mono: parallel processing

Question 1

The LGN is divided into _________ regions

Answer 1

Three

Question 2

_________, __________ and ________ cells can be considered components of parallel retinocortical visual pathways

Answer 2

Parvo, magno, and konio cells

Question 3

2 most ventral layers of the LGN contain what cells?

Answer 3

Magno cells

Question 4

Parasol ganglion cells are AKA __________

Answer 4

Retinal magno cells

Question 5

Midget ganglion cells are AKA ____________

Answer 5

Retinal parvo cells

Question 6

What cells are contained within the 4 most dorsal layers of the LGN?

Answer 6

Parvo cells

Question 7

Where are Konio cells contained within the LGN?

Answer 7

Interlaminar regions between principal layers

Question 8

What cells are the smallest of the 3 LGN cell types?

Answer 8

Konio

Question 9

Layers ____, ______ and ______ receive input from the contralateral side of visual pathway

Answer 9

1, 4 and 6

Question 10

The right LGN layers 1, 4, and 6 receive input from the ______ eye

Answer 10

Left

Question 11

Layers _____, ______ and ______ receive input from the Ipsilateral side

Answer 11

2, 3, and 5

Question 12

The right LGN layers 2, 3, and 5 receive input from the ______ eye

Answer 12

Right

Question 13

Parvo cells have _________ sensitivity to red-green color contrast

Answer 13

Good

Question 14

Parvo cells show _________ sensitivity to fast movement

Answer 14

Poor

Question 15

Magno cells have __________ sensitivity to color contrast

Answer 15

Poor

Question 16

Magno cells show ____________ sensitivity to fast movement

Answer 16

Good

Question 17

Konio cells have good sensitivity to ______ - _________ color contrast

Answer 17

Blue-yellow

Question 18

______ and _______ cells are characterized by color opponency

Answer 18

Parvo and Konio

Question 19

What does color opponency mean?

Answer 19

The cells are excited by certain wavelengths and inhibited by others

Question 20

Parvo cells receive input from midget ganglion cells, which carry ______________ color information from midget bipolar cells

Answer 20

Red-green

Question 21

Parvo cells are excited by __________ wavelengths and inhibited by __________ wavelengths

Answer 21

Longer

Shorter wavelengths

Question 22

The cell would be maximally excited by a ___________ wavelength stimulus that fills its receptive field center and which is surrounded by a _________ annulus

Answer 22

Longer

Dark

Question 23

Konio cells receive input from _________________ ganglion cells

Answer 23

Small bistratified

Question 24

Konio cells are excited by __________ wavelengths and inhibited by __________ wavelengths

Answer 24

Shorter

Longer

Question 25

A Konio cell would be maximally excited by what stimulus?

Answer 25

Short-wavelength stimulus that fills its receptive field center and which is surrounded by a dark annulus

Question 26

Magno cells receive input from _____________ ganglion cells

Answer 26

Parasol

Question 27

What color opponency do Magno cells show?

Answer 27

Weak or no color opponency

Question 28

How do magno cells contribute to wavelength-based discrimination?

Answer 28

Not capable of contributing

Question 29

How do magno cells respond to contrast?

Answer 29

Respond well

Question 30

Magno cells can be excited by what light in its center and surround?

Answer 30

Bright light falling on its center and a dark annulus falling on the surround

Question 31

Parvo cells manifest a _________ response when presented with a long-duration stimulus

Answer 31

Sustained

Question 32

Parvo cells respond how long while a stimulus is present?

Answer 32

The entire time a stimulus is present

Question 33

Magno cells respond to stimuli in a ___________ manner

Answer 33

Transient

Question 34

Magno cells show a brief burst of activity when?

Answer 34

At stimulus onset and offset

Question 35

Transient response properties give Magno cells the capability to resolve _________________ frequency stimuli

Answer 35

High temporal

Question 36

Sustained response properties make parvo cells better suited for resolving _____________ frequency stimuli

Answer 36

Low ## Footnote Because the response lasts for a long period of time

Question 37

Parvo cells have similar properties to ______________ ganglion cells

Answer 37

Retinal Midget

Question 38

Magno cells have similar properties to ___________ ganglion cells

Answer 38

Retinal parasol

Question 39

Smaller receptive field centers of parvo cells provide them with _______ spatial frequency stimuli than Magno cells

Answer 39

Higher

Question 40

Do Parvo, magno or Konio cells show the shortest latency (transmits signals faster)

Answer 40

Magno cells

Question 41

Why do magno cells transmit signals faster?

