Optics

Question 1

Causes of acquired myopia

Answer 1

All refractive shift can be broken into cornea, lens, and eyeball:

Corneal changes

• overcorrected hyperopic lasik
• undercorrected myopic lasik
• keratoconus

Lens changes

• anterior dislocation of the lens (ectopia lentis)
• microspherophakia
• nuclear sclerosis
• diabetes
• night myopia

Anterior shift of the lens-iris diaphragm:

• choroidal effusions
• PRP
• topamax, other sulfa drugs
• pregnancy
• miotic drops

Eyeball changes

• posterior staphyloma
• scleral buckle
• congenital glaucoma

Question 2

Causes of acquired hyperopia

Answer 2

All refractive shift can be broken into cornea, lens, and eyeball:

Cornea:

• overcorrected myopic LASIK
• undercorrected hyperopic LASIK

Lens:

• posterior dislocation of the lens
• cycloplegic drops
• aphakia
• 3rd nerve palsy (with internal ophthalmoplegia)
• PRP (can’t accomodate)

Eyeball:

• CSR
• choroidal tumors
• retro-orbital masses or hardware

Question 3

Causes of acquired astigmatism

Answer 3

K:

• tight suture
• limbal dermoid
• ptyregium
• KC, pellucid
• corneal trauma

Lid:

• ptosis
• lid masses (tumors)
• chalazion

Question 4

Inadequate accommodation

Answer 4

• cycloplegic drops
• night myopia
• convergence insufficiency
• convergence paralysis
• microspherophakia
• increasing age (latent hyperopia)

Question 5

Causes of night myopia (4)

Answer 5

• Dilated pupil (spherical aberration, irregular astigmatism)
• Dark focus (poor distance and near targets cause poor focus)
• Purkinje shift (spectral sensitivity shifts toward shorter wavelengths at lower light, and chromatic aberration moves the focal point more anteriorly)
• May have undercorrected them with your rx (20 ft lane gives 1/6 D under-minused correction for distance)

Question 6

4 ways to calculate IOL power after LASIK

Answer 6

1. Historical method: K = pre-op K + (refraction preop - refraction postop)
2. RGP: K = base curve of CL + power + refraction (with CL) - refraction (without CL)
3. Topography: use central 1 mm effective power from the Holladay diagnostic summary map (not sim K readings)
4. Online calculators/formulas

Question 7

What abx did EVS use

Answer 7

Intravitreal: amikacin and vanco
Sub-conj: vanco and ceftaz
Topical: amikacin and vanco

Question 8

What did we learn from EVS (2)

Answer 8

1. No benefit of IV abx in addition to tap+inject

2. Only do vitrectomy if Va is LP

Question 9

What kind of endophthalmitis does EVS apply to

Answer 9

Post-cataract surgery

Question 10

What doses of abx do we use for treating endophthalmitis

Answer 10

Vanco 1 mg/0.1 ml
Ceftaz 2.25 mg/0.1 ml
+/- dex
+/- ampho-B if you suspect fungal

Topical fortified vanco 25 mg/ml + tobra 15 mg/ml

Question 11

Define cyclodialysis and what to do about it

Answer 11

Separation of the CB from scleral spur
Often as a result of trauma or surgery
Dilate the pupil, wait to see if it resolves

Question 12

Define angle recession and what to do about it

Answer 12

Separation of the longitudinal and circular fibres of the CB
Higher risk of glaucoma so watch and see

only 5-10% of people with traumatic hyphema will get glaucoma

Question 13

Define iridodialysis and what to do about it

Answer 13

Separation of the iris root from the CB. Needs surgical fix if its symptomatic (or coloured contact lens). Otherwise just leave it.

Question 14

Define vossius ring

Answer 14

In blunt trauma, the pupil sticks to anterior lens capsule and leaves behind a ring of pigment

Question 15

Most common organism in endophthalmitis after cataract surgery

Answer 15

Coag neg staph

Question 16

Most common organism in endophthalmitis after trab

Answer 16

Strep pneumo or H flu

Question 17

Most common organism in endophthalmitis after trauma

Answer 17

B Cereus

Question 18

Most common organism in endogenous endophthalmitis

Answer 18

Candida

Question 19

Most common organism in dacryocystitis

Answer 19

Staph and strep

Question 20

Most common organism in dacryoadenitis

Answer 20

Staph

Question 21

Most common organism in canaliculitis

Answer 21

Actinomyces

Question 22

Most common organism in angular blepharitis

Answer 22

Moraxella or staph

Question 23

Define alpha, beta, gamma hemolsysis with examples

Answer 23

Alpha = little hemolysis (turns green). E.g. strep viridans, strep pneumo

Beta = lots of hemolysis (ring of yellow around the culture). E.g. strep pyogenes

Gamma = no hemolysis. Plate stays red.

Question 24

How do you reduce rates of endophthalmitis from cataract surgery

Answer 24

1. Pre-op abx (e.g. 3 days)
2. Treat pre-op blepharitis, +/- oral doxy (weeks)
3. Pre-op iodine to lashes and to the surface of the eye
4. Intra-cameral or sub-conj abx
5. Post-ob abx drops
6. Tell the patient to practice good hygiene after surgery
7. Drape lashes well during surgery

Question 25

What are the measurements of Gulstrand’s model eye

Answer 25

AL = 22.5 mm
Nodal point is 5.5 mm behind cornea
Nodal point to retina is 17 mm
Cornea to focal point is 17 mm

Question 26

What are the dimensions of an adult lens? Infant?

Answer 26

adult 9x5 mm

infant 3.5 x 6.5 mm

Question 27

How does the index of refraction of the adult lens change with age?

Answer 27

Increases with age (nucleus becomes more dense)

Question 28

What type of collagen makes up the lens capsule?

Answer 28

Type IV

Type I = corneal stroma
II = vitreous (remember Stickler’s is a problem with type II collagen)
III = corneal stromal scarring
IV = all BM’s

Question 29

What are the 3 types of lens metabolism and relative contribution of each

Answer 29

Glycolysis 80%
Pentose 10%
Sorbitol 10%

Question 30

Which lens metabolic pathway is used more in diabetics, leading to diabetic cataracts

Answer 30

Sorbitol

Question 31

What type of congenital cataract is most common

Answer 31

Lamellar

Question 32

What is characteristic/weird about doing cataract surgery on a child with a rubella cataract

Answer 32

Live virus particles can persist in the lens for up to 3 years. Make sure everyone in the room has been immunized against rubella.

Also, can have crazy inflammatory rxn after cataract surgery

Question 33

What are the side effects of phospholine iodide

Answer 33

Iris cysts

ASC cataract

Question 34

What lens materials give you the most PCO

Answer 34

PMMA > Silicone > Acrylic

Question 35

What lens edge designs give you most PCO

Answer 35

Round > square edges

Question 36

What are the risk factors for suprachoroