VISUAL SYSTEM

Question 1

What type of photoreceptor is most abundant at the FOVEA?

Answer 1

CONES

• avascular region

Question 2

Which photoreceptor is found on the peripheral part of the retina, is monolithic, transient, and for low light?

Answer 2

RODS

Question 3

Where do axons of ganglion cells converge to form the optic nerve?

Answer 3

OPTIC DISK

• blind spot

Question 4

What is the visual pathway from the retina?

Answer 4

1. Optic nerve
2. Optic Chiasm
   ( nasal retina axons cross)
3. Optic Tract
4. Lateral Geniculate
5. Optic Radiations
6. Visual Cortex (occipital lobe)

Question 5

Which parts of the retina cross? Which don’t? Which project medially? Laterally?

Answer 5

1. TEMPORAL PORTIONS of retina DO NOT cross
   - medial vision
2. Nasal portions cross
   - lateral vision

Question 6

70% of the visual cortex comes from what region?

Answer 6

FOVEA

Question 7

Which cells have:
1. Large cell bodies
2. Dense DENDRITES
3. LARGE receptive fields
4. Rapidly adapting
5. respond best to MOVEMENT
Which photoreceptors are these cells composed of?

Answer 7

M-Type cells
(Magno-cellular)

• RODS!!!

(M=man is color blind)

Question 8

Which cells have:

1. Small cell bodies
2. short DENDRITES
3. SMALL receptive fields
4. more in FOVEA
5. respond best to COLOR & FINE DETAIL

Which photoreceptors are these cells composed of?

Answer 8

P-Type
(Parvo-cellular)
-CONES!!!

Question 9

Where does perception begin? Where else does information enter the brainstem?

Answer 9

Primary Visual Cortex
(AREA 17 in the Calcarene fissure of Occipital Lobe)

ALSO:

1. Pretectal Area (pupillary light reflex)
2. Superior Colliculus (head & neck movements –> descending MLF)

Question 10

For optic radiations, where do upper fibers travel? Lower?

Answer 10

upper = PARIETAL

lower = TEMPORAL

Question 11

Upper optic radiations end up at which visual field? lower?

Answer 11

Upper = INFERIOR

Lower = SUPERIOR

Question 12

Which fibers makeup Meyer’s loop?

Answer 12

LOWER optic Radiations

Question 13

If you cut the RIGHT optic nerve, what is the result?

Answer 13

RIGHT EYE blindness

Question 14

If you cut the OPTIC CHIASM, what is the result?

Answer 14

TUNNEL VISION

• Bilateral Hemianopeia
• lateral (nasal) vision is not functioning

Question 15

If you cut the RIGHT optic TRACT, what is the result?

Answer 15

Homonymous Hemianopia in the LEFT

lose temporal vision of LEFT eye, and RIGHT nasal vision of RIGHT eye

Question 16

If you cut the RIGHT MEYER’s loop, what is the result?

Answer 16

(lower fibers = SUPERIOR vision)

Left Homonymous Superior Quadrantanopia (upper)

PIE IN THE SKY!!!

Question 17

If you cut the RIGHT Lateral Geniculate fibers, what is the result?

Answer 17

same as cutting the optic tract

- LEFT homonymous Hemianopia
lose left temporal field, and right nasal field

Question 18

If you partially lesion the RIGHT Optic Radiation fibers, what is the result?

Answer 18

LEFT Homonymous INFERIOR Quadrantinopeia

Question 19

If you lesion all the RIGHT Optic Radiation fibers (either stroke or car accident), what is the result?

Answer 19

Left Homonymous Hemianopeia with Macular Sparing

Question 20

What is the direct reflex and the consensual reflex?

Answer 20

Direct = light shone into LEFT eye so pupil constricts

Consensual = RIGHT pupil constricts as a result to the light in the left eye

Question 21

Why do both pupils constrict when light is shone into the Right eye?

Answer 21

Bilateral Connections to Edinger-Westphal nucleus by optic fibers

• in SUPERIOR COLLICULUS & PRETECTAL area

Question 22

Which area is responsible for the pupillary right reflex?

Answer 22

PRETECTAL area

Question 23

If the RIGHT optic nerve (CN2) is damaged, and light is shown into this eye what is the result? What if light is shined into the eye without the lesion?

Answer 23

NEITHER PUPIL constricts

(direct response lacking and consensual)

BOTH PUPIL constrict when shine light into opposite eye (consensual response & direct response in tact)

Question 24

What is the result if light is shined into an eye with CN3 lesioned?

