The Autonomic Nervous System
(pp. 524–527)
Comparison of the Somatic and Autonomic
Nervous Systems (pp. 525–526)
ANS Divisions (pp. 526–527)
ANS Anatomy
(pp. 527–533)
Parasympathetic (Craniosacral)
Division (pp. 527–529)
Sympathetic (Thoracolumbar) Division
(pp. 529–533)
Visceral Reflexes (p. 533)
ANS Physiology
(pp. 533–539)
Neurotransmitters and Receptors
(pp. 533–535)
The Effects of Drugs (p. 535)
Interactions of the Autonomic
Divisions (pp. 535–537)
Control of Autonomic Function
(pp. 538–539)
Homeostatic Imbalances of the ANS
(p. 539)
Developmental Aspects of the ANS
(p. 539)
he human body is exquisitely sensitive to changes in its internal
and engages in a lifelong struggle to balance competing demands
for resources under ever-changing conditions. Although all body systems contrib-
ute, the stability of our internal environment depends largely on the
autonomic nervous
system (ANS)
, the system of motor neurons that innervates smooth and cardiac muscle
and glands
(Figure 14.1)
At every moment, signals stream from visceral organs into the CNS, and autonomic nerves
make adjustments as necessary to ensure optimal support for body activities. In response to
changing conditions, the ANS shunts blood to “needy” areas, speeds or slows heart rate,
adjusts blood pressure and body temperature, and increases or decreases stomach secretions.
Most of this fine-tuning occurs without our awareness or attention. Can you tell when
your arteries are constricting or your pupils are dilating? Probably not—but if you’ve
ever been stuck in a checkout line, and your full bladder was contracting as if it had a
mind of its own, you’ve been very aware of visceral activity. Te ANS controls all these
functions, both those we’re aware of and those we’re not. Indeed, as the term
govern) implies, this motor subdivision of the peripheral nervous
system has a certain amount of functional independence. Te ANS is also called the
involuntary nervous system
, which reflects its subconscious control, or the
visceral motor system
, which indicates the location of most of its effectors.
Define autonomic nervous system and explain its relationship to the peripheral
nervous system.
Compare the somatic and autonomic nervous systems relative to effectors, efferent
pathways, and neurotransmitters released.
Compare and contrast the functions of the parasympathetic and sympathetic divisions.
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