Chapter 10 Sensory Physiology

Question 1

What type of information do receptors recieve

Answer 1

Sensory

Question 2

What do receptors do

Answer 2

Transduce different energy forms into graded potentials which initiate action potentials

Question 3

Where do receptors send information

Answer 3

To the CNS through Afferent sensory

Question 4

Name the 5 different receptors and what do they respond to

Answer 4

1. Mechanoreceptors = touch/pressure
2. Thermoreceptors = temperature
3. Photoreceptors = light
4. Chemoreceptors = chemicals
5. Nociceptors = pain

Question 5

What is a Receptor potential

Answer 5

Graded potential in sensory receptor in response to environmental stimulus

Question 6

What does the transduction process involve

Answer 6

opening and closing of ion channels

Question 7

What is adaptation and what does it lead to

Answer 7

Decrease in receptor sensitivity during maintained stimulation
Leads to… decrease in AP frequency in afferent neuron

Question 8

What are the two types of adaptation

Answer 8

Phasic (fast adapting receptor) = AP very quickly cease
e.g Pressure when seating

Tonic (slow adapting receptors) = persistent or slow decay of the firing APs
e.g. joint and muscle receptors that maintain posture

Question 9

What is somatic sensation

Answer 9

Touch
Pressure
Pain
Temperature
Proprioception - posture and movement

Question 10

What is chemosensation

Answer 10

Taste = Gustation
Smell = Olfaction

Question 11

Where are taste cells located

Answer 11

Taste buds on the surface of the tongue

Question 12

Taste buds are located on

Answer 12

lingual papillae

Papilla = small bump

Question 13

Name the 5 taste categories and where they are localised on the tongue

Answer 13

Bitter = back
Sweet = tip
Sour = sides
Salty = tip
Umami = pharynx

Question 14

What taste category is related to H+

Answer 14

Sour

Question 15

What taste category is related to Na+

Answer 15

Salty

Question 16

What does GPCR stand for

Answer 16

Gene protein couple receptors

Question 17

What steps allow us to smell

Answer 17

Odorants bind to the proteins in the membrane of cilia attached to dendrites of olfactory receptor neurons

2. GPCR
3. Axons of receptor neurons synapse onto olfactory bulb of brain
4. Unique pattern of activity that brain interprets to percieve an odor

Question 18

How many odors are coded and how many receptor proteins

Answer 18

10,000

380

Question 19

What does the Vestibular system do and where is it located

Answer 19

Senses:
Head position
Head movement = angular acceleration in 3 dimensions
Linear acceleration

Structures are in the inner ear

Question 20

What are the two otolith organs and what do they do

Answer 20

1. Saccule
2. Utricle

Sense linear acceleration with respect to gravity
Each sensor has a mass of Otoliths on top of a gelatinous substance

Question 21

Where do Olfactory receptor cells synapse

Answer 21

In the 2 olfactory bulbs

Question 22

What are Otoliths and what do they cover

Answer 22

Calcium carbonate crystals

Utricle and saccule
Makes them heavier

Question 23

What are semicircular canals and what do they do

Answer 23

Fluid filled endolymph

They sense ANGULAR ACCELERATION of the head in three Dimensions (X-Y-Z)

Question 24

What do each semicircular canal have

Answer 24

Crista (sensory organ)

Question 25

What does each crista have and what happens to it

Answer 25

gelatinous mass, cupula on top

It is pushed by endolymph movement

Question 26

Sensory hair cells are located where

And what does each hair cell have

Answer 26

Otolith organs

Kinocilium and Stereocilla

Question 27

What does bending of the

stereocilla do

Answer 27

Stimulates or inhibits action potential frequency

Therefore effects membrane potential

Question 28

The movement of fluid will cause what to bend which stimulates hair cells

Answer 28

Cupula

Question 29

Sound can be the result of vibration of what (3)

