysis
“Rest & Digest”
Supports functions that conserve & restore body energy
SLUDD
Salivation
Lacrimation
Urination
Digestion
Defecation
Also 3 “D”s
Decreases HR
Decreases diameter of airways (bronchoconstriction)
Decreases diameter of pupils (constriction)

20. Table 16-3 A Functional Comparison of the Sympathetic and Parasympathetic Divisions of the ANS (Part 1 of 4).

21. Table 16-3 A Functional Comparison of the Sympathetic and Parasympathetic Divisions of the ANS (Part 2 of 4).

22. Table 16-3 A Functional Comparison of the Sympathetic and Parasympathetic Divisions of the ANS (Part 3 of 4).

23. Table 16-3 A Functional Comparison of the Sympathetic and Parasympathetic Divisions of the ANS (Part 4 of 4).

24. Figure 16-9 Visceral Reflexes.
Receptors in peripheral tissue
Afferent (sensory) fibers
CENTRAL NERVOUS SYSTEM
Stimulus
Long reflex
Short reflex
Processing center
in spinal cord
Peripheral effector
Response
Autonomic ganglion (sympathetic or parasympathetic)
Postganglionic neuron
Preganglionic neuron

25. Table 16-4 Representative Visceral Reflexes (Part 1 of 2).

26. Table 16-4 Representative Visceral Reflexes (Part 2 of 2).

27. Figure diagrams the functional relationships between the nervous system and other body systems we have studied so far.
SYSTEM INTEGRATOR
Body System
Nervous System
Nervous System
Body System
Provides sensations of touch, pressure,
pain, vibration, and temperature; hair
provides some protection and insulation
for skull and brain; protects peripheral
nerves
Controls contraction of arrector pili
muscles and secretion of sweat glands
Integumentary
Integumentary
Page 174
Provides calcium ions for neural
function; protects brain and spinal cord
Controls skeletal muscle contractions
that results in bone thickening and
maintenance and determine bone
position
Skeletal
Skeletal
Page 285
Facial muscles express emotional
state; intrinsic laryngeal muscles
permit communication; muscle
spindles provide proprioceptive
sensations
Controls skeletal muscle contractions;
coordinates respiratory and
cardiovascular activities
Muscular
Muscular
Page 380
The Nervous System
The nervous system is closely integrated with other body systems. Every moment of your life, billions of neurons in your nervous system are exchanging information across
trillions of synapses and
performing the most
complex integrative
functions in the body. As
part of this process, the
nervous system monitors all
other systems and issues
commands that adjust their
activities. However, the
significance and impact of
these commands varies
greatly from one system to
another. The normal functions of the muscular system, for example, simply cannot be performed without instructions from the nervous system. By contrast, the cardiovascular system is relatively independent—the nervous system merely coordinates and adjusts cardiovascular activities to meet the circulatory demands of other systems. In the final analysis, the nervous system is like the conductor of an orchestra, directing the rhythm and balancing the performances of each section to produce a symphony, instead of simply
a very loud noise.
Endocrine
Page 647
Cardiovascular
Page 776
Lymphatic
Page 824
Respiratory
Page 874
Digestive
Page 929
Urinary
Page 1010
Reproductive
Page 1090