Deck 22: Autonomic Nervous System

A) sweat glands.
B) skin blood vessels.
C) the liver.
D) the urinary bladder.

A) They are usually longer than preganglionic neurons.
B) They produce acetylcholine.
C) They produce norepinephrine.
D) They have acetylcholine receptors on their dendrites.

A) direction of information flow.
B) location of peripheral fibers.
C) number of neurons between central nervous system (CNS) and effector.
D) acetylcholine.

A) Goose pimples
B) Dilation of blood vessels to skeletal muscles
C) Increased blood sugar
D) Increased peristalsis in the digestive tract

A) The parasympathetic division is the dominant controller of most autonomic effectors most of the time.
B) Under quiet, nonstressful conditions, more impulses reach autonomic effectors by cholinergic parasympathetic fibers than by adrenergic sympathetic fibers.
C) The major function of the parasympathetic division is to serve as an "emergency" system.
D) Parasympathetic stimulation causes an increase in the secretion of pancreatic juice and insulin.

A) are cholinergic.
B) bind acetylcholine.
C) bind norepinephrine.
D) bind the toxin muscarine.

A) the dendrite ending.
B) parasympathetic preganglionic nerve endings.
C) most sympathetic postganglionic nerve endings.
D) sympathetic preganglionic nerve endings.

A) they secrete acetylcholine.
B) they have long fibers from CNS to ganglion.
C) dendrites and cell bodies are found in the lateral gray columns of thoracic and the first four lumbar segments of the spinal cord.
D) All of the above are correct.

A) the white columns of the sacral segments of the spinal cord.
B) the lateral gray columns of thoracic segments of the spinal cord.
C) nuclei of the brainstem and the lateral gray columns of the sacral cord.
D) collateral ganglia.

A) synapse with a sympathetic postganglionic neuron.
B) send ascending and/or descending branches through the sympathetic trunk to synapse with postganglionic neurons in other chain ganglia.
C) pass through one or more ganglia without synapsing.
D) do all of the above.

A) they reach visceral effectors faster than parasympathetic impulses.
B) myoneural junctions contain a substance that inactivates acetylcholine.
C) preganglionic fibers are short and postganglionic fibers are long.
D) preganglionic fibers synapse with several postsynaptic fibers.

A) coordination of muscular activity.
B) innervation of smooth muscle in the viscera.
C) reception of sensory impulses.
D) arousal of alerting mechanism.

A) All of its axons are afferent fibers.
B) It operates without conscious control.
C) It regulates visceral activities.
D) All of its neurons are motor.

A) the parasympathetic nervous system.
B) the sympathetic nervous system.
C) both the parasympathetic and the sympathetic nervous systems.
D) None of the above would account for the symptoms.

A) beta blocker.
B) drug used to treat irregular heartbeats.
C) drug used to treat hypertension.
D) All of the above are correct.

A) contraction of the urinary bladder.
B) relaxation of the sphincters of the digestive tract.
C) increased salivation.
D) increased heart rate.

A) acetylcholine.
B) norepinephrine.
C) the toxin muscarine.
D) none of the above.

A) increased conversion of glycogen into glucose.
B) constriction of respiratory airways.
C) increased sweating.
D) dilation of blood vessels in skeletal muscles.

A) Skeletal muscles
B) Blood vessels
C) Sweat glands
D) Iris of the eye

A) are hydrolyzed by the enzyme acetylcholine.
B) continually conduct impulses to autonomic effectors.
C) continually conduct impulses to the brain.
D) have opposing effects.

A) A dually innervated effector receives input from both sympathetic and parasympathetic pathways. A singly innervated autonomic effector receives input from only the sympathetic division.
B) A dually innervated effector receives input from both sympathetic and parasympathetic pathways. A singly innervated autonomic effector receives input from only the parasympathetic division.
C) A dually innervated effector utilizes both acetylcholine and norepinephrine as neurotransmitters. A singly innervated autonomic effector utilizes only acetylcholine.
D) A dually innervated effector utilizes both acetylcholine and norepinephrine as neurotransmitters. A singly innervated autonomic effector uses only norepinephrine.

A) alpha
B) beta
C) nicotinic
D) both alpha and beta

A) Hormones secreted by the adrenal medulla may reach the various sympathetic effectors, where they would enhance and prolong the effects of the sympathetic stimulation.
B) Hormones secreted by the pituitary gland may reach various sympathetic effectors, where they would enhance and prolong the effects of the sympathetic stimulation.
C) Hormones secreted by the adrenal medulla may not reach the various sympathetic effectors, thus delaying the effects of sympathetic stimulation.
D) Hormones secreted by the pituitary gland may not reach the various sympathetic effectors, thus delaying the effects of sympathetic stimulation.

A) alpha
B) beta
C) nicotinic
D) both alpha and beta

A) If sympathetic impulses tend to inhibit the effector, parasympathetic impulses tend to stimulate it.
B) If sympathetic impulses inhibit autonomic centers, parasympathetic impulses tend to stimulate them.
C) If sympathetic impulses tend to stimulate an effector, parasympathetic impulses tend to inhibit it.
D) If sympathetic impulses initiate nerve conduction, parasympathetic impulses stop nerve conduction.

A) They are usually shorter than the preganglionic neurons.
B) They produce acetylcholine as a neurotransmitter.
C) They produce norepinephrine as a neurotransmitter.
D) They have acetylcholine receptors on their dendrites.