Final 3 (Vision)

Question 1

Receives light from the lens and converts it into neural signals that the brain can understand

Answer 1

Retina

Question 2

Region where the axons leaving the retina gather to form the optic nerve

Answer 2

Optic disc

Question 3

No photoreceptors here (blind spot)

Answer 3

Optic disc

Question 4

Central fixation point for each eye. Region of the retina with the highest visual acuity

Answer 4

Fovea

Question 5

Oval region surrounding the fovea. Has high visual acuity. Occupies the central 5 degrees of space.

Answer 5

Macula

Question 6

The fovea corresponds to the central _____ degrees of visual space.

Answer 6

1-2 degrees

Question 7

Small in size, but provides input to about half of the optic nerve fibers and cells in the visual cortex

Answer 7

Fovea

Question 8

Cells in the retina that respond to light

Answer 8

Photoreceptors

Question 9

Primarily found in the peripheral retina, achromatic, high light sensitivity, nighttime vision (when light levels are low)

Answer 9

Rods

Question 10

There are more cones than rods, true or false?

Answer 10

False, there are more rods than cones (20:1)

Question 11

High acuity and color vision during daytime (when light levels are higher), and primarily found in the central retina (fovea).

Answer 11

Cones

Question 12

The process of translating light into a neural signal the brain can understand is called?

Answer 12

Photo-transduction

Question 13

In photo-transduction the receptors are the photoreceptors (rods and cones), similarly in the transduction of the sensory system, what are the receptors?

Answer 13

Mechanoreceptors (Ruffini endings, Merkel discs)

Question 14

All photoreceptors can respond to everything at the same time, true or false?

Answer 14

False, they cannot

Question 15

Receptive field of a neuron in the visual pathway is defined as…

Answer 15

The portion of the visual field where light causes excitation or inhibition of the cell

Question 16

Each cone and rod has its own receptive field, true or false?

Answer 16

True

Question 17

There are many types of ganglion cells associated with the visual pathway, each responding to different characteristics, what do the Parasol cells respond to?

Answer 17

Gross stimulus features and movement

Question 18

There are many types of ganglion cells associated with the visual pathway, each responding to different characteristics, what do the Midget cells respond to?

Answer 18

Fine visual detail and color

Question 19

There are many types of ganglion cells associated with the visual pathway, parasol ganglion cells have _____________ cell bodies, ____________ receptive fields and ___________ axons.

Answer 19

Large

Question 20

There are many types of ganglion cells associated with the visual pathway, midget ganglion cells have __________ cell bodies, ___________ receptive fields, and ________________ axons.

Answer 20

Small, more numerous than parasol ganglion cells

Question 21

From the eye and retina (rods and cones), the path of transduction flows to the _______________, then to the lateral geniculate nucleus, and lastly the primary visual cortex.

Answer 21

Optic nerve

Question 22

Age-related macular degeneration, diabetic retinopathy, glaucoma, and cataracts are all visual disorders specifically related to…

Answer 22

the eye and the retina.

Question 23

In age-related macular degeneration, there is damage to the macula causing an affect on ______________ vision.

Answer 23

central

Question 24

In diabetic retinopathy, excess blood sugar damages retinal blood vessels. How does this affect vision?

Answer 24

Patchy vision loss throughout the visual field.

Question 25

Cataracts affects vision how?

Answer 25

Loss of lens transparency

Question 26

Glaucoma is caused by intraocular pressure, which causes damage to the optic nerve, this often affects vision how?

Answer 26

peripheral deficits

Question 27

Decreased peripheral vision = which disorder?

Answer 27

Glaucoma

Question 28

Objects are obstructed and unclear = which disorder?

Answer 28

Cataracts

Question 29

Patchy vision loss throughout the visual field = which disorder?

Answer 29

Diabetic retinopathy

Question 30

Central vision is obstructed = which disorder

Answer 30

Macular degeneration

Question 31

Explain the pathway of the retinal ganglion cells

Answer 31

Nasal retinal ganglion cells (RGCs) project contralaterally crossing at the optic chiasm.

Temporal retinal ganglion cells (RGCs) project ipsilaterally.

Question 32

What percentage of fibers cross at the optic chiasm?

Answer 32

60%

Question 33

Nasal retinal ganglion cells (RGCs) project contralaterally crossing at the optic chiasm. Temporal retinal ganglion cells (RGCs) project ipsilaterally. How does this support vision?

