Eye Stuff (56b - 65b)

Question 1

Between which two layers of the eye is the retinal pigment epithelium located?

Answer 1

Between photoreceptos and the choroid

Question 2

What are some of the common causes fo cataract?

Answer 2

• Lens fibers lose transparency
• Usually age related
• May be caused by steroids
  
  • Results in posterior subcapsular cataract

Question 3

What are the symptoms of cataract?

Answer 3

• Improved near vision
• Worse:
  
  • Glare
  • Far vision
  • Night vision
• Changes in color

Question 4

Describe the symptoms/signs of retinal vein occlusion

Answer 4

• Sudden, painless, visual field defect + loss of vision
• Will see hemorrhages (not blanching) on eye exam

Question 5

What are the consequences of damage to burst neurons?

Answer 5

Cannot generate saccadic eye movements

Question 6

Visual acuity of _____ or worse is classified as legal blindness

Answer 6

Best corrected visual acuity of 20/200 or worse is classified as legal blindness

• Someone with 20/200 vision that can be corrected (with glasses) is not legally blind (in terms of disability elligibility)

Question 7

How would you inhibit accomodation to get an accurate measurement of a patient’s refractive power?

Answer 7

Cycloplegic refraction

Important especially in younger patients who are really good at accomodating (suspect especially if pupils are always constricted and/or they look a bit cross-eyed; due to synkinetic refelex during accomodation)

Question 8

A patient’s fundus exam looks like this

What lifesytle interventions would you suggest?

Answer 8

These are drusen, indicative of age-related macular degeneration

• Stop smoking
• Take vitamins! AREDS 1 or AREDS 2
• Eat green leafy vegetables

Note: Anti-VEGF treatment begins when AMD has progresssed to exudative stage

Question 9

When retinal ganglion cells are damaged, will rod vision, cone vision, or both be affected?

Answer 9

Both!

• The rod and cone pathways converge on the RGCs
  
  • The rod pathway “piggybacks” onto the cone pathway

(RGCs may be damaged in glaucoma or neurodegenerative disease)

Question 10

What is “disparity” as it applies to vision?

Answer 10

Slightly different views seen by the right eye and the left eye

• The brain uses these differences to make calculations about depth - this is stereopsis

Question 11

What two features of primate vision does the midget system support?

Answer 11

High accuity

Red/green color opponency

Question 12

Until what age is eye patching useful to treat amblyopia?

Answer 12

9-10 years old

Question 13

Scotomas that are “homonymous but noncongruent” indicates what kind of damage to the lateral geniculate nucleus?

Answer 13

Damage to some but not all layers

Question 14

Which area of the brain is involved in visual memory, learning, and recognition?

Answer 14

Temporal lobe

Vs. parietal lobe, which is responsible for attention/awareness of objects in the visual field

Question 15

A patient presents with ptosis and diplopia that is worse in the evening, and not always present.

They note that sometimes they have trouble getting words out, and they are choking on food more often when eating.

When you apply ice to the patient’s face the ptosis improves

What is your leading diagnosis? How would you confirm?

Answer 15

Myasthenia gravis

Confirm using tensilon test

Question 16

What is the differential for leukocoria in an infant?

Answer 16

• Cataract
• Coloboma
• Retinoblastoma
  
  • Most concerning

Question 17

What test is used to see if a patinet’s eyes are in alignment?

Answer 17

Light reflex

Question 18

How would damage to the 6th nerve nucleus present?

Answer 18

Bilateral loss of abduction

CN VI only has one nucleus for both sides?

Question 19

What changes to the retina occur with diabetic retinopathy?

How will this affect vision?

Answer 19

• Loss of pericytes and endothelial cells
• Basement membrane thickening
• Decompensated endothelial function
• Leakage and microvascular occlusion
• -> Retinal hypoxia
• -> Expresssion of molecules
• -> Breakdown of retina/blood barrier
• Can lead to neovascularizaiton (in proliferative DR)

Question 20

If a rod cell catches some light, does it become hyperpolarized or depolarized?

How does this fit into the visual pathway?

