Sensory Physiology

Question 1

Provides information to the CNS about the state of the body and/or the immediate environment

Answer 1

Sensation

Question 2

Specialized epithelial cell or neurons that transduce environmental signals into neural signals

Answer 2

Sensory receptors

Question 3

Change in membrane potential produced by the stimulus; trigger action potential trains

Answer 3

Generator potential/receptor potential

Question 4

Characteristic of sensory receptors described as specific sensations have specific receptors

Answer 4

Differential sensitivity

Question 5

Characteristic of sensory receptors described as specific sensations have specific pathways

Answer 5

Labeled line principle

Question 6

Characteristic of sensory receptors described as a change in a way a receptor responds to sequential or prolonged stimulation

Answer 6

Adaptation

Question 7

Type of receptors for continuous stimulus strength (detects steady stimulus); exhibited by muscle spindle, golgi tendon, slow pain receptors, baroreceptor, chemoreceptor

Answer 7

Slowly-adapting/tonic receptors

Question 8

Type of receptors for detecting change in stimulus strength (detects onset and offset of stimulus); has predictive function; exhibited by pacinian corpuscle

Answer 8

Rapidly-adapting/phasic receptors

Question 9

Region of the skin where stimuli can change the firing rate of the sensory neurons

Answer 9

Receptive field

Question 10

Difference between Type 1 and Type 2 receptive field

Answer 10

Type 1: smaller RF with well-defined border

Type 2: wider RF with poorly-defined border

Question 11

Tactile receptor found in the skin for touch and pressure

Answer 11

Free nerve endings

Question 12

Tactile receptor found in non-hairy skin (fingertips and lips) for movement of objects and low-frequency vibration

Answer 12

Meissner’s corpuscles (FA1)

Question 13

Tactile receptor for localizing touch sensation and to determine texture

Answer 13

Merkel’s Disc (SA1)

Question 14

Merkel’s disc combine to form:

Answer 14

Iggo Dome receptors

Question 15

Tactile receptor found in the hair base to detect movement of object on the skin

Answer 15

Hair-end organ

Question 16

Tactile receptor found in deep skin, internal tissure and joint capsules for heavy and prolonged touch (pressure) and to signal degree of joint rotation

Answer 16

Ruffini’s end organs (SA2)

Question 17

Tactile receptor found in skin and deep fascia, with onion-like structure, which detects high-frequency vibration

Answer 17

Pacinina corpuscles (FA2)

Question 18

First-order neurons have cell bodies located at:

Answer 18

Dorsal root or cranial nerve ganglia

Question 19

Second-order neurons have cell bodies located at:

Answer 19

Spinal cord or brainstem

Question 20

Third-order neurons have cell bodies located at:

Answer 20

Thalamus

Question 21

Fourth-order neurons have cell bodies located at:

Answer 21

Sensory cortex

Question 22

Somatosensory pathway which uses large myelinated fibers, with temporal and spatial fidelity, crosses near the medulla, for vibration, sensations that signal movement against the skin, position sense and fine pressure, and two-point discrimination.

Answer 22

Dorsal column-medial lemniscus pathway

Question 23

Somatosensory pathway which uses smaller myelinated fibers, less fidelity and less accurate, crosses immediately, for pain, temperature sensation, crude touch and pressure sensation, tickle and itch sensation and sexual sensation

Answer 23

Antero-lateral system (spinothalamic tract)

Question 24

Relay station for sensation

Answer 24

Thalamus

Question 25

Relay station of dorsal column medial lemniscus pathway

Answer 25

VPL nuclei

Question 26

Relay station of trigeminothalamic pathway

Answer 26

VPM nuclei

Question 27

Relay station of anterolateral system

Answer 27

VPI nuclei

Question 28

In the sensory homunculus, the largest areas are for the:

Answer 28

Fingers, hands and face (for precise localization)

Question 29

Type of pain carried by Type-A delta fibers

Answer 29

Fast pain

Question 30

Neurotransmitter used by fast pain

Answer 30

Glutamate

Question 31

Type of pain associated with tissue destruction

Answer 31

Slow pain

Question 32

Neurotransmitter used by slow pain

Answer 32

Substance P

Question 33

Fibers that carry slow pain

Answer 33

Type C fibers

Question 34

This is due to the sharing of 2nd order neurons in the spinal cord of visceral pain fibers and skin pain fibers; follows the dermatome rule

Answer 34

Referred pain

Question 35

Pain killer system of the body

Answer 35

Endogenous analgesia system

Question 36

Substances involved in the opioid-mediated endogenous analgesia system

Answer 36

Enkephalin, Dynorphine, Beta-endorphine

Question 37

Stimulated tactile receptors can inhibit pain in the spinal cord

Answer 37

Lateral inhibition

Question 38

Pain receptors are stimulated at what temperatures?

Answer 38

43 degrees

Question 39

What receptors are for warmth? for cold?

Answer 39

Warmth: free nerve endings, Type C fibers
Cold: Type A delta fibers

Question 40

The visual system detects and interprets electromagnetic waves between:

Answer 40

400 - 750 nm

Question 41

Refers to the ability to bend light; measured in Diopters

Answer 41

Refractive power

Question 42

The eyes have a refractive power of __ diopters; 2/3 by the cornea, 1/3 by the lens

Answer 42

59 diopters

Question 43

Distant vision:
Lens: ____
Suspensory ligaments: _____
Ciliary muscles: _____

Answer 43

Lens flat, thin
Suspensory ligaments tensed
Ciliary muscles relaxed

Question 44

Close vision:
Lens: ____
Suspensory ligaments: _____
Ciliary muscles: _____

Answer 44

Lens spherical, thick
Suspensory ligaments relaxed
CIliary muscles contracted

Question 45

Automatic adjustment in the focal length of the lens of the eye to permit retinal focus of images of objects at varying distances

Answer 45

Accomodation

Question 46

Accomodation provides an additional __ diopters for the lens

Answer 46

14 diopters

Question 47

Maintains shape of the eye

Answer 47

Intraocular fluid

Question 48

Main determinant of IOP, produced by the ciliary body, exits into canal of Schlemm

Answer 48

Aqueous humor

Question 49

Flow of Aqueous humor

Answer 49

Ciliary body –> posterior chamber –> pupil –> anterior chamber –> trabecular meshwork –> anterior chamber angle –> canal of Schlemm –> uveoscleral veins

Question 50

Light sensitive portion of the eye which contains the photoreceptors rods and cones

Answer 50

Retina

Question 51

Light causes hyperpolarization of the photoreceptors in the retina. This is caused by:

Answer 51

Closing of Na channels

Question 52

Area of central vision with slight thickening and pale color

Answer 52

Macula lutea

Question 53

Depression in macula lutea with the highest visual resolution; where image from fixation point is focused

Answer 53

Fovea

Question 54

Reason for high visual resolution in the fovea

Answer 54

Highest cone density

Question 55

Lacks photoreceptors or the anatomic blind spot

Answer 55

Optic disk

Question 56

What do you call the protrusion of the optic disk into the vitreous space due to increased ICP?

Answer 56

Papilledema

Question 57

Retinal layer where hyperpolarization action potential is created

Answer 57

Ganglion cell layer

Question 58

Retinal layer that is the site of retinal detachment

Answer 58

Pigment epithelium

Question 59

What is the function of the pigment epithelium?

Answer 59

Absorb stray light and preventing light from scattering

Question 60

Deterioration of pigment epithelium

Answer 60

Macular degeneration

Question 61

Pigment epithelium lacks melanin

Answer 61

Albinism

Question 62

Interneuron that connects rods and cones with ganglion cells; contrast detectors

Answer 62

Bipolar cells

Question 63

Interneurons that form local circuits with bipolar cells

Answer 63

Amacrine cells, horizontal cells

Question 64

Maintains internal geometry of the retina; retinal glial cell; its axons form the optic nerve

Answer 64

Mueller cells

Question 65

Output cells of the retina:

For color, form, fine details

Answer 65

P cells

Question 66

Output cells of the retina:

For illumination, movement

Answer 66

M cells

Question 67

Photopigment of rods:

Answer 67

Rhodopsin

Question 68

3 types of color photochemicals in cones

Answer 68

Blue, green, red

Question 69

Rods or Cones?

Narrower and longer

Answer 69

Rods

Question 70

Rods or Cones?

Less signal amplification, less numerous

Answer 70

Cones

Question 71

Rods or Cones?

30 - 300x more sensitive

Answer 71

Rods

Question 72

Rods or Cones?

Adapts 4 times more rapidly but only for a few seconds

Answer 72

Cones

Question 73

Rods or Cones?

Adapts 4 times less rapidly but last for minutes to hours

Answer 73

Rods

Question 74

Rods or Cones?

