Unit3_VisualSystem

Question 1

Wavelength = color
\_\_\_\_ = 420 nm
\_\_\_\_ = 530 nm
\_\_\_\_ = 560 nm

Answer 1

Wavelength = color
Blue = 420 nm
Green = 530 nm
Red = 560 nm

Question 2

Retina: at back of inner eye - receptive organ of eye.

Output neurons = retinal ganglion cells → group together at __________ → form optic nerve

Answer 2

optic disc

Question 3

Are there photoreceptors at the optic disc?

Answer 3

No!!!

No photoreceptors at optic disc = blind spot

Question 4

Outline the path of cells/neurons once light hits the Photoreceptor?

Answer 4

Photorceptor → Bipolar Cells → horizontal cells → Ganglion Cells → optic nerve

Question 5

_____ : mediate color vision, concentrated in fovea, work well only in bright light

Answer 5

Cones

Question 6

_____ : color insensitive, work best in dim light

Answer 6

Rods

Question 7

What cells of the retina mediate receptive field surround?

Answer 7

Horizontal cells

Question 8

What NTs are released by Horizontal cells?

Answer 8

GABA; H-Cells are INHIBITORY

Question 9

Photons of light are absorbed by what vitamin?

Answer 9

Vitamin A

Question 10

What is the end goal of phototransduction with regards to the photoreceptor?

Answer 10

decrease cGMP → close Ca2+ channels

Question 11

Does light depolarize or hyperpolarize photoreceptors?

Answer 11

HYPERpolarize

Question 12

In the retina, what cells are the only cells that can make an AP?

Answer 12

Ganglion Cells.

All other communicate by graded changes in membrane potential which alters the rate of exocytosis of NT.

Question 13

The following are the rules w.r.t. retina cells.

1. ) Photoreceptors are ____1____ by light → less NT released
2. ) Photoreceptors release ____2____,
3. ) Bipolar cells ALWAYS make ____3____ synapses on ganglion cells

Answer 13

1. hyperpolarized
2. glutamate; BUT…bipolar cells can either be excited (OFF center) or inhibited (ON center) by glutamate (due to different receptor types)
3. excitatory

Question 14

Which type of ganglion cells are excited by light shining in their centers, inhibited by light in periphery?

Answer 14

On Center Ganglion Cells

Question 15

ganglion cells: inhibited by light shining in their centers, excited by light in periphery

Answer 15

Off-Center Ganglion Cells

Question 16

What is the key determinant in receptive field type of ganglion cells?

Answer 16

Depends on type of receptor on bipolar cells

on or off

Question 17

Color-opponent ganglion Cells:

____1____ cells in fovea connected directly to one kind of cone in field center, and indirectly (via ____2____ cells) to cones with a different color preference in field surround.

Answer 17

1. Bipolar

2. Horizontal

Question 18

Color-opponent ganglion Cells:

Bipolar cells in fovea connected ____1____ to one kind of cone in field center, and ____2____ (via horizontal cells) to cones with a different color preference in field surround.

(ans: directly or indirectly)

Answer 18

1. directly

2. indirectly

Question 19

What is the pupillary eye reflex?

Answer 19

shine light in one eye, muscles in iris contract (pupil smaller) → consensual constriction in other eye

Question 20

Pupillary eye reflex:

Light → AP in ganglion cells → ____1____ gets excitatory input from BOTH eyes → synapse in BOTH _____2_____ nuclei (R and L) → excite ____3____ ganglion cells (preganglionic parasympathetic motor neurons) → excitation of muscles in BOTH irises

Answer 20

1. Pretectum
2. Edinger-Westphal nuclei
3. ciliary ganglion cells

Question 21

Central Visual Pathway:

→ _______: important for pupillary eye response.

Answer 21

Pretectum

Question 22

Central Visual Pathway:

→ ______________ : important for visceral functions of day/night cycle.

Answer 22

Suprachiasmatic nucleus of hypothalamus

Question 23

Central Visual Pathway:

→ ___________ : coordinates head and eye movements.

Answer 23

Superior colliculus

Question 24

The RIGHT lateral geniculate nucleus will see which side of the visual world?

Answer 24

LEFT!!!

LGN represents CONTRALATERAL visual field.

**Gets input from both eyes, but eye origin remains separate in LGN layers. (Think hypercolumn)

Question 25

Is there bionocular interaction in the LGN?

