Lesson 19

Question 1

somatic nervous system (3)

Answer 1

• operates under conscious control
• controls skeletal muscles
• seldom affect long term survival

Question 2

autonomic nervous system (4)

Answer 2

• visceral motor system
• operates without conscious instructions
• controls things like cardiac/smooth muscles, glands, adipocytes
• coordinates organ systems

Question 3

primary target organs of the autonomic nervous system (2)

Answer 3

1. viscera of the thoracic and abdominal cavities
2. structures of the body wall like cutaneous blood vessels, sweat glands, arrector muscles

Question 4

what happens when you sever the ANS nerves to organs?

Answer 4

it results in an exaggerated response; denervation hypersensitivity

Question 5

visceral reflexes

Answer 5

unconscious, automatic, stereotyped responses to stimulation involving visceral receptors and effectors that is controlled by the autonomic nervous system

Question 6

visceral reflex arc

Answer 6

1. receptors
2. afferent neuron
3. integrating center
4. efferent neurons
5. effectors

Question 7

sympathetic division of the ANS

Answer 7

prepares body for physical activity like exercise, trauma, arousal, etc.; fight or flight

Question 8

parasympathetic division of the ANS

Answer 8

calms many body functions, reducing energy expenditure and assists in bodily maintenance; resting and digesting state

Question 9

autonomic tone

Answer 9

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

Question 10

the ANS has components in both the central and peripheral nervous system (3)

Answer 10

• control nuclei in the hypothalamus and other brainstem regions
• motor neurons can be located in the spinal cord and peripheral ganglia
• nerve fibers that travel through

Question 11

in a somatic pathway…

a neuron does what?

Answer 11

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

Question 12

in an autonomic pathway…

where must a signal travel?

Answer 12

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

Question 13

preganglionic fiber

Answer 13

cell body in the brainstem or spinal cord; its axon that extends to the autonomic ganglion

Question 14

what is the neurotransmitter of the presynaptic neuron? (preganglionic fiber)

Answer 14

ACh; acetylcholine

Question 15

what is the neurotransmitter of the postsynaptic neuron? (postganglionic fiber)

Answer 15

ACh or NE; acetylcholine or norepinephrine

Question 16

anatomy of the sympathetic division (2)

Answer 16

• pathways arise from thoracic and lumbar regions of the spinal cord; aka the thoracolumbar division
• relatively short preganglionic and long postganglionic fibers

Question 17

sympathetic division general pathway (4)

Answer 17

• cell bodies of preganglionic neurons in lateral horns and nearby regions of spinal grey matter; fibers exit the cord via spinal nerves T1 to L2
• lead to nearby sympathetic chain of ganglia
• usually 3 cervical, 11 thoracic, 4 lumbar, and 4 sacral, and 1 coccygeal
• sympathetic fibers are in every level of the body

Question 18

paravertebral ganglia

Answer 18

a series of longitudinal ganglia adjacent to both sides of the vertebral column from cervical to coccygeal levels

Question 19

where are preganglionic neurons located in the sympathetic division?

Answer 19

T1 to L2 of the spinal cord

Question 20

where are the cell bodies of the preganglionic neurons located?

Answer 20

the lateral gray horns of the spinal cord

Question 21

axons leave the _____ _____ and enter the _____ _____ of segments before terminating on _____ neurons

Answer 21

spinal cord, central roots, ganglionic

Question 22

Typically, the axon of the _____ neuron is short and the axon of the _____ neuron is long

Answer 22

preganglionic, postganglionic

Question 23

seven responses to increased sympathetic activity

Answer 23

1. heightened mental alertness
2. increased metabolic rate
3. reduced digestive and urinary function
4. energy reserves activated
5. increased respiratory rate and respiratory passageway dilate
6. increased heart rate and blood pressure
7. sweat glands activated

Question 24

the ganglionic neurons in the sympathetic division are located in three possible areas:

Answer 24

1. sympathetic chain ganglia
2. collateral ganglia
3. adrenal medullae

Question 25

sympathetic chain ganglia (2)

Answer 25

• on both sides of the vertebral column
• control effectors in the body wall, thoracic cavity, head, and limbs

Question 26

collateral ganglia (3)

Answer 26

• anterior to vertebral bodies
• contain ganglionic neurons that innervate tissues and organs in the abdominopelvic cavity
• preganglionic axons that synapse here are from the motor neurons in the CNS

Question 27

adrenal medullae (3)

Answer 27

• very short axons (are endocrine cells); innervated by axons from the CNS that travel through the sympathetic chain and collateral ganglia
• when stimulated, release neurotransmitters into BLOODSTREAM (ACh and NE)
• function as hormones to affect target cells throughout body

Question 28

adrenal (suprarenal) glands

Answer 28

paired glands located on superior poles of kidneys; each is two glands with different functions

Question 29

adrenal cortex

Answer 29

outer later, secretes steroid hormones

Question 30

adrenal medulla

of the adrenal glands

Answer 30

inner core; essentially a sympathetic ganglion

Question 31

stimulation of sympathetic preganglionic neurons (2)

Answer 31

• release ACh at synapses with ganglionic neurons
• always excitatory on ganglionic neurons

Question 32

stimulation of sympathetic ganglionic neurons

does what?

