81 - Special Senses II (Vision)

Question 1

Accommodation

Answer 1

The automatic adjustment by which the eye adapts itself to distinct vision at different distances

Question 2

Presbyopia

Answer 2

Farsightedness due to ciliary muscle weakness and loss of elasticity in the crystalline lens

Question 3

Blind spot

Answer 3

A small area on the retina that is insensitive to light due to the interruption, where the optice nerve joins the retina, of the normal pattern of light-sensitive rods & cones

Question 4

Fovea

Answer 4

Area consisting of a small depression in the retina containing cones and where vision is most acute

Question 5

Binocula disparity

Answer 5

The difference in images of an object seen by left and right eye resulting from the eyes’ horizontal separation

Question 6

Prosopagnosia

Answer 6

An inability or difficulty in recognizing familiar faces; may be congenital or result from injury/disease of the brain.

Question 7

Object agnosia

Answer 7

Loss of ability to recognize objects

Question 8

Scotoma

Answer 8

Loss of vision in part of the visual field; blind spot

Question 9

How is the image on the retina different from the image you see?

Answer 9

Image on Retina is Inverted and Reversed

Question 10

Describe the difference between the location of rods and cones

Answer 10

Rods and cones are found in the retina, fovea and central fovea

Note that the fovea ONLY has cones

Question 11

What is the function of rods?

Answer 11

Rods are responsible for scotopic vision (dim light vision)

Rods have more pigment & see in dim light

Question 12

What is the function of cones?

Answer 12

Cones are responsible for phototopic vision (bright light vision)

Cones have three types of pigments (red, blue, green)

They need more light for acute vision

Question 13

How can the location and function of rods and cones be used to explain night vision?

Answer 13

• If you look directly at something in the dark, you can’t see it well (b/c you are using cones)
• If you look at it from the side, you wil be ablt to see an outline (b/c you are using rods)

Question 14

Which receptor mediates scotopic vision?

Answer 14

Rods

Question 15

Which receptor mediates phototopic vision?

Answer 15

Cones

Question 16

Describe the electrophysiological changes that occur when a photoreceptor is stimulated in darkness

Answer 16

In the dark, the rods are depolarized

• Na & Ca channels are open whenever there is enough cGMP
• Na & Ca keep coming in & K keeps going out
• Causes depolarization & release of neurtransmitter in the dark

Question 17

Describe the electrophysiological changes that occur when a photoreceptor is stimulated in the light

Answer 17

When there is light, the intracellular cGMP is reduced & the channels close

• K+ keeps leaving the cell & allows for hyperpolarization of the cell
• Result = decrease in release of neurtransmitter

Question 18

Describe the term receptive field for visual neurons

Answer 18

The receptive field of a neuron in the visual system can be defined as the area of retina from which the neuron can be influenced

Question 19

Describe the receptive field of bipolar cells

Answer 19

Bipolar cells have receptive fields with a center - surround organization. This means that they will respond more to a properly positioned spot of light (or dark spot in light) than to even illumination

Question 20

What is the overall function of photoreceptors?

Answer 20

Capture photons, release neurotransmitters onto bipolar cells

Question 21

What is the overall function of bipolar cells?

Answer 21

Receive neurotransmitters from photoreceptors, release neurotransmitters onto ganglion cells

Question 22

What is the overall function of ganglion cells?

Answer 22

The ONLY retina cells that produce action potentials (since their axons form the optic nerve) & are the output cells of the retina

Question 23

Which four nuclei accept retinal projections?

Answer 23

1 - Suprachiasmatic nuclei
2 - Pretectal nuclei
3 - Lateral geniculate nucleus
4 - Superior colliculi

Question 24

What is the function of retinal projections to the suprachiasmatic nuclei?

Answer 24

Circadian rhythms

Question 25

What is the function of retinal projections to the pretectal nuclei?

Answer 25

Mediate papillary light reflexes

• Papillary muscle relaxes for flat lens, distance vision
• Papillary muscle contracts for rounded lens, near vision

Question 26

What is the function of retinal projections to the lateral geniculate nucleus?

Answer 26

The LGN relays information to the visual cortex & receives input from visual cortex (90% of retinal axons terminate in LGN)

Question 27

What is the function of retinal projections to the superior colliculi?

Answer 27

In response to visual (or auditory/somatic) stimuli, the superior colliculi can cause eyes, head and even body to turn towards stimuli

Also part of a major visual pathway (retina -> superior colliculus -> pulvinar -> cortex)

Question 28

Describe the flow of information from the ganglia to the lateral geniculate to the striate cortex

Answer 28

There are several types of ganglion cells in the retina which are responsible for transmitting different kinds of information to the lateral geniculate. The lateral geniculate cells then carry this information to the striate cortex.

Question 29

What are the two main visual pathways from the striate cortex to higher order visual areas?

Answer 29

• Dorsal (spatial vision) pathway

- Ventral (object recognition) pathway

Question 30

Describe the dorsal (spatial recognition) pathway from the striate cortex to higher order visual areas

Answer 30

Dorsal stream responsible for the analysis of motion and relative positions of objects in visual scene. Neurons show selectivity for direction and speed of movement.

Question 31

Describe the ventral (object recognition) pathway from the striate cortex to higher order visual areas

Answer 31

Ventral stream is responsible for high-level form vision and object recognition. Neurons show selectivity for shape, color and texture. The most selective highest order neurons can respond preferentially to faces and objects

Question 32

How does this relate to the two separate hemispheres of the brain?