Higher visual acuity

Answer 74

Cones

Question 75

Rods or Cones?

Present in fovea

Answer 75

Cones

Question 76

Cause hyperpolarization of the retina

Answer 76

Metarhodopsin II

Question 77

Light rays converge in front of the retina (long eyeball)

Answer 77

Myopia (correct with biconcave lens)

Question 78

Light rays converge behind the retina (short eyeball)

Answer 78

Hyperopia (correct with convex lens)

Question 79

Irregular curvature of the cornea

Answer 79

Astigmatism (correct with cylindrical lens)

Question 80

Age-related loss of accomodation

Answer 80

Presbyopia (correct with convex lens)

Question 81

First sign of vitamin A deficiency

Answer 81

Nyctalopia

Question 82

Produced by compression and decompression waves transmitter in air or other elastic media such as water

Answer 82

Sound

Question 83

Speed of sound

Answer 83

335m/sec in air

Question 84

Unit of measure of sound frequency; sound pressure

Answer 84

Frequency: Hertz
Pressure: Decibel

Question 85

Human ear can detect sounds in this frequency range

Answer 85

20 - 20,000 cycles per second or Hertz

Question 86

This kind of sound frequency is more damaging to the organ of Corti

Answer 86

Low frequency sounds

Question 87

What is the frequency of conversational speech?

Answer 87

60 dB

Question 88

What is the age-related progressive sensorineural hearing loss?

Answer 88

Presbycusis

Question 89

Occupational hearing loss occurs after > 10 years exposure to which sound pressure?

Answer 89

> 85 dB

Question 90

What sound pressure will cause pain and possible permanent damage?

Answer 90

> 120 dB

Question 91

Fluid of the inner ear that is high in potassium; same as ICF

Answer 91

Endolymph

Question 92

Fluid of the inner ear that is high in sodium; same as ECF

Answer 92

Perilymph

Question 93

What is the function of the pinna?

Answer 93

Sound collection and localization

Question 94

What are the two muscles found in the middle ear?

Answer 94

Tensor tympani, stapedius

Question 95

What is the function of the two muscles in the middle ear?

Answer 95

Attenuation reflex (protects inner hair cells from very loud sounds)

Question 96

What is the connection between the middle ear and nasopharynx?

Answer 96

Eustachian tube (equalizes pressure differences)

Question 97

What frequency of sounds are near the oval window?

Answer 97

High frequency sounds

Question 98

What frequency of sounds are near the helicotrema?

Answer 98

Low frequency sounds

Question 99

What is the function of the middle ear?

Answer 99

Impedance matching (amplification of sound to compensate for the expected decrease in the inner ear)

Question 100

What is the function of the attenuation reflex?

Answer 100

Protects cochlea from loud (damaging sounds); masks background noise

Question 101

What is the function of the basilar membrane?

Answer 101

Frequency analyzer: distributes stimulus along the organ of Corti according to frequency

Question 102

What is the function of the utricle and saccule (otolith organs)?

Answer 102

For linear acceleration

Question 103

What is the sensory organ of the otolith organs?

Answer 103

Macule (with stataconia and hair cells)

Question 104

What is the function of the semicircular canals?

Answer 104

For angular acceleration

Question 105

What is the sensory organ of the semicircular canals?

Answer 105

Crista ampullaris (with cupula and hair cells)

Question 106

What is the “life span” of taste receptors (not true neurons)?

Answer 106

Lasts 10 days and continuously replaced

Question 107

Sweet taste is caused mainly by:

Answer 107

Sucrose

Question 108

Salty taste is caused mainly by:

Answer 108

Sodium

Question 109

Sour taste is caused mainly by:

Answer 109

HCl

Question 110

Umami taste is caused by:

Answer 110

MSG

Question 111

Bitter taste (more sensitive than other tastes) is caused by:

Answer 111

Quinine (and long-chain nitrogen containing substances)

Question 112

Possible 6th taste:

Answer 112

Fat

Question 113

How many are the olfactory receptors?

Answer 113

10 million

Question 114

What is the “life span” of olfactory chemoreceptors (true neurons)?

Answer 114

Lasts 60 days and continuously replaced

Question 115

What fibers are used by the olfactory chemoreceptors?

Answer 115

Type C unmyelinated fibers (no relay station in the thalamus)

Question 116

Olfactory membrane is also innervated by CN __ that detects noxious/painful stimuli

Answer 116

CN V