Answer 20

If a rod cell catches some light, it becomes hyperpolarized

• Rod cells are very sensitive to single photons, even in really dim light
• This means they can help support the cone pathway / allow us to deduce what is going on when there isn’t a lot of light
• The hyperpolarized rod cell is turned OFF
• Allows amacrine (A2) cells to send activating signal to ON bipolar cells
  
  • “Helloooo we see some light!”
• Signal that there is some light to RGCs
• Allows us to make some sense of what is going on
  
  • But no color vision and decreased acutiy because the cone cells aren’t signaling as much/providing as much invo to ON bioplar cells

Although somehow cones are insensitive to light? If the above is WAY off base please lmk so I can attempt to pass this exam :o

Question 21

A patient presents with flashes and floaters

What are the most likely causes?

How do you differentiate?

Answer 21

Posterior vitreous detachment vs. Retinal detachment

• Retinal detachment will be accompanied by a curtain/veil loss in vision
  
  • This is an emergency! Call the ophthamologist!
• PVD is less serious and typically doesn’t present with vision loss
  
  • Normal as we age

Question 22

What systemic conditions are associated with retinal artery occlusion?

Answer 22

• Hypertension
• Diabetes
• Hypercholosterolemia

These, plus hypercoagulable state are the conditions also associated with retinal vein occlusion

Question 23

How might a posterior communicating aneurysm present?

Answer 23

3rd nerve palsy - eye dilated, in down and out position

MUST evaluate for Pcomm aneurysm to prevent subarachnoid hemorrhage

Question 24

In myopia:

• Light is focused [anteroir/posterior] to the retina
• The eye is [over/under] powered
• May be because the eye is too [long/short] or the cornea is too [steep/flat]
• Correct with a [converging/diverging] lens

Answer 24

In myopia:

• Light is focused anterior to the retina
• The eye is over powered
• May be because the eye is too long or the cornea is too steep
• Correct with a diverging​ lens

Question 25

What defines wet/exudative age-related macular degeneration/

Answer 25

Neovascularization

• Irrecularities caused by drusen promote angiogenesis
• Leads to bleeding (toxic to the retina) and fibrosis
• Wet AMD = end-stage

Picture = drusen

Question 26

Describe the pathway of choroidal circulation, staring with the internal carotid artery

Answer 26

• Internal carotic
• Short posterior ciliary artery
• Long posterior ciliary artery
• Anterior ciliary artery

Anastomoses exist in the choroidal circulation :)

[But not in the retinal circulation :(]

Question 27

Flattening the cornea would fix [myopia/hyperopia]

Steepening the corena would fix [myopia/hyperopia]

Answer 27

Flattening the cornea would fix myopia

Steepening the corena would fix hyperopia

Question 28

What is Adie’s puil?

How does it present?

Answer 28

Acute, idiopathic, postganglionic ciliary nerve dysfunction

-> pupil cannot constrict

Question 29

What is the definition of glaucoma?

Answer 29

Visual field defects due to optic nerve damage

Typically associated with high intraocular pressure

Question 30

Postganglionic neurons that control pupillary dilation are located in the [location]

Answer 30

Postganglionic neurons that control pupillary dilation are located in the superior cervical ganglion

• Arousal
• -> IML: Sends preganglionic sympathetics
• -> Superior cervical ganglion: sends postganglionic sympathetics
• -> Pupil dilator

Question 31

The choroidal circulation is under [autonomic/metabolic] control

The retinal circulation is under [autonomic/metabolic] control

Answer 31

The choroidal circulation is under autonomic control

The retinal circulation is under metabolic control

Question 32

What prevents vascular growth in the retina?

Answer 32

Soluble VEGF receptors

• Bind VEGF and prevent it from initiating angiogenesis
  
  • Basically, these receptors sequester VEGF o prevent it from having any effect

Question 33

A right “pie in the sky” visual field defect results from damage to what structure?