Answer 32

release neurotransmitters from the postganglionic axons at specific target organs; mostly NE but some release ACh

Question 33

ganglionic neurons - axon terminals (2)

Answer 33

• from branching networks of telodendria instead of synaptic terminals
• telodendria form sympathetic varicosities (resemble pearls)

Question 34

varicosities mostly release what neurotransmitter?

Answer 34

norepinephrine; adrenergic neuron
- some release ACh and are cholinergic

Question 35

where are ganglionic cholinergic neurons located? (4)

Answer 35

body wall, skin, brain, and skeletal muscle

Question 36

sympathetic activation

Answer 36

activates the entire sympathetic division during a crisis

Question 37

how does sympathetic activation change activities of tissues? (4)

Answer 37

• distributes NE at peripheral synapses
• targets specific effectors
• distributing E and NE throughout body in bloodstream
• also alterns CNS activity

Question 38

what is sympathetic activation controlled by?

Answer 38

centers in the hypothalamus

Question 39

stimulating what causes increased alertness during sympathetic activation?

Answer 39

reticular activating system

Question 40

stimulating what areas causes changes in breathing during sympathetic activation?

Answer 40

pons and medulla

Question 41

in the parasympathetic pathways, the preganglionic fibers are _____ and the postganglionic are _____

Answer 41

long, short

Question 42

preganglionic fibers in the parasympathetic pathways travel through cranial or sacral nerves, and end in ______ _____ in or near the target

Answer 42

terminal ganglia

Question 43

what cranial nerves control visceral structures in the head? (3)

Answer 43

III - oculomotor
VII - facial
IX - glossopharyngeal

Question 44

parasympathetic preganglionic fibers leave the brain as part of these cranial nerves (4)

Answer 44

III - oculomotor
VII - facial
IX - glossopharyngeal
X - vagus (75% of parasympathetic outflow)

Question 45

parasympathetic preganglionic fibers leave the spinal cord as _____ nerves

Answer 45

pelvic

Question 46

the _____ nerve innervates structures in the neck, thoracic and abdominopelvic cavities

Answer 46

vagus

Question 47

all neuromuscular and neuroglandular junctions release what as a neurotransmitter?

Answer 47

acetylcholine

Question 48

five responses to increased parasympathetic activity

Answer 48

1. decreased metabolic rate
2. decreased heart rate and blood pressure
3. increased secretion by salivary and digestive glands
4. increased motility (movement of material in the digestive tract) and blood flow in the digestive tract
5. urinary and defecation stimulation

Question 49

enteric plexus

Answer 49

the nervous network of the digestive tract
- aka enteric nervous system

Question 50

where does the enteric nervous system arise from?

Answer 50

not the brainstem or spinal cord lol idk

Question 51

what does the enteric nervous system innervate? (2)

Answer 51

• smooth muscle
• glands

Question 52

what does the enteric nervous system regulate?

Answer 52

• esophagus
• stomach
• intestines
• secretion of digestive enzymes and acids

Question 53

acetylcholine (ACh)

Answer 53

secreted by all preganglionic neurons in both divisions and by postganglionic parasympathetic neurons

Question 54

cholinergic neurons

Answer 54

neurons that secrete ACh

Question 55

cholinergic receptor

Answer 55

any receptor that binds ACh

Question 56

muscarinic receptors

Answer 56

found on cardiac muscle, smooth muscle, and gland cells with cholinergic innervation

Question 57

nicotinic receptors

Answer 57

found on postganglionic neuron cell bodies in autonomic ganglia; on cells of adrenal medulla; and neuromuscular junction of skeletal muscle fibers

Question 58

nicotine (2)

Answer 58

• binds to nicotine receptors in sympathetic and parasympathetic ganglion cells
• targets autonomic ganglia and skeletal neuromuscular junctions

Question 59

signs and symptoms of nicotine poisoning (7)

Answer 59

• vomiting
• diarrhea
• high blood pressure
• rapid heart rate
• sweating
• profuse salivation
• convulsions

Question 60

muscarine

Answer 60

toxin produced from some poisonous mushrooms

Question 61

what does muscarine target?