Answer 25

NO!!!!

Question 26

Where do the ganglion cells axons end in the visual pathway?

Answer 26

LGN

Question 27

After LGN, axons involved in visual processing fan out to visual cortex in white matter tracts called what?

Answer 27

optic radiations

Question 28

How man layers is the LGN comprised of and describe the interaction of the layers and their nerve tracts?

Answer 28

No binocular and no DIRECT interaction between eyes at the level of the LGN.

Question 29

The 6 layers of the LGN:

Layers 1, 4, 6 → ____1____ eye
Layers 2, 3, 5 → ____2____ eye

(which side?)

Answer 29

1. Contralateral Eye; (axons decussated at chiasm)

2. ipsilateral eye

Question 30

Which layer(s) of the LGN recieves input from magnocellular ganglion cells?

Answer 30

Layers 1 & 2

Question 31

Which layer(s) of the LGN recieves input from parvocellular ganglion cells?

Answer 31

Layers 3 thru 6

Question 32

What type of vision is the Magnocellular system responsible for?

Answer 32

spatial vision, motion and depth.

low acuity, large receptive, responsive to motion, no color vision.

Question 33

What type of vision is the Parvocellular system responsible for?

Answer 33

object vision, color, details and form.

High acuity, small receptive field, not responsive to motion, color vision (input from cones)

Question 34

Is one of the functions of the Magnocellular system color vision?

Answer 34

NO!

Question 35

Are cones ~ with Parvocellular or Magnocellular ganglionic cells?

Answer 35

Parvocelular

Question 36

T/F?

Both the Magnoceullar and Parvocellular systems established in retina, remain segregated at LGN, and travel in separate, but parallel pathways through visual cortex.

Answer 36

TRUE!

Question 37

Lesions in what tracts will result in the following visual deficits?:

1. ) _______ deficit → no information from right eye
2. ) _______ deficit → no information from nasal portion of each retina
3. ) _______ deficit → no info from left visual field
4. ) _______ deficit → deficit in upper contralateral quadrant

Answer 37

1. ) R optic nerve deficit
2. ) Optic chiasm deficit
3. ) R. optic tract deficit
4. ) R. optic radiation deficit

Question 38

Visual cortex: area 17, above and below ________ fissure of occipital lobe

Answer 38

calcarine

Question 39

The visual cortex is what Boardmann area?

Answer 39

B.A. 17

Question 40

Describe Line Orientation:

Answer 40

Line orientation: lines in visual field lie in different rays of pinwheels.

All cells in a vertical column are sensitive to same orientation.

Orientation column pinwheels spin out over cortical surface, interconnected with neighboring hypercolumns

Question 41

______________: requirement that dissimilar dimensions (e.g. color and form) must be analyzed by separate, but parallel, neural systems

Answer 41

Parallel processing

Question 42

______________: use successive synaptic integrations of highly specific synaptic inputs to construct higher and higher levels of representation of the retinal image until eventually we have cells that respond only to the complete form of an objec

Answer 42

Hierarchical processing: use successive synaptic integrations of highly specific synaptic inputs to construct higher and higher levels of representation of the retinal image until eventually we have cells that respond only to the complete form of an objec

Question 43

What cells in the ventral pathway cares about color only, don’t care about shape, get input from color-opponent neurons

Answer 43

Blob cells

Question 44

What are the 2 primary parallel pathways?

Answer 44

Dorsal pathway

Ventral pathway

Question 45

Which primary parallel pathway travels from V1 dorsally to parietal lobe?

Answer 45

Dorsal Pathway

Question 46

Which primary parallel pathway travels ventrally from V1 to temporal lobe?

Answer 46

Ventral pathway

Question 47

Which primary parallel pathway is responsible for spatial vision?

Answer 47

Dorsal Pathway;

Spatial vision - Motion, depth perception, “WHERE” pathway

Question 48

Which primary parallel pathway is responsible for object recognition?

Answer 48

Ventral pathway;

Object recognition - color, form, pattern vision, “WHAT” pathway

Question 49

___________ cells: responsive to lines with certain orientations

Answer 49

Cortical simple cells;

Cells with an ON/OFF area that is a narrow line at some preferred orientation that is flanked on each side by OFF/ON areas.

Max stimulation by narrow line of light covering all ON areas.

Tightly tuned within a few degrees of its best orientation.

