0-1 Chapter 15 - Autonomic Nervous System

Question 1

Autonomic Nervous System

Answer 1

• portion of the nervous system that operates in comparative secrecy
• it manages a multitude of unconscious processes responsible for the body’s homeostasis

Question 2

autonomic nervous system (ANS)

Answer 2

a motor nervous system that controls glands, cardiac muscle, and smooth muscle
carries out actions involuntarily–without our conscious intent or awareness

Question 3

visceral motor system

Answer 3

autonomic nervous system (ANS)

Question 4

primary organs of the ANS

Answer 4

•viscera of thoracic and abdominal cavities
•some structures of the body wall
–cutaneous blood vessels
–sweat glands
–piloerector muscles

Question 5

denervation hypersensitivity

Answer 5

exaggerated response of cardiac and smooth muscle if autonomic nerves are severed

Question 6

visceral reflexes

Answer 6

unconscious, automatic, stereotyped responses to stimulation involving visceral receptors and effectors and somewhat slower responses

Question 7

visceral reflex arc

Answer 7

–receptors–nerve endings that detect stretch, tissue damage, blood chemicals, body temperature, and other internal stimuli
–afferent neurons –leading to the CNS
–interneurons–in the CNS
–efferent neurons –carry motor signals away from the CNS
–effectors–that make adjustments

Question 8

Visceral Reflex to High BP

Answer 8

high blood pressure detected by arterial stretch receptors (1), afferent neuron (2) carries signal to CNS, efferent (3) signals travel to the heart (4), heart slows reducing blood pressure

Question 9

Divisions of ANS

Answer 9

•two divisions innervate same target organs
–may have cooperative or contrasting effects
sympathetic division
parasympathetic division

Question 10

sympathetic division

Answer 10

prepares body for physical activity –exercise, trauma, arousal, competition, anger, or fear
•increases heart rate, BP, airflow, blood glucose levels, etc
•reduces blood flow to the skin and digestive tract

Question 11

parasympathetic division

Answer 11

calms many body functions reducing energy expenditure and assists in bodily maintenance
•digestion and waste elimination
•“resting and digesting” state

Question 12

autonomic tone

Answer 12

normal background rate of activity that represents the balance of the two systems according to the body’s changing needs

Question 13

parasympathetic tone

Answer 13

• maintains smooth muscle tone in intestines

* holds resting heart rate down to about 70 –80 beats per minute

Question 14

sympathetic tone

Answer 14

keeps most blood vessels partially constricted and maintains blood pressure

Question 15

balance between sympathetic and parasympathetic

Answer 15

sympathetic division excites the heart but inhibits digestive and urinary function, while parasympathetic has the opposite effect

Question 16

Neural Pathways

Answer 16

ANS has components in both the central and peripheral nervous systems
–control nucleus in thehypothalamus and other brainstem regions
–motor neurons in the spinal cord and peripheral ganglia
–nerve fibers that travel through the cranial and spinal nerves

Question 17

somatic motor pathway

Answer 17

–a motor neuron from the brainstem or spinal cord issues a myelinated axon that reaches all the way to the skeletal muscle

Question 18

autonomic pathway

Answer 18

–signal must travel across two neurons to get to the target organ
–must cross a synapse where these two neurons meet in an autonomic ganglion

Question 19

presynaptic neuron

Answer 19

the first neuron has a soma in the brainstem or spinal cord

Question 20

postganglionic neuron

Answer 20

synapses with a postganglionic neuron whose axon extends the rest of the way to the target cell

Question 21

ANS –two neurons from CNS to effectors

Answer 21

• presynaptic neuron whose cell body is in CNS

* postsynaptic neuron cell body in peripheral ganglion

Question 22

Sympathetic Nervous System

Answer 22

also called the thoracolumbar division because it arises from the thoracic and lumbar regions of the spinal cord
relatively short preganglionic and long postganglionic fibers

Question 23

preganglionic neurosomas

Answer 23

in lateral horns and nearby regions of the gray matter of spinal cord
–fibers exit spinal cord by way of spinal nerves T1 to L2
–lead to nearby sympathetic chain of ganglia (paravertebral ganglia)

Question 24

sympathetic chain of ganglia

Answer 24

• series of longitudinal ganglia adjacent to both sides of the vertebral column from cervical to coccygeal levels
• usually 3 cervical, 11 thoracic, 4 lumbar, 4 sacral, and 1 coccygeal ganglion
• sympathetic nerve fibers are distributed to every level of the body

Question 25

preganglionic fibers are

Answer 25

small myelinated fibers that travel form spinal nerve to the ganglion by way of the white communicating ramus (myelinated)