Answer 29

Solid
Liquid
Gas

Question 30

What do sound waves cause to move and what occurs because of this movement

Answer 30

auditory structures which transduce into action potentials

Question 31

Define frequency and what does it determine

Answer 31

number of cycles per second

Determines Pitch

Question 32

Define Intensity and what does it determine

Answer 32

Amplitude of wave

Determines Loudness

Question 33

sound pathway

Answer 33

pinna and external auditory meatus focus sound waves on tympanic membrane - moves malleus, incus, stapes - stapes conveys vibration to oval window - leads to movement in cochlea fluid - makes basilar membrane of the Cochlea move

Question 34

high frequencies (high ptched sound)

Answer 34

large vibration in basal cochlea

Question 35

low frequencies (low pitched sound)

Answer 35

large vibration in apical cochlea

Question 36

what is the vibration of the basilar membrane called

Answer 36

tonotopic

Question 37

Organ of Corti

Answer 37

functional unit of cochlea

basilar membrane + hair cells + tectorial membrane

Question 38

movement of membranes withing Organ of Corti

Answer 38

bending of hair cells - depolarization - neurotransmitter release - APs in sensory neurons

Question 39

photoreceptors that light stimulates

Answer 39

rods and cones

Question 40

what is the visible wavelength spectrum

Answer 40

400-750 nm

Question 41

acronym for electromagnetic spectrum

Answer 41

ROY GBIV

Question 42

blue, red

Answer 42

short wavelength, long wavelength

Question 43

3 layers of the eye

Answer 43

fibrous tunic (sclera), choroid, retina

Question 44

fibrous tunic

Answer 44

sclera, cornea

Question 45

choroid

Answer 45

pupil (opening for light entrance)
Iris (pigment muscle around pupil, controls pupillary dialation and constriction)
Uvea (blood vessels)
Ciliary muscle (lens accomodation)

Question 46

retina

Answer 46

rods and cones

Question 47

fovea

Answer 47

highest concentration of cones, greatest visual acuity

Question 48

optic nerve

Answer 48

transports information from eye to brain

Question 49

blind spot

Answer 49

exit point of optic nerve

no photoreceptors

Question 50

accomodation

Answer 50

changing shape of lens to focus light on retina
far vision: thin lens
near vision: fat lens

Question 51

visual pathway

Answer 51

Cornea - aqueous humor - pupil (controlled by lens) - vitrous humor - retina

Question 52

image on retina

Answer 52

upside down

Question 53

far vision

Answer 53

relaxed ciliary muscles
high tension on suspensory ligament (zonular fibers)
flat lens
controlled by the sympathetic nervous system

Question 54

near vision

Answer 54

contracted ciliary muscles
relaxed suspensory ligament (zonular fibers)
fat lens (rounded)
controlled by the parasympathetic nervous system

Question 55

Farsightedness

Answer 55

Hyperopia
eyeball to short (rays focus behind retina)
correction with convex convergine lens

Question 56

Nearsightedness

Answer 56

Myopia
eyeball to long (rays focus in front of retina)
correction with concave divergine lens

Question 57

Astigmatism

Answer 57

unusal curvature of the lens
rays do not focus
correction with uneven lens

Question 58

normal vision

Answer 58

emmetropia

Question 59

photopigment in photoreceptors

Answer 59

opsin and retinal

in rods = rhodopsin

Question 60

when are photoreceptors activated

Answer 60

when light produces a chemical change in the photopigment

Question 61

rods

Answer 61

most sensitive photoreceptor
black and white vision
vision in dim light

Question 62

cones

Answer 62

color vision

high resolution vision (fine detail)

Question 63

G protein

Answer 63

transforms chemical change to electrical signal

called transducin

Question 64

3 photopsins (types) of photoreceptors in cone cells that provide color sensitivity

Answer 64

red, green, blue

each type responds to different wavelength

Question 65

effect of light on retina in the dark

Answer 65

Na+ channels are open
creating a “dark current”
depolarization
Actionpotential

Question 66

effect of light on retina in the light

Answer 66

Na+ channels are closed

hyperpolarization