Cells in the same penetration show same orientation selectivity.

Generated by several overlapping LGN and ganglion cells that converge on one cortical cell in area V1.

Question 50

____________ cells: receptive fields like simple cells but they abstract for position.

Answer 50

Cortical complex cells;

Line or edge can be anywhere within receptive field and these cells like to see lines or edges moving across the field.

Generated by excitatory synapses onto complex cells by convergence of several simple cells whose positions are slightly offset.

Question 51

What type of cells receive input from LGN from both eyes?

Answer 51

Binocular Cells.

• Receptive fields of two eyes are identical in orientation, region of retina, width, and on/off organization
• Found at borders of ocular dominance columns.
• Mediate depth perception - select cells fire when object is certain distance away.

Question 52

Strabismus: ?

Answer 52

Strabismus: one extraocular muscle (medial rectus) cut, lateral deviation of one eye

Question 53

Ocular dominance:?

Answer 53

Ocular dominance: a measure of relative synaptic input to a cell from each eye

Question 54

Types of eye movements involves:

tracking (to keep an object on the fovea)

Answer 54

Smooth Pursuit

Question 55

Types of eye movements involves:

rapid, ballistic (to bring an object onto the fovea)

Answer 55

Saccades

Question 56

Types of eye movements involves:

combination of pursuit and saccades
4) Vergence: moving the fovea to an object close (convergence) or farther away (divergence)

Answer 56

Vestibular Ocular Reflex (VOR) and Optokinetic Nystagmus (OKN)

Question 57

Types of eye movements involves:

moving the fovea to an object close (convergence) or farther away (divergence)

Answer 57

Vergence

Question 58

___________ nuclei: contain motor neurons for medial rectus, inferior and superior rectus, and inferior oblique muscles

Answer 58

Oculomotor (III) nuclei

Question 59

___________ nuclei: contain motor neurons innervating superior oblique

Answer 59

Trochlear (IV) nuclei

Question 60

____________ nucleus: contain motor neurons for lateral rectus muscle

Answer 60

Abducens (VI)

Question 61

Lateral and medial recti → moves he eye how?

Answer 61

horizontal rotation

Question 62

Superior and inferior rectus → moves he eye how?

Answer 62

vertical displacement

Question 63

Superior and inferior oblique → moves he eye how?

Answer 63

rotation about visual axis, and some vertical movement

Question 64

What is a Conjugate vs. Vergence Eye movement?

Answer 64

Conjugate Movements: eyes move same amount in same direction.

Vergence Movements: eyes moving in opposite directions.

Question 65

What are 2 examples of Conjugate Movements?

Answer 65

1. ) VOR: eyeball rotation precisely opposing head rotation
2. ) Optokinetic nystagmus: rhythmic pattern of saccades and tracking movements - visually evoked nystagmus due to a moving visual stimulus

• Can be fast (saccades), or slow (tracking movements)
• Elicited by visual and vestibular inputs

Question 66

What is an example of Vergence Movements of the eyes?

Answer 66

Near Reflex: both eyes town nasally to focus on near object.

• Both medial recti contract → pull eyes nasally
• Pupils constrict to increase depth of field
• Ciliary muscle contract → lens becomes fatter (for focus on near object)

Question 67

All motor neurons and preganglionics in _________ nuclei, driven by visual input to association areas of visual cortex

Answer 67

oculomotor

Question 68

(what type of eye movement): rapid eye movement that brings eyes to a predetermined target or position

Answer 68

Saccade

Question 69

What is the Pattern generator for horizontal saccades called?

Answer 69

Paramedian Pontine Reticular Formation (PPRF) (near abducens nucleus)
Horizontal saccades driven CONTRALATERALLY - saccade to left driven by activity in right frontal eye field

Question 70

What are the two important control center for saccades?

Answer 70

cortex and superior colliculus

Question 71

Frontal eye field, anterior to head representation in motor cortex, can activate saccades via what two pathways?

Answer 71

1. ) Direct to reticular formation

2. ) Via superior colliculus to reticular formation

Question 72

Damage what? → saccades less accurate, occur less often, but still happen

Answer 72

superior colliculus

Question 73

Damage to what? → TEMPORARY loss of ability to generate saccades

Answer 73

frontal eye field

Question 74

Damage ______ & ______ → permanent loss of ability to make saccades.