Question 26

postganglionic fibers leave the ganglion by way

Answer 26

of the gray communicating ramus (unmyelinated)

•forms a bridge back to the spinal nerve

Question 27

postganglionic fibers extend

Answer 27

postganglionic fibers extend the rest of the way to the target organ

Question 28

after entering the sympathetic chain, the preganglionic fibers may follow any of three courses

Answer 28

some end in ganglia
some travel up or down the chain
some pass through the chain without synapsing

Question 29

nerve fibers leave the sympathetic chain by

Answer 29

spinal, sympathetic, and splanchnic nerves

Question 30

spinal nerve route

Answer 30

• some postganglionic fibers exit a ganglion by way of the gray ramus
• returns to the spinal nerve and travels the rest of the way to the target organ
• most sweat glands, piloerector muscles, and blood vessels of the skin and skeletal muscles

Question 31

sympathetic nerve route

Answer 31

•other nerves leave by way of sympathetic nerves that extend to the heart, lungs, esophagus and thoracic blood vessels
•these nerves form carotid plexus around each carotid artery of the neck
•issue fibers from there to the effectors in the head
–sweat, salivary, nasal glands, piloerector muscles, blood vessels, dilators of iris
•some fibers of superior and middle cervical ganglia form cardiac nerves to the heart

Question 32

splanchnic nerve route

Answer 32

splanchnic nerve route
•some fibers that arise from spinal nerves T5 to T12 pass through the sympathetic ganglia without synapsing
–continue on as the splanchnic nerves
–lead to second set of ganglia –collateral (prevertebral) ganglia and synapse there

Question 33

abdominal aortic plexus

Answer 33

–wraps around abdominal aorta
–three major collateral ganglia in this plexus
•celiac, superior mesenteric, and inferior mesenteric
•postganglionic fibers accompany these arteries and their branches to their target organs

Question 34

solar plexus

Answer 34

collective name for the celiac and superior mesenteric ganglia
•nerves radiate from ganglia like rays of the sun

Question 35

neuronal divergence predominates

Answer 35

–each preganglionic cell branches and synapses on 10 to 20 postganglionic cells
–one preganglionic neuron can excite multiple postganglionic fibers leading to different target organs
–have relatively widespread effects

Question 36

effectors in body wall are innervated by

Answer 36

sympathetic fibers in spinal nerves

Question 37

effectors in head and thoracic cavity are innervated by

Answer 37

fibers in sympathetic nerves

Question 38

effectors in abdominal cavity are innervated by

Answer 38

sympathetic fibers in splanchnic nerves

Question 39

Adrenal Glands

Answer 39

• paired adrenal (suprarenal) glands on superior poles of the kidneys
• each is two glands with different functions

Question 40

adrenal cortex

Answer 40

(outer layer)

•secretes steroid hormones

Question 41

adrenal medulla

Answer 41

(inner core)
•essentially a sympathetic ganglion
•consists of modified postganglionic neurons without dendrites or axons
–stimulated by preganglionic sympathetic neurons that terminate on these cells
•secretes a mixture of hormones into bloodstream
–catecholamines -85% epinephrine(adrenaline) and 15% norepinephrine (noradrenaline)
–also function as neurotransmitters

Question 42

sympathoadrenal system

Answer 42

is the closely related functioning adrenal medulla and sympathetic nervous system

Question 43

parasympathetic division is also called the

Answer 43

craniosacral division
–arises from the brain and sacral regions of the spinal cord
–fibers travel in certain cranial and sacral nerves

Question 44

terminal ganglia

Answer 44

in or near target organs

–long preganglionic, short postganglionic fibers

Question 45

neuronal divergence

Answer 45

less than sympathetic division

–one preganglionic fiber reaches the target organ and then stimulates fewer than 5 postganglionic cells

Question 46

Parasympathetic Cranial Nerves

Answer 46

• Oculomotor nerve (III)
• Facial nerve (VII)
• Glossopharyngeal nerve (IX)
• Vagus nerve (X)

Question 47

Efferent Pathways

Answer 47

remaining parasympathetic fibers arise from levels S2to S4of the spinal cord
•form pelvic splanchnic nerves that lead to the inferior hypogastric plexus
•most form pelvic nerves to their terminal ganglion on the target organs

Question 48

enteric nervous system

Answer 48

the nervous system of the digestive tract
–does not arise from the brainstem or spinal cord
–does innervate smooth muscle and glands

Question 49

regulates motility

Answer 49

of esophagus, stomach, and intestines and secretion of digestive enzymes and acid
•normal digestive function also requires regulation by sympathetic and parasympathetic systems