Answer 61

parasympathetic neuromuscular or neuroglandular junctions

Question 62

signs and symptoms of muscarine poisoning (7)

Answer 62

• salivation
• nausea
• vomiting
• diarrhea
• constriction of respiratory passages
• low blood pressure
• slow heart rate

Question 63

norepinephrine

Answer 63

secreted by nearly all sympathetic postganglionic neurons

Question 64

adrenergic fibers

Answer 64

nerve fibers that secrete NE

Question 65

adrenergic receptors

Answer 65

receptors for NE

Question 66

alpha-adrenergic receptors (2)

Answer 66

• usually excitatory
• two subclasses use different second messengers

Question 67

beta-adrenergic receptors

Answer 67

• usually inhibitory
• two subclasses with different effects, but both act through cAMP as a second messenger

Question 68

alpha-1 adrenergic messenger (3)

Answer 68

more common type
- releases intracellular calcium ions from reserves in ER
- has excitatory effect on target cells ie. causes constriction of smooth muscle blood vessels at digestive and urinary tract

Question 69

alpha-2 adrenergic messenger (3)

Answer 69

• lowers cAMP levels in cytoplasm
• has inhibitory effect on the cell
• helps coordinate sympathetic and parasympathetic activities

Question 70

beta receptors (4)

Answer 70

• affect membranes in many organs (skeletal muscle, lungs, heart, liver)
• triggers metabolic changes in target cells
• stimulation increase intracellular cAMP levels
• binding of NE/E causes opposite effect on cAMP compares to alpha-2 receptors

Question 71

three main types of beta receptors

Answer 71

beta-1, beta-2, and beta-3

Question 72

beta-1 receptors (2)

Answer 72

• increases metabolic activity
• increase activity of skeletal and cardiac muscle

Question 73

beta-2 receptors

Answer 73

• triggers relaxation of smooth muscles along respiratory tract
• increases diameter of air passages

Question 74

beta-3 receptors (2)

Answer 74

• leads to lipolysis, the breakdown of triglycerides in adipocytes
• releases nutrients into bloodstream

Question 75

cholinergic sympathetic terminals (2)

Answer 75

• innervates sweat glands of skin and blood vessels of skeletal muscles and brain
• stimulate sweat gland secretion and dilate blood vessels to skeletal muscles and brain

Question 76

autonomic effects on glandular secretions (2)

Answer 76

• increased blood flow, increased secretion
• decreased blood flow, decreased secretion

Question 77

sympathetic effects tend to last longer than parasympathetic effects (2)

NE breakdown vs. ACh breakdown

Answer 77

• NE released by sympathetic fibers can be reabsorbed by axon terminal, diffuse to adjacent tissues, or pass into bloodstream
• ACh from parasympathetic fibers broke down quickly at the synapse

Question 78

some ANS fibers release other neurotransmitters in addition to ACh or NE

Answer 78

enkephalin, substance P, neuropeptide Y, somatostatin, neurotensin, etc.

Question 79

dual innervation

Answer 79

most viscera receive nerve fibers from both parasympathetic and sympathetic divisions

Question 80

antagonistic effects (3)

Answer 80

oppose each other
- can be exerted through dual innervation of same effector cells
- can be exerted because each division innervates different cells

Question 81

cooperative effects (2)

Answer 81

two divisions act on different effectors to produce a unified overall effect
- even when both divisions innervate a single organ, innervation is not always equal or exert equal influence

Question 82

dual innervation _____ always necessary for ANS to produce opposite effects in an organ

Answer 82

NOT

Question 83

what receptors receive only sympathetic fibers (4)

Answer 83

• adrenal medulla
• arrector muscles
• sweat glands
• many blood vessels

Question 84

vasomotor tone

Answer 84

vessels in a continual state of partial constriction

Question 85

blood vessels and sweat glands are _____ dual innervated

Answer 85

not, only innervated by the sympathetic division

Question 86

cerebral cortex and limbic system - ANS

Answer 86

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

Question 87

hypothalamus - ANS

Answer 87

contains nuclei for primitive functions; hunger, thirst, sex

Question 88

midbrain, pons, and medulla oblongata - ANS

Answer 88

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

Question 89

spinal cord - ANS

Answer 89

reflexes for defecation and micturition

Question 90

neuropharmacology

Answer 90

study of effects of drugs on the nervous system

Question 91

sympathomimetics (3)

Answer 91

enhance sympathetic activity
- stimulate receptors or increase norepinephrine
- cold medicines that dilate the bronchioles or constrict nasal blood vessels

Question 92

sympatholytics suppress sympathetic activity (2)

Answer 92

• block receptors or inhibit norepinephrine
• beta blockers reduce high BP interfering with the effects of epinephrine and norepinephrine on heart and blood vessels

Question 93

parasympathomimetics

Answer 93

enhance parasympathetic effects

Question 94

parasympatholytics

Answer 94

suppress parasympathetic effects

Question 95

Prozac

Answer 95

SSRI, blocks reuptake of serotonin to prolong its mood-elevating effect

Question 96

MAO inhibitors

Answer 96

block enzyme monoamine oxidase to slow the breakdown of monoamine neurotransmitters
- aids in treating depression

Question 97

caffeine

Answer 97

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