Answer 33

Left Meyer’s loop (temporal) lesion

Question 34

List the steps in the phototransduction cascade

(Staring with light hitting a rod cell)

Answer 34

*Remember, there is amplification at each step*

• Photon absorption converts 11-cis-retinal to all-trans retinal
• Rhodopsin is activated
• Activates transducin via GPCR
• PDE synthesized
• Converts cGMP to 5’-GMP
• Decreased cGMP -> closing of Na+ channel
• Cell hyperpolarization
  
  • Rod cell is turned off
  • Allows amacrine cells to activate ON bipolar cells, which signal to RGCs
  • Basically, this pathway is more sensitive in low light. It helps signal to RGCs so we put an image together, even when we’re not getting a lot from the cone pathway

Question 35

Preganglionic neurons that control pupillary dilation are located in the [location]

Answer 35

Preganglionic neurons that control pupillary dilation are located in the interomediolateral cell column (IML)

• Arousal
• -> IML: Sends preganglionic sympathetics
• -> Superior cervical ganglion: sends postganglionic sympathetics
• -> Pupil dilator

Question 36

What is the limiting factor in our visual acuity?

Answer 36

Cone spacing in the fovea

Question 37

Which veins collect uveal blood and carry it away from the eye?

Answer 37

Vortex veins

Basically, these are the veins of the choroidal circulation, but they are NOT paired with the arteries

Question 38

What isthe function of the omnipause neurons in the retiular formation?

Answer 38

Inhibit burst neurons

Question 39

Response to movement in the visual world is associated with the [temporal/parietal] stream, and the [parvocellular/magnocellular] pathway

Answer 39

Response to movement in the visual world is associated with the parietal aka dorsal stream, and the magnocellular ​pathway

This is the “where” pathway, associated with the medial LGN
(layers 1-2)

Damage -> pizza on the floor, neglect of objects

*Movement = magnocellular (but parietal stream)
Perception = parvocellular (temporal stream)*

Question 40

Perception of the visual world is associated with the [temporal/parietal] stream, and the [parvocellular/magnocellular] pathway

Answer 40

Perception of the visual world is associated with the temporal aka ventral stream, and the parvocellular ​pathway

This is the “what” pathway, associated with the lateral LGN
(layers 3-6)

Damage -> pie in the sky

*Movement = magnocellular (but parietal stream)
Perception = parvocellular (temporal stream)*

Question 41

Partial damage to the right lateral geniculate nucleus results in what visual field defet?

Answer 41

Nearly homonymous (but not identical) left visual field defects

Question 42

What is the treatment for retinopathy of prematurity/

Answer 42

• Diode laser retinal photocoagulation
• Anti-VEGF therapy

Treat if stage 3 with plus disease (idk what this means)

Question 43

What is the most common cause of blindness in the working-age population in developed countries?

Answer 43

Diabetic retinopathy

Question 44

A 72 year old woman presents with acute, painless, severe vision loss. She is having trouble seeing things above her.

Eye exam shows chalky white swelling

What additional symptoms would make you concerned for temporal (giant cell) arteritis?

Answer 44

This patient has AION

MUST rule out temporal arteritis

Concerning symptoms include:

• Headache
• Tender scalp
• Jaw claudication
• Fever, weight loss, malaise

Treat with steroids if there is any suspicion

Question 45

Postganglionic neurons that control pupillary constriction are located in the [location]

Answer 45

Postganglionic neurons that control pupillary constriction are located in the ciliary body

• Light
• -> Melanopisn contianing RGC
• -> Olivary pretectal nucleus
• -> Edinger-Westphal nucleus - start of the afferent pathway
  
  • Generates signals to constrict to both pupils
  • Sends preganglionic neurons
• -> Ciliary ganglion
  
  • Sends postganglionic neurons with CN III parasympathetics
• Postganglionic neurons go to pupillary constrictor muscle

Question 46

Which photoreceptors do we use for high-acuity vision?

Answer 46

Red and green cones

• Red and green light are better concentrated in the fovea, so these cones are most active in high acutity vision
• Blue light does not focus well in the fovea
  
  • We have way fewer blue cones

Question 47

What are the signs/symptoms of 4th nerve palsy?

Answer 47

Eye on legion side is higher (hypertropia), more prominent when that eye looks medially

Head tilts away from lesion side

Ex: Right 4th nerve palsy:

• Right eye higher than left, more prominent when eye looks to the left
• Head tilts to the left

Question 48

What tumor is associated with horner syndrome?

Does this affect preganglionic or postganglionic fibers?