Answer 24

PUPIL in neither eye responds to the light (regardless of damaged eye)

Question 25

What are the sympots of Horner’s syndrome? What has been lesioned?

Answer 25

1. Meiosis
2. Ptosis
3. Anhydrosis

• lesion of Superior Cervical Ganglion

Question 26

What are the 3 results in changing gaze to focus on a nearby object?

Answer 26

1. Vergeance of eyes (contract medial recti)
2. Ciliary muscle constrict (lens thickens since tension released on zonulr fibers)
3. Constriction of both pupils (to reduce light and improve optical performance)

Question 27

What is the corneal eye blink reflex mediated by?

Answer 27

1. Free nerve endings in cornea
2. Spinal Trigeminal (pain)Tract or Chief Sensory (touch)
3. Interneurons
4. Motor neurons in CN 7
5. Orbicularis oculi

Question 28

What distributes information from each cornea during the CORNEAL BLINK REFLEX bilaterally to Facial Motor Neurons?

Answer 28

Reticular Formation Interneurons

(relay station)

• eye blink is consensual = happen to both eye

Question 29

The corneal blink reflex directly involves with 2 cranial nerves?

Answer 29

CNV1 (ophthalmic division)

CN 7 - Orbicularis Oculi

(CN 8 also, since responding to loud sounds can cause us to blink, CN 3 = respond to bright light)

Question 30

Which layer of the primary visual cortex is most expanded?

Answer 30

IV

Question 31

What are the 3 specialized hyper columns and their main functions?

Answer 31

1. Orientation –> spatial (vertical, horizontal perception)
2. Blobs –> color specificity
3. Occular DOminance - LEFT vs RIGHT

Question 32

Which cells are responsible for motion and spatial relationships or WHERE an object is?

Answer 32

MAGNOCELLULAR

Question 33

Which cells are responsible for depth and form, stationary objects & shapes?

Answer 33

PARVOCELLULAR cells

• interblob = depth and form
• blob = color sensitivity

Question 34

Which cortex (temporal or Parietal) is responsible for where an object is? What an object is?

Answer 34

Parietal (dorsal stream, non-color discriminative info) = WHERE

TEMPORAL (ventral stream from color & non) = WHAT AN OBJECT IS

Question 35

What are the 2 ways to detect motion o an object?

Answer 35

1. Image moves temporally across retina (eye =stationary)

2. Head & eyes move to fix image on FOVEA

Question 36

Where is movements best represented?

Answer 36

Middle Temporal area of V5 (Medial Superior Temporal area)

Question 37

If the head is not moving, what kind of detection is used?

Answer 37

TEMPORAL

Question 38

How does the cortex perceive color?

Answer 38

Compares the differences in brightness & output, thus assigned a COLOR to that particular combo

Question 39

What kind of color cones are missing in the fovea?

Answer 39

BLUE

Question 40

How many cone systems does a human have?

Answer 40

3

Red
Bue
Green

Question 41

On presentation to the emergency room, the pupillary light reflexes are tested on an unconscious patient.  The direct response to stimulation of the right eye is normal, as is the consensual response.  Both the direct and consensual responses are absent when light is shown in the left eye.  Where is the deficit in this patient?
Optic chiasm
Right optic tract
Left optic nerve
Left oculomotor nerve
Right calcarine sulcus

Answer 41

C) Left Optic N.

Question 42

A 79-year-old woman complains to her physician that she is having trouble seeing. She has no previous history of visual problems. Visual field examination reveals a right, superior quadrantanopia. Ophthalmoscopic examination shows no abnormalities with the optic disc, retinal vasculature or signs of retinal detachment. Which one of the following represents the most likely location of the lesion in this woman?

a) Left lateral geniculate nucleus (inferior quadrantinopea)
b) Left Meyer’s loop
c) Left calcarine gyrus
d) Right Meyer’s loop
e) Right optic tract

Answer 42

B) Left Meyer’s Loop

Question 43

. A visit to her physician confirms a partial visual loss, and MRI reveals a vascular lesion in the right hemisphere in the upper Calcarene sulcus. What deficits is the woman experiencing?

a) Left homonymous hemianopia
b) Left inferior quadrantanopia
c) Left superior quadrantanopia
d) Right inferior quadrantanopia
e) Right superior quadrantanopia

Answer 43

b) Left Inferior Quadrantanopia