FINAL EXAM: Unit 2

Question 1

afferent / sensory neurons

Answer 1

take into TO the CNS

Question 2

efferent / motor neurons

Answer 2

take info FROM the CNS

Question 3

what do Schwann cells do?

Answer 3

myelination of PNS

Question 4

what do oligodendrocytes do?

Answer 4

myelination of CNS

Question 5

what do satellite cells do?

Answer 5

protective layer around cell bodies

Question 6

what do astrocytes do?

Answer 6

form BBB, NT uptake

Question 7

what opens mechanically-gated channels?

Answer 7

pressure, stretch

Question 8

what opens chemically-gated channels?

Answer 8

ligand & receptor

Question 9

what opens voltage-gated channels?

Answer 9

cell membrane potential (depo, hyper)

Question 10

which type of potential, graded or action, is excitatory and inhibitory?

Answer 10

graded potential

Question 11

which type of potential, graded or action, contains only voltage-gated channels for K+ and Na+?

Answer 11

action potential

Question 12

what happens during the depolarization stage of an action potential?

Answer 12

Na+ entry
-IG open
-AG open

Question 13

what happens during the repolarization stage of an action potential?

Answer 13

K+ exits
-IG close
-AG open

Question 14

what is an absolute refractory period?

Answer 14

no stimulus can trigger AP

Question 15

what is a relative refractory period?

Answer 15

larger than normal stimulus can trigger

Question 16

how does hyperkalemia impact action potentials?

Answer 16

RMP increases
-a smaller stimulus can trigger AP

Question 17

how does hypokalemia impact action potentials?

Answer 17

RMP decreases
-need a larger stimulus to trigger AP

Question 18

what receptors does ACh use? whats the difference b/w them?

Answer 18

nicotinic: ionotropic (receptor/ion), Na+ entry, excitatory
muscarinic: metabotropic (GPCR)

Question 19

what type of receptor do amines use?

Answer 19

NE, E, dopamine
-metabotropic (alpha, beta)

Question 20

what type of receptor do amino acids use? describe the effects of each major type of AA

Answer 20

ionotropic
-glutamate: excitatory, Na+ entry
-GABA, glycine: inhibitory, Cl- entry

Question 21

what type of receptor do purines use?

Answer 21

adenosine, ATP, cAMP
-metabotropic

Question 22

what type of receptor do gases use?

Answer 22

NO RECEPTOR

Question 23

what type of receptor do lipids use?

Answer 23

eicosanoids
-metabotropic

Question 24

what is the pathway of exocytosis to release a NT?

Answer 24

1. AP -> depolarization
2. Ca2+ entry
3. exocytosis of vesicle
4. NT release
5. goes to postsynaptic receptor

Question 25

what are three ways NT activity is terminated?

Answer 25

diffuse out of synapse
inactivated by enzymes
uptake by neighbor cells

Question 26

what is an EPSP?

Answer 26

depolarization
-open Na+ or Ca2+ channels
-close K+ channels

Question 27

what is an IPSP?

Answer 27

hyperpolarization
-open K+ or Cl- channels

Question 28

what is the difference b/w divergence and convergence?

Answer 28

divergence: axon synapses with multiple targets
convergence: multiple axons synapse w/ one target

Question 29

what is the difference b/w spatial and temporal summation?

Answer 29

spatial: several axons fire simultaneously
temporal: one axon fires multiple times close together

Question 30

what happens when there is postsynaptic inhibition?

Answer 30

summed potential is below threshold -> no AP

Question 31

what happens when there is presynaptic inhibition?

Answer 31

decreased NT release
-global: all of the branches
-selective: only at one branch of the axon

Question 32

what does long term potentiation do to synpases?

Answer 32

enhances synapse effect (speed, release)

Question 33

what is the pathway of LTP for glutamate?

Answer 33

1. glutamate release
2. releases AMPA & NMDA
3. AMPA releases Na+
4. depolarization of NMDA ejects the Mg+ ion to release Ca2+
5. paracrine is released
6. increases glutamate release

Question 34

what is long term depression?

Answer 34

changes receptor itself or the amount of receptors to decrease synapse effect

Question 35

what is the difference b/w white and gray matter?

Answer 35

gray: unmyelinated
white: myelinated

Question 36

what are the four parts of the brainstem?

Answer 36

midbrain
pons
medulla oblongata
reticular formation

Question 37

what does the midbrain do?

Answer 37

pupil reflex, auditory & visual reflex

Question 38

what does the pons do?

Answer 38

relay center b/w cerebellum & cerebrum, breathing

Question 39

what does the medulla oblongata do?