Answer 41

Magno cells have a larger diameter than parvo cells and larger diameter axons transmit action potentials faster than smaller diameter axons of the parvo and Konio cells

Question 42

Review Parvo and Magno table on slide 27

Question 43

FMRI studies have been performed to determine what?

Answer 43

The areas of the LGN that are activated when certain visual stimuli are presented

Question 44

In the Magnocellular layers of the LGN, the fMRI response to the M stimulus was ________________ than to the P stimulus

Answer 44

Significantly stronger

Question 45

In the Parvocellular layers of the LGN, the fMRI response showed a _____________ response to the P stimulus

Answer 45

Significantly stronger

Question 46

Compared to the P layers, the M layers had stronger responses to _______ and __________ spatial frequency but weaker responses to _______ spatial frequency

Answer 46

Low and medium ## Footnote High

Question 47

Compared to the P layers, the M layers showed stronger fMRI responses to ________ temporal frequencies but weaker responses to ________ temporal frequencies

Answer 47

High ## Footnote Low

Question 48

The P layers had weaker responses than M layers with the ________ contrast stimuli but had stronger responses as contrast ____________

Answer 48

Low ## Footnote Increased

Question 49

A lesion in the Parvocellular region results in what?

Answer 49

Reduced wavelength discrimination ## Footnote Reduced high spatial frequency contrast sensitivity

Question 50

A lesion in the Magnocellular region results in what?

Answer 50

Decrease in high temporal frequency flicker resolution ## Footnote Decrease in low spatial frequency contrast sensitivity

Question 51

The parvo pathway is key to what two things?

Answer 51

Color discrimination ## Footnote Visual Acuity

Question 52

The magno pathway is key to what two things?

Answer 52

Encoding fast movement ## Footnote Low spatial frequencies

Question 53

Why may isoluminant gratings isolate the parvo system in humans?

Answer 53

Because the bars are only visible due to chromatic contrast, and the Parvo system is responsible for helping us detect different wavelengths

Question 54

In order for the Magno pathway to perceive a difference in the isoluminant bar gratings, what must happen and why?

Answer 54

The different colored bars would need to be altered to have different luminance because magno cells show weak or no color opponency

Question 55

Does either retinogeniculate pathway (parvo or magno) communicate exclusively with a particular cortical processing stream?

Answer 55

No, but may be the predominant input into one of the streams

Question 56

The Magno pathway shows greater sensitivity to what 3 things?

Answer 56

High temporal frequencies ## Footnote Lower spatial frequencies ## Footnote Achromatic targets

Question 57

The Parvo pathway shows greater sensitivity to what 3 things?

Answer 57

Higher spatial frequencies ## Footnote Lower temporal frequencies ## Footnote Chromatic stimuli

Question 58

What newer technology may help us detect glaucoma earlier?

Answer 58

Frequency doubling

Question 59

Primary open angle glaucoma patient autopsies have shown that axons of ____________ ganglion cells may be damaged earlier than those of ___________ ganglion cells

Answer 59

Larger ## Footnote Smaller

Question 60

The findings that POAG causes axons of larger ganglion cells to be damaged first, leads to what idea?

Answer 60

That the magno pathway is more vulnerable to glaucomatous damage than the Parvo pathway

Question 61

How is the perception of frequency doubling in POAG?

Answer 61

It is impaired

Question 62

Some studies have demonstrated that patients with developmental dyslexia manifest deficits in the processing of _____________ information

Answer 62

Temporal

Question 63

Some researchers think that developmental dyslexia may be due to a defect in the pathway processing _________________ information

Answer 63

High-temporal frequency ## Footnote Magno pathway

Question 64

Visual processing impairments in schizophrenia have been attributed to preferential dysfunction within the _________________ visual pathway

Answer 64

Magnocellular

Question 65

Schizophrenia patients have elevated contrast sensitivity thresholds particularly to ____________ stimuli as well as impaired sensitivity to ___________ acuity and ____________

Answer 65

Low spatial frequency ## Footnote Vernier acuity and motion