Answer 32

Since different aspects of vision are handled by different higher visual cortices, and each hemisphere only sees the opposite visual hemi-field, it is difficult to understand how we perceive a unified visual world. The corpus callosum helps by linking the cortical areas that represent the two hemifields

Question 33

What is the clinical relevance of parallel processing of different aspects of visual information? i.e. processing the spatial and object recognition parts of vision separately at the same time

Answer 33

Selective visual deficits are possible due to specific lesions

• Patients have been described who have problems visually identifying faces (prosopagnosia) or objects (object agnosia).
• Patients can lose the ability to see motion (cerebral akinetopsia).

Question 34

What would happen if there is a unilateral lesion in the region below the calcarine fissure (primary visual cortex)?

Answer 34

Selective loss of color vision in just one half of the visual field can be caused by unilateral lesions in a region below the calcarine fissure.

Question 35

Describe red-green color blindness

Answer 35

• Called red - green color blind if missing either red or green cone
• Such people have trouble distinguishing among green, yellow, orange, and red.

Question 36

What if a patient is missing both red and green cones?

Answer 36

No real color vision

Question 37

Describe monochromatopsia

Answer 37

Monochromatopsia (achromatic) people can have either one cone or no cones

Question 38

How do you test for color blindness?

Answer 38

Ishihara charts

Question 39

What is the inheritance pattern of red-green color blindness?

Answer 39

Genes for red and green cone pigments are on the X-chromosome. This is why red - green color blindness and color weakness is more common in males.

Question 40

Describe the inheritance of blue cone pigment

Answer 40

gene for blue cone pigment is on an autosomal chromosome (chromosome 7)

Question 41

Describe the inheritance of rhodopsin

Answer 41

Rhodopsin gene is on autosomal chromosome (chromosome 3)

Rhodopsin = pigment in rods

Question 42

What are three mechanisms of depth perception?

Answer 42

• Size of image of know objects on retina
• Motion parallax
• Stereoscopic vision

Question 43

Describe the size of image mechanism

Answer 43

Size of the image of known objects on the retina; since you know how big an object is you can judge how far away it must be.

Only requires ONE eye (monocular depth cue)

Question 44

Describe the motion parallax mechanism

Answer 44

Motion (or monocular movement) parallax. If you move your head or body nearby objects seem to move quickly, but distant objects move more slowly.

Only requires ONE eye (monocular depth cue)

Question 45

Describe the stereoscopic vision mechanism

Answer 45

You can use binocular vision for nearby objects

Requires BOTH eyes (binocular depth cues)

Question 46

Describe strabismus

Answer 46

a condition that interferes with binocular vision because it prevents a person from directing both eyes simultaneously towards the same fixation point; the eyes do not properly align with each other.

Cross-eyed

Question 47

Describe amblyopia

Answer 47

Also called lazy eye, is a disorder of sight. It involves decreased vision in an eye that otherwise appears normal, or out of proportion to associated structural problems of the eye.

Question 48

What causes strabismus?

Answer 48

• Can be caused by failure of the eyes to fixate on the same point
• This would cause diplopia or double vision
• Some people with problem alternate which eye fixates objects

Question 49

How can strabismus affect vision?

Answer 49

In young children, tendency is to use one eye for fixation and eventually suppress vision from other eye. The brain learns to ignore the suppressed eye which develops amblyopia.

Question 50

Why is it clinically important to detect strabismus early in life?

Answer 50

Early treatment (before age 6) can prevent loss of vision from the suppressed eye. Treatment can include intermittent patching of the “good” eye to force the brain to pay attention to the suppressed eye.

Question 51

What can occur if strabismus is not treated?

Answer 51

Untreated children can develop amblyopia. Studies are underway to determine if older children (or even adults) with amblyopia can be helped by the treatments which are used with young children.

Question 52

What are three things that you need to remember regarding the relationship of the retinal image to the visual field and receptive field?

Answer 52

• Remember, image on retina inverted and reversed.
• Ganglion cell axons from nasal retina cross at optic chiasm
• Ganglion cell axons from temporal retina uncrossed.

Question 53

What is the result of these three relationships?

Answer 53

The left visual field projected to nasal retina of left eye and temporal retina of right eye, both of which project to the right lateral geniculate which in turn projects to right hemisphere striate cortex

Question 54

What are the four clinically important effects of lesions?

Answer 54

• Monocular blindness
• Bitemporal hemianopsia
• Homonymous hemianopsia
• Superior quadrant anopsia

Question 55

What causes monocular blindness?

Answer 55

A lesion after the optic chiasm directly before the eye

Question 56

What causes bitemporal hemianopsia?

Answer 56

Damage to central part of optic chiasm

Question 57

What causes homonymous hemianopsia?

Answer 57

Homonymous hemianopsia occurs contralateral to optic tract damage

Question 58

What causes superior quadrant anopsia?

Answer 58

Superior quadrant anopsia contralateral to lesion of

Meyer’s loop

Question 59

Which type of vitamin deficiency can cause night blindness?

Answer 59

Vitamin A

Question 60

Why is vitamin A important for vision?

Answer 60

Vitamin A is involved in the intermediate step of recycling photopigments after capture of a photon of light

Needed from diet (can’t synthesize it)