Answer 48

Pancost lung tumor

Affects preganglionics (coming from IML to superior cervical ganglion

Question 49

Preganglionic neurons that control pupillary constriction are located in the [location]

Answer 49

Preganglionic neurons that control pupillary constriction are located in the Edinger-Westphal** **nucleus

• Light
• -> Melanopisn contianing RGC
• -> Olivary pretectal nucleus
• -> Edinger-Westphal nucleus - start of the afferent pathway
  
  • Generates signals to constrict to both pupils
  • Sends preganglionic neurons
• -> Ciliary ganglion
  
  • Sends postganglionic neurons with CN III parasympathetics
  • Postganglionic neurons go to pupillary constrictor muscle

Question 50

Describe the pathophysiology of retinopathy of prematurity

Answer 50

• Phase 1
  
  • Extrauterine hyperoxic environment
  • Baby is introduced to oxygen too early -> decreased VEGF
  • Leads to vaso-obliteration
  • At this stage, VEGF is good and oxygen is bad
• Phase 2
  
  • Not enough oxygen
  • Too much VEGF
  • Results in neovascularization
  • At this stage, VEGF is bad and oxygen is good
• -> Retinal traction
• -> Detachment

Question 51

Which structure in the eye makes aqueous humor?

Answer 51

Ciliary epithelium

Question 52

What does a contact prescription of +3.00 +1.50 x 90° mean?

Answer 52

+3.00 power to one axis, and an extra 1.50 at 90°

This would correct a hyperopic astygmatism

Question 53

These spots are associated with which eye disease?

Answer 53

Age-related macular degeneration

• These are drusen
• Appear early in AMD
• Increase as the disease progresses
  
  • Cause irregularities that can lead to neovascularization (indicates wet/exudative AMD; this is end-stage)
• Tissue loss over the drusen = permanent eye damage

Question 54

A 3 year old healthy boy presents with crossed eyes, noticed by his caretaker over the past few months.

The patinet does not complain of vision loss or diplopia.

How would you treat this patient?

Answer 54

• Evaluate with cycloplegic refraction
  
  • Possible that eyes are crossing becaues the patient is constantly accomodating to correct his hyperopia
  • This is caused by the synkinetic reflex
    
    • Convergence and pupillary constriction both occur with accomodation
• If the child has been accomodating
  
  • Prescribe glasses so the patient can see without self-accomodating
• If the child has not been accomodating
  
  • Surgery to straighten the eyes

If untreated, risk of permanent amblyopia

Question 55

What are the roles of the frontal eye field and the parietal cortex in generating saccades?

Answer 55

They both transform a sensory signal into a motor command

Frontal eye field = “oh I want to look out the window”

Parietal cortex = “WTF just went by the window” (and then you reflexively look over there)

• Frontal eye field or parietal cortex - sensory signal to motor command
• -> Superior colliculus - Controls size and direction
• -> Lateral geniculate
• -> Reticular formation - Generate burst and tonic command components
  
  • -> Final saccade command

Question 56

What are the symptoms of acute angle closure glaucoma?

Answer 56

Sudden onset:

• Pain, headache, nausea, vomiting
• Redness
• Photophobia
• Blurred vision/halos

Question 57

If it is LIGHT, are each of the following hyperpolarized or depolarized?

• Cones
• OFF bioplar cells
• ON bipolar cells

Answer 57

In the LIGHT

• Cones - hyperpolarized
• OFF bioplar cells - hyperpolarized
• ON bipolar cells - depolarized
  
  • ​Signaling to RGC: I have seen the light!!

Note: in very dim light, the signals from the ON bipolar cells need some help. This is where the rod pathway comes in (I think). Due to the phototransduction cascade, rod cells are hyperpolarized and turned off in the light, allowing amacrine cells to send activating signals to ON bipolar cells, and tell the RGCs “I have seen the light!!”