Answer 74

superior colliculus and frontal eye field

Question 75

Stroke in what? → “Blind sight response” = light flashed in dark room, eyes foveate to light, but the say they didn’t see anything → superior colliculus still drives saccade

Answer 75

visual cortex

Question 76

What is the “blind slight response”?

Answer 76

light flashed in dark room, eyes foveate to light, but the say they didn’t see anything → superior colliculus still drives saccade

Question 77

Parietal Eye Field (PEF)= ____1____ direction of saccade.

Frontal Eye Field (FEF)= ____2____ generated saccade

Answer 77

1. reflexive

2. voluntarily

Question 78

Where are the High Centers of visual processing and what do they do?

Answer 78

in frontal cortex provide planning inhibition, and coordination.

Question 79

Name the High Centers? (4)

Answer 79

1. ) Dorsolateral Prefrontal Cortex = DLPC
2. ) Supplementary Eye Fields = SEF
3. ) Substantia Nigra (Pars Reticulata) = SNPR
4. ) Caudate Nucleus = CN

Question 80

What does the Dorsolateral Prefrontal Cortex (DLPC) do?

Answer 80

Inhibits reflex saccades, provides advanced planning of saccades

Question 81

What does the Supplementary Eye Fields (SEF) do?

Answer 81

Coordinates saccades with body movement

Question 82

What does the Substantia Nigra (Pars Reticulata) = SNPR, do?

Answer 82

Inhibits superior colliculus

Question 83

What does the Caudate Nucleus do in terms of visual processing?

Answer 83

Inhibits substantia nigra pars reticulata;

CN inhibition of SNPR → activation of SC

Question 84

What is Internuclear Ophthalmoplegia, and what is its cause?

Answer 84

• Caused by MLF damage resulting in disconnection in the coordination of medial and lateral recti during horizontal gaze movements.
• Common in patients with MS

Question 85

What is nystagmus?

Answer 85

aka: vestibular nystagmus

- Sawtooth movement of eyes, slow ramp opposite to head rotation, fast saccade to center of eye position

Question 86

Presbyopia: ?

Answer 86

results when eye progressively loses ability to focus on near objects.

• Caused by natural aging as lens becomes less flexible
• Around age 40-50 years
• Treatment with simple magnifying lenses or bifocals can help improve near vision

Question 87

____________: optical power of eye is too large and causes light to focus in front of the retina

Answer 87

Nearsightedness

Question 88

____________ : optical power of eye is too small and causes light to focus behind the retina

Answer 88

Farsightedness

Question 89

____________ : shape of cornea causes light to focus in front or behind retin

Answer 89

Astigmatism

Question 90

What are the components of the basic eye exam?

Answer 90

• Visual Acuity: one eye at a time at 20 foot distance
• Visual Fields: Ocular Motility: follow finger left, right, up and down.
• Pupils: round, reactive to light, equal.
• External exam (eyelids, conjunctiva, cornea)
• Fundoscopic exam (red reflex, disc, retina)

Question 91

What area of the eye is responsible for sharp/detailed vision?

Answer 91

Fovea

Question 92

When both eyes adduct as when looking from far to near is called?

Answer 92

Convergence

Question 93

When both eyes Abduct as when looking from near to far is called?

Answer 93

Divergence

Question 94

What type of eye movement is a slow, sustained eye movement to keep a moving object in focus that is controlled by the occipital eye fields.

Answer 94

Smooth pursuit

Question 95

What type of eye movement is a rapid, conjugate eye movement towards a particular target that is controlled by the frontal eye fields and superior colliculus?

Answer 95

Saccade

Question 96

A saccade eye movement is controlled by what two things?

Answer 96

Frontal eye fields and superior colliculus

Question 97

What type of eye movement allows for sequential fixation on a series of stationary targets passing in front of a viewer’s eye?

Answer 97

Optokinetic eye movements;

it can be thought of as a mix of smooth pursuit and saccadic eye movements.

Question 98

Initiation of saccadic eye movement begins in ______1______, whereas control and coordination of saccadic movement is in the ____2____.

Answer 98

1. cortical centers (frontal eye fields)

2. brainstem

Question 99

Involuntary saccadic eye movements occur when the frontal eye fields project indirectly to the __________ _________ _________ __________ formation through the ipsilateral superior colliculus. Compared to voluntary saccadic eye movements, involuntary saccadic eye movements bypass the primary visual cortex.