Answer 39

spinal tracts, BP, breathing, swallowing, vomitting

Question 40

what does the reticular formation do?

Answer 40

arousal, consciousness

Question 41

what does the cerebellum do?

Answer 41

body coordination

Question 42

what are the four parts of the diencephalon?

Answer 42

thalamus
pineal gland
hypothalamus
pituitary gland

Question 43

what does the thalamus do?

Answer 43

relay center

Question 44

what does the pineal gland do?

Answer 44

melatonin secretion

Question 45

what does the hypothalamus do?

Answer 45

homeostasis, thirst, hunger

Question 46

what does the pituitary gland do?

Answer 46

hormone secretion

Question 47

what are the four lobes in the cerebrum? what does each of the do?

Answer 47

temporal: audio, smell
frontal: motor, decisions, taste
parietal: touch, homeostasis
occipital: vision

Question 48

what are the three parts of the cerebrum?

Answer 48

cerebral cortex
basal ganglia
limbic system

Question 49

what does the cerebral cortex do?

Answer 49

senses, voluntary movement

Question 50

what does the basal ganglia do?

Answer 50

inhibit skeletal muscle, DA secretion, gray matter

Question 51

what does the limbic system do?

Answer 51

emotion, bx, memory, learning
-amygdala, hippocampus

Question 52

what is CN1?

Answer 52

olfactory
-smell

Question 53

what is CN2?

Answer 53

optic
-vision

Question 54

what is CN3?

Answer 54

oculomotor
-pupil reflex
-ciliary muscle

Question 55

what CN4?

Answer 55

trochlear
-down eye movement

Question 56

what is CN5?

Answer 56

trigeminal
-chewing

Question 57

what is CN6?

Answer 57

abducens
-outward eye movement

Question 58

what is CN7?

Answer 58

facial
-taste, face sensations

Question 59

what is CN8?

Answer 59

vestibulochoclear
-hearing, equilibrium

Question 60

what is CN9?

Answer 60

glossopharyngeal
-swallowing

Question 61

what is CN10?

Answer 61

vagus
-parasympathetic NS, GI tract

Question 62

what is CN11?

Answer 62

spinal accessory
-shoulders

Question 63

what is CN12?

Answer 63

hypoglossal
-tongue

Question 64

what part of the brain controls sleep-awake cycles?

Answer 64

suprachiasmatic nucleus -> hypothalamus

Question 65

what type of waves are there when you are awake, non-REM, REM?

Answer 65

awake & REM: alpha waves
non-REM: delta waves

Question 66

what is the difference b/w associative and non-associative learning?

Answer 66

associative: 2 stimuli associated together, Pavlovian
non-associative: change bx after repeated exposure, habituation & sensitization

Question 67

what is the difference b/w habituation & sensitization?

Answer 67

habituation: decreases response to annoying stimulus
-repeating loud noise

sensitization: increase response to bad stimulus
-puking whiskey

Question 68

what is the difference b/w short term, working, and long-term memory?

Answer 68

short: gone w/in a day

working: used for decisions (crossing the street)

long-term
-reflexive/implicit: muscle memory
-declarative/explicit: facts, figures

Question 69

what is the pathway of language in the brain?

Answer 69

1. sensory info (vision, audio)
2. cerebral cortex (left side)
3. Wernicke’s Area (understand info)
4. Broca’s Area (integrate info)
5. motor output (frontal lobe)

Question 70

what is the difference b/w the dorsal and ventral root in the spinal cord?

Answer 70

dorsal: afferent signals
ventral: efferent signals

Question 71

what types of senses do receptive fields activate?

Answer 71

somatic senses
vision

Question 72

how does sensitivity and convergence change with a larger receptive field?

Answer 72

less sensitive
more convergence

Question 73

what is 1-point discrimination?

Answer 73

overlapping fields
-more convergence
-perceived as a single point

Question 74

what is 2-point discrimination?

Answer 74

small fields, less convergence
-more points = more sensitive

Question 75

what does modality refer to?

Answer 75

specific neurons activated

Question 76

what does location refer to?

Answer 76

which receptive fields are activated

Question 77

what does intensity refer to?

Answer 77

number of receptors activated
-frequency of APs

Question 78

what does duration refer to?

Answer 78

longer stimulus leads to longer APs

Question 79

what is the difference b/w tonic and phasic receptors?

Answer 79

tonic: slow adapting, rapid fire -> maintain firing
phasic: fast adapting, rapid fire -> stop firing if stim. is constant

Question 80

what is the pathway for fine touch, proprioception, and vibration?

Answer 80

skin -> medulla -> thalamus -> somatosensory cortex

Question 81

what is the pathway for nociception, temp, and coarse touch?