Question 58

Describe the activity of burst neurons…

• When our eyes our still
• During a saccade

Answer 58

• When our eyes our still
  
  • Burst neurons are inhibited by omnipause neurons
• During a saccade (ex: to the right)
  
  • Omnipause neurons “pause” their inhibition of burst neurons
  • Burst neurons signal to ocular motor and tonic neurons
    
    • Ocular motor neuron sends signal extraocular muscle (ex: abduct right eye)
    • Tonic neuron helps us hold our gaze there
  • Burst neuron also sens signal to contrlateral brainstem (ex: to the left MLF)
    
    • Results in congugate gaze shift (ex: left eye looks right)

Question 59

The retinal circulation supplies the [inner/outer] retina

The choroidal circulation supplies the [inner/outer] retina

Answer 59

The retinal circulation supplies the inner retina

The choroidal circulation supplies the outer retina
^ includes photorecepotors

Question 60

What is the role of the superior colliculus in generating saccades?

Answer 60

Cotnrols the size and direction of the saccade (contralateral)

This is where the initial motor command is generated

• L superior colliculus controls saccade to the right
• Frontal eye field or parietal cortex - sensory signal to motor command
• -> Superior colliculus - Controls size and direction
• -> Lateral geniculate
• -> PPRF - Generate burst and tonic command components
  
  • -> Final saccade command

Question 61

What method is used to assess refractive error in patinets that are pre-verbal?

Answer 61

Retinoscopy

Question 62

What is the efffect of a lesion in the calcarine cortex?

Answer 62

Blindness in the affected regions of the visual field

Question 63

What is papilledema?

How does it present?

What causes it?

Answer 63

Papilledema = disc swelling due to elevated intracranial pressure

• Headache
• Tinnitus
• Grey outs of vision when standing up
• Nausea, vomiting

Most concerning cause: tumor

May also be

• Venous sinus thrombosis
• Severe HTN
• Idiopathic (pseudotumor cerebri)
  
  • Classic patient is a young, obese woman

Question 64

What tools can be used to meausre corneal astigmatism?

Answer 64

Keratometry

Corneal topography

Slit lamp examination (look for scar causing irregular astigmatism)

Question 65

What horizontal eye movement can still be made after right side brainstem damage produces one-and-a-half syndrome?

Which structures specifically are damaged?

Answer 65

Left eye abduction is still possible

• Right eye cannot look left (adduct) due to right MLF damage
• Neither eye can look right (saccade to the right) due to right PPRF damage
  
  • Right eye abduction imparied due to PPRF damage
  • No signal for right eye to look right = no signal to left MLF to adduct, even if the left MLF is intact

Question 66

Damage to the medial right LGN results in loss of which visual field?

Answer 66

Left lower quadrant

Medial LGN = layers 1-2 = parietal stream

(vs damage to the lateral right LGN leads to loss of the left upper quadrant)

(Pizza on the floor)

Question 67

Homonymous hemianopsia with macular sparing result in damage to which area of the brain?

Answer 67

Contralateral calcarine cortex

Question 68

Which cells are damaged in glaucoma, leading to vision loss?

What is the mechanism of damage?

Answer 68

Retinal ganglion cells

Damaged due to high intraocular pressure that either:

• Compresses axons, resulting in reduced axonal transport
• Compresses blood flow to the axons, causing RCGs to die

Question 69

What is the most common cause of untreatable visual loss in the elderly?

Answer 69

Age-related macular degeneration

Question 70

[Retinal/choroidal] circulation supplies the photoreceptors

Answer 70

Choroidal circulation supplies the photoreceptors

Question 71

What is the leading cause of vision loss among children/

Answer 71

Amblyopia

• Strabismic (misaligned eyes)
  
  • Brain ignoes eye that isn’t straight to prevent diplopia
• Refractive
  
  • Brain ignores the eye with larger refractive error
• Deprivation
  
  • Ptosis, cataract, corneal scar
  • Brain ignores the deprived eye

Question 72

At what age should congenital cataract surgery be performed?

Answer 72

6 weeks

• Early enough to correct vision without long-term consequences
• Late enough to avoid risk of serious complications of surgery/anesthesia in an infant

Question 73

What are the consequences of damage to tonic neurons?

Answer 73

Gaze nystagmus

• Can make the saccade to lood at an object, but cannot hold gaze there
• Results in a “jump then drift” eye movement pattern

Question 74

What symptoms are suggestive of a reitnal detachment?