Answer 33

The two overlapping portions of each visual hemi-field (nasal: peripheral, temporal: central) end up together.

Question 34

After the optic chiasm, the right hemifield is represented on the _____ side; the left hemifield is represented on the __________ side.

Answer 34

After the optic chiasm, the right hemifield is represented on the left side; the left hemifield is represented on the right side.

Question 35

60% of fibers cross at the optic chiasm, most of the fibers travel to the ____________________ where they synapse.

Answer 35

Lateral geniculate nucleus (LGN) of the thalamus

Question 36

Neurons in the lateral geniculate nucleus (LGN) project to the primary visual cortex of the cerebrum (occipital lobe) via the _________________.

Answer 36

Optic radiations

Question 37

The optic radiations must pass around the ____________.

Answer 37

Lateral ventricle

Question 38

The optic radiations must pass around the lateral ventricle. Fibers carrying the representation of the superior visual field pass most laterally through _______________.

Answer 38

Meyer’s loop

Question 39

Information from the left visual field is ultimately processed in the _________ hemisphere.

Answer 39

Right

Question 40

Information from the superior (upper) visual field is processed in the ____________________ portion of the visual brain.

Answer 40

inferior

Question 41

The lateral geniculate nucleus has 6 layers, distinguished on the basis of _______________.

Answer 41

Cell size

Question 42

The magnocellular layers of the lateral geniculate nucleus are the (ventral 2 layers), information is received in these layers from the _________________ for…

Answer 42

Parasol retinal ganglion cells for motion and spatial analysis

Question 43

The parvocellular layers of the lateral geniculate nucleus receive information from the _____________ for…

Answer 43

Midget retinal ganglion cells for detailed form and color

Question 44

Information from the retina projects to 4 important subcortical regions, what are they?

Answer 44

1. Lateral geniculate nucleus
2. Pretectum
3. Superior colliculus
4. Hypothalamus

Question 45

The ___________ controls the pupillary light reflex

Answer 45

Pretectum

Question 46

The _______________ controls the orienting eye movements.

Answer 46

Superior colliculus

Question 47

The ____________ regulates the circadian rhythms.

Answer 47

Hypothalamus

Question 48

Information from the retina projects to 4 important subcortical regions,
1. Lateral geniculate nucleus
2. Pretectum
3. Superior colliculus
4. Hypothalamus
Which are involved in conscious vision and which are involved in subconscious vision?

Answer 48

Conscious:
1. Lateral geniculate nucleus

Subconscious:
2. Pretectum
3. Superior colliculus
4. Hypothalamus

Question 49

Primary visual cortex neurons respond selectively to lines/edges of different ______________.

Answer 49

orientations

Question 50

Parasol retinal ganglion cells and magnocellular layers of the lateral geniculate nucleus are involved in which aspect of vision?

Answer 50

Motion/spatial analysis

Question 51

Midget retinal ganglion cells and parvocellular layers of the lateral geniculate nucleus are involved in which aspect of vision?

Answer 51

Form and color

Question 52

Which cortex is involved in motion/spatial analysis?

Answer 52

Dorsolateral parieto-occipital cortex

Question 53

Which cortex is involved in form and color?

Answer 53

Inferior occipito-temporal cortex

Question 54

Lesion in the _________________ produces prosopagnosia: an inability to recognize faces.

Answer 54

right inferior temporal lobe

Question 55

The parietal/dorsal stream of information is specified to…

Answer 55

Where? (analysis of motion and spatial relations)

Question 56

The temporal/ventral stream of information is specified to…

Answer 56

What? (analysis of form and color)

Question 57

If there is damage to the right optic nerve, what type of deficit would you expect to see?

Answer 57

Loss of vision in the right eye

Question 58

If there is damage to the left optic nerve, what type of deficit would you expect to see?

Answer 58

Loss of vision in the left eye

Question 59

If there is damage to the optic chiasm, what type of deficit(s) would you expect to see?

Answer 59

Bitemporal (heteronomous) hemianopsia

(Temporal visual field of both eyes affected)

Question 60

If there is damage to the right optic tract, what type of deficits would you expect to see?

Answer 60

Left homonymous hemianopsia

(Left temporal visual field and right nasal visual field affected)

Question 61

If there is damage to the right optic radiation, what type of deficit(s) would you expect to see?

Answer 61

Left superior quadrantanopsia

(Left temporal upper quadrant and right nasal upper quadrant affected)