Question 50

megacolon

Answer 50

massive dilation of bowel accompanied by abdominal distension and chronic constipation

Question 51

Hirschsprung disease

Answer 51

hereditary defect causing absence of enteric nervous system

Question 52

how can different autonomic neurons have different effects? constricting some vessels but dilating others

Answer 52

2 fundamental reasons:
–sympathetic and parasympathetic fibers secrete different neurotransmitters
–target cells respond to the same neurotransmitter differently depending upon the type of receptor they have for it
•all autonomic fibers secrete either acetylcholine or norepinephrine
•there are 2 classes of receptors for each of these neurotransmitters

Question 53

Acetylcholine (ACh)

Answer 53

ACh is secreted by all preganglionic neurons in both divisions and the postganglionic parasympathetic neurons
–called cholinergic fibers
–any receptor that binds it is called cholinergic receptor

Question 54

2 types of cholinergic receptors

Answer 54

muscarinic receptors

nicotinic receptors

Question 55

muscarinic receptors

Answer 55

• all cardiac muscle, smooth muscle, and gland cells have muscarinic receptors
• excitatory or inhibitory due to subclasses of muscarinic receptors

Question 56

nicotinic receptors

Answer 56

on all ANS postganglionic neurons, in the adrenal medulla, and at neuromuscular junctions of skeletal muscle
•excitatory when ACh binding occurs

Question 57

Norepinephrine (NE)

Answer 57

NE is secreted by nearly all sympathetic postganglionic neurons
–called adrenergic fibers
–receptors for it called adrenergic receptors

Question 58

alpha-adrenergic receptors

Answer 58

–usually excitatory

–2 subclasses use different second messengers (α1& α2)

Question 59

beta-adrenergic receptors

Answer 59

–usually inhibitory

–2 subclasses with different effects, but both act through cAMP as a second messenger (β1& β2)

Question 60

autonomic effects on glandular secretion are often

Answer 60

an indirect result of their effect on blood vessels
–vasodilation –increased blood flow –increased secretion
–vasoconstriction–decreased blood flow –decreased secretion

Question 61

sympathetic effects tend to last longer than

Answer 61

parasympathetic effects
–ACh released by parasympathetics is broken down quickly at synapse
–NE by sympathetics is reabsorbed by nerve, diffuses to adjacent tissues, and much passes into bloodstream

Question 62

dual innervation

Answer 62

most viscera receive nerve fibers from both parasympathetic and sympathetic divisions

Question 63

antagonistic effect

Answer 63

oppose each other
–exerted through dual innervation of same effector cells
–exerted because each division innervates different cells

Question 64

cooperative effects

Answer 64

two divisions act on different effectors to produce a unified overall effect

Question 65

Without Dual Innervation

Answer 65

some effectors receive only sympathetic fibers

Question 66

vasomotor tone

Answer 66

a baseline firing frequency of sympathetics

Question 67

ANS regulated by several levels of CNS

Answer 67

cerebral cortex
hypothalamus
midbrain, pons, and medulla oblongata contain
spinal cord reflexes

Question 68

cerebral cortex

Answer 68

has an influence –anger, fear, anxiety

•powerful emotions influence the ANS because of the connections between our limbic system and the hypothalamus

Question 69

hypothalamus

Answer 69

major visceral motor control center

•nuclei for primitive functions –hunger, thirst, sex

Question 70

midbrain, pons, and medulla oblongata contain

Answer 70

•nuclei for cardiac and vasomotor control, salivation, swallowing, sweating, bladder control, and pupillary changes

Question 71

spinal cord reflexes

Answer 71

• defecation and micturition reflexes are integrated in spinal cord
• we control these functions because of our control over skeletal muscle sphincters…if the spinal cord is damaged, the smooth muscle of bowel and bladder is controlled by autonomic reflexes built into the spinal cord

Question 72

neuropharmacology

Answer 72

study of effects of drugs on the nervous system

Question 73

sympathomimetics

Answer 73

sympathomimetics enhance sympathetic activity
–stimulate receptors or increase norepinephrine release
•cold medicines that dilate the bronchioles or constrict nasal blood vessels

Question 74

sympatholytics

Answer 74

sympatholytics suppress sympathetic activity
–block receptors or inhibit norepinephrine release
•beta blockers reduce high BP interfering with effects of epinephrine/norepinephrine on heart and blood vessels

Question 75

parasympathomimetics

Answer 75

parasympathomimetics enhance activity

Question 76

parasympatholytics

Answer 76

parasympatholytics suppress activity

Question 77

caffeine competes with

Answer 77

adenosine(the presence of which causes sleepiness) by binding to its receptors