Answer 99

contralateral paramedian pontine reticular fromation

Question 100

Involuntary saccadic eye movements occur when the frontal eye fields project indirectly to the contralateral paramedian pontine reticular formation through the ____1____ superior colliculus. Compared to voluntary saccadic eye movements, involuntary saccadic eye movements bypass the _____2_____.

Answer 100

1. ipsilateral

2. primary visual cortex

Question 101

What is a major difference between a voluntary and involuntary saccadic eye movement?

Answer 101

Compared to voluntary saccadic eye movements, involuntary saccadic eye movements bypass the primary visual cortex.

Question 102

Voluntary saccadic eye movement is initiated when the frontal eye fields sends a signal to where?

Answer 102

the contralateral paramedian pontine reticular formation (PPRF).

Question 103

Where does the contralateral paramedian pontine reticular formation (PPRF) project information to?

Answer 103

the IPSILATERAL CN VI nucleus

Question 104

The CN-VI (abducens nucleus) will project to where?

Answer 104

CONTRALATERAL medial longitudinal fasiculus (MLF)

Question 105

where does the MLF synapse?

Answer 105

MLF synapses on the nucleus of CN III (near the superior colliculus)

Question 106

if the LEFT frontal eye fields were activated, they would send a signal to the ___1___ PPRF. The right PPRF would project to the ___2___ CN VI and the ___3___ MLF and CN III.

Answer 106

If LEFT frontal fields was activated:

1. Right PPRF
2. Right CN VI
3. Left MLF and then the Left CN III

Question 107

Lesions to what, causes internuclear ophthallmoplegia (INO)

Answer 107

lesions to MLF

Question 108

internuclear ophthalmoplegia (INO) is a results of a lesion to what? and what diseases is INO associated with?

Answer 108

lesions to MLF; ~ Multiple Sclerosis

Question 109

In internuclear ophthalmoplegia, the eye will be unable to adduct when looking in the ___________ direction.

Answer 109

contralateral

So when looking left, the right eye will not adduct and the left eye will experience nystagmus.

Question 110

Which eye movement is controlled by the occipital eye fields?

Answer 110

Smooth pursuit

Question 111

What cells are found on the borders of ocular dominance columns?``

Answer 111

Binocular Cells

Question 112

Where are Binocular Cells found?

Answer 112

found in the primary visual cortex where the initial stage of binocular convergence begins.

Binocular neurons receive inputs from both the right and left eyes and integrate the signals together to create a perception of depth.

Question 113

From where do binocular cells recieve input from?

Answer 113

Binocular cells get input from the LGN of BOTH eyes.

The receptive field of both eyes are identical in orientation, region of retina, width, and on/off organization.

Question 114

What is the receptive field shape of a ganglion cells?

Answer 114

donut

Question 115

Are ganglion cells orientation selective?

Answer 115

NO

Question 116

Where are “Simple” cells of the visual system locatated and whare is the shape of their receptive field?

Answer 116

loc: cortec

receptive field: Bar shaped

Question 117

Y/N: For a complex cell in the cortex:

1. ) Orientation selective: ?
2. ) Binocular driven: ?
3. ) Position sensitive: ?

Answer 117

1. ) Orientation selective - YES
2. ) Binocularly driven - YES
3. ) Position sensitive - NO

Question 118

w.r.t to visual system, what is the sensitive period?

Answer 118

2-3 year period of time after birth when connections can be altered by visual experience (corresponds with time babies eyes are moving farther apart)

If visual deficits not repaired soon after birth → irreversible damage to vision

Question 119

What is ocular dominance?

Answer 119

a measure of relative synaptic input to a cell of each eye.

• can range from only sensitive to ipsilateral eye, to
• only response to contralateral eye, or,
• only responsive to both eyes.

Question 120

___________: deviation of one eye

Answer 120

Strabismus:

Normal visual stimuli, but each eye saw a different part of visual world
→ Very few binocular cells!

Almost all cells driven exclusively by one eye or the other (half and half)
No sync, no link - synchronous activity from both eyes is necessary to insure proper synaptic connections form during development in visual cortex

Showed: Cells that fire together wire together; Done via NMDA receptor plasticity mechanism (AMPA upregulation etc.)

Question 121

Color information is separated out from spatial information in retina, and handled in central regions of hypercolumns called what?

Answer 121

BLOBS