Answer 81

skin -> cross over in SC -> thalamus -> somatosensory cortex

Question 82

what do free nerve endings respond to?

Answer 82

temp, pain

Question 83

what do pacianian corpuscles respond to?

Answer 83

vibration (phasic)

Question 84

what do meissner corpuscles respond to?

Answer 84

flutter (phasic)

Question 85

what do ruffini corpuscles respond to?

Answer 85

stretch (tonic)

Question 86

what do merkel receptors respond to?

Answer 86

texture, pressure (tonic)

Question 87

what do nociceptors detect?

Answer 87

pain, itch

Question 88

what are the two fibers in nociceptors? what type of pain do they correlate to?

Answer 88

A-delta: fast pain, local
C: slow pain, diffuse

Question 89

what is the nociceptor pathway?

Answer 89

1. protective spinal reflex -> withdrawal reflex
2. ascending pathway -> cerebral cortex -> feel pain
3. dorsal horn of spinal cord

Question 90

what do chemoreceptors detect?

Answer 90

smell and taste

Question 91

what is the smell pathway?

Answer 91

1. olfactory neuron binds to odor (1)
2. activate G(olf) -> GPCR
3. increase cAMP
4. depolarization
5. CN1 (2)
6. olfactory bulb
7. olfactory tract
8. olfactory cortex
9. cerebral cortex & limbic system

Question 92

what are the five tastes and what do they respond to? what type are they?

Answer 92

sweet: glucose, sugar, TYPE 2 (meta)
sour: H+, TYPE 3 (iono)
salty: Na+
bitter: alkalines, TYPE 2 (meta)
umami: glutamate, TYPE 2 (meta)

Question 93

what is the gustation pathway?

Answer 93

1. taste binds TRC
2. GPCR
3. TYPE2: release ATP, TYPE3: release serotonin
4. CN7, 9, 10 (1)
5. medulla (2)
6. thalamus (3)
7. gustatory cortex

Question 94

what is pitch?

Answer 94

frequency
-low pitch: hair cells bend toward helicotrema, SLOW vibration
-high pitch: hair cells bend toward oval window, FAST vibration

Question 95

what is loudness?

Answer 95

amplitude
-more hair cells activated = louder

Question 96

what is the hearing pathway?

Answer 96

1. ear canal
2. tympanic MB
3. auditory ossicles
4. oval window
5. cochlea
6. perilymph (vestibular duct)
7. endolymph (cochlear duct)
8. basilar MB shifts (toward tallest = depo, toward shortest = hyper)
9. hair cells move in tectorial MB
10. NT release
11. CN8
12. medulla
13. midbrain
14. thalamus
15. auditory cortex

Question 97

what happens when hair cells are bent toward the kinocilium?

Answer 97

depolarization
-bent away = hyperpolarization

Question 98

what is horizontal rotation? posterior? superior?

Answer 98

horizontal: spin
posterior: side to side
superior: forward & backward

Question 99

what does the semicircular canals detect?

Answer 99

rotational movement

Question 100

what does the otolith organ detect?

Answer 100

linear movement

Question 101

what does the saccule detect? utricle?

Answer 101

saccule: vertical drop
utricle: forward & backward acceleration

Question 102

what is the equilibrium pathway?

Answer 102

1. head movement
2. endolymph movement
3. inertia (fluid moves opposite direction first)
4. cupula shifts
5. hair cells bend
6. depolarization
7. NT release
8. CN8 (1)
9. medulla (2)
10. reticular formation (3)
11. thalamus
12. motor cortex

Question 103

what do circular muscles of the eye control?

Answer 103

pupil constriction
-parasymp NS

Question 104

what do radial muscles of the eye control?

Answer 104

pupil dilation
-symp NS

Question 105

what do cilliary muscles of the eye control?

Answer 105

lens accomodation
-FLAT: suspensory lig. tight, cill. muscles relax
-ROUND: suspensory lig. relax, cill. muscles tight

Question 106

where are photoreceptors located at? what are the two types of photoreceptors?

Answer 106

in the retina
-rods: low light, B&W
-cones: high light, color

Question 107

what is the process of a photoreceptor cell?

Answer 107

photoreceptor -> bipolar cell -> ganglion cell

Question 108

what type of light causes rhodopsin to be active and lead to a hyperpolarization with low glutamate release?

Answer 108

high light

Question 109

what is the pathway of vision?

Answer 109

1. light
2. cornea
3. pupil
4. lens
5. macula (retina)
6. photoreceptor
7. CN2 (1)
8. optic chiasm (2)
9. thalamus
10. visual cortex