Answer 74

• Flashes and floaters in one eye
• Visual field cut / loss of vision

Floaters and flashes only may indicate vitreous detachment

Floaters, flashes, loss of vision = suggestive of retinal detachment

Question 75

Which structure generates vertical saccade burst and tonic commands?

Which structure generates horizontal saccade burst and tonic commands?

Answer 75

• Vertical saccades - rostral interstitial nucleus of the MLF
• Horizontal saccades - PPRF

Note: the burst and tonic commands are like the “final go ahead” that communicates with the extraocular muscles

For horizontal saccades:

• Frontal eye field or parietal cortex - sensory signal to motor command
• -> Superior colliculus - Controls size and direction
• -> Lateral geniculate
• -> PPRF - Generate burst and tonic command components
• -> Final saccade command

​

Question 76

What are the functions of the RPE? (6)

Answer 76

• Blood-retinal barrier
• Light absorption - anything not caught by photorecptors, prevents scatter
• Epithelial transport
• Visual cycle - regenerates the visual pigment
• Phagocytosis - of photorecptors that are worn out
• Secretion - of growth factors PEDF, VEGF
  
  • PEDF = anti angiogenic, to the retinal side
  • VEGF = angiogenic, to the basal side; bad if upregulated

Question 77

Damage to the lateral right LGN results in loss of which visual field?

Answer 77

Left upper quadrant

LateralLGN = layers 3-6 = temporal aka ventral stream

(vs damage to the medial right LGN leads to loss of the left lower quadrant)

(Pie in the sky)

Question 78

What refractive error can be corrected with a limbal relaxing incision?

Answer 78

Severe corneal astigmatism

• Tiny cuts through the limbus can help relax one axis of the cornea, reducing the difference in refractive power

Question 79

In hyperopia:

• Light is focused [anteroir/posterior] to the retina
• The eye is [over/under] powered
• May be because the eye is too [long/short] or the cornea is too [steep/flat]
• Correct with a [converging/diverging] lens

Answer 79

In hyperopia:

• Light is focused posterior to the retina
• The eye is under powered
• May be because the eye is too short or the cornea is too flat
• Correct with a converging​ lens

Question 80

What causes coloboma?

Answer 80

Failure of the embryonic fissure to close

• May be anterior or posterior
  
  • Anterior: iris, lens
  • Posterior: retina, choroid, optic nerve

Question 81

What eye movement cannot be made after the left MLF is damaged?

Answer 81

Left eye cannot adduct

(Left eye cannot look right)

Results in unilateral internuclear ophthalmoplegia

Question 82

Which premature infants are at risk for retinopathy of prematurity?

Answer 82

Low birth weight, earlier gestational age

Also: Anemia and need for supplemental O2

• Screen for retinopathy of prematurity if:
  
  • Weighs <1500 grams
  • Born at <=30 wks

Question 83

What are the consequences of damage to the right PPRF?

Answer 83

Saccades to the right cannot be generated

(Cannot look toward the legion)

• Right eye cannot look right
• No signal to left MLF to look right
• => Neither eye can look at an object to the right

Question 84

If it is DARK, are each of the following hyperpolarized or depolarized?

• Cones
• OFF bioplar cells
• ON bipolar cells

Answer 84

In the DARK

• Cones - depolarized
• OFF bioplar cells - depolarized
  
  • Signaling to RGC: it is dark!!
• ON bipolar cells - hyperpolarized

Question 85

Which layer of tissue regenerates visual pigment?

Answer 85

Retinal pigment epithelium

Question 86

In what pathologies wil you see cotton wool spots?

Answer 86

• Nonproliferative diabetic retinopathy
  
  • Still present in proliferative, but will see more hemorrhage
• Hypertensive retinopathy
• Temporal arteritis

Question 87

Which gene is mutated in retinoblastoma?

Answer 87

RB1

• Very concerning if retinoblastoma in both eyes - indicates germline mutation
  
  • => All cells are affected :(

Question 88

What is the main function of the ventral stream pathways?

Answer 88

Visual perception

Question 89

What are feature detectors in the eye?

Answer 89

Detectors of visual patterns that are more complex than those that excite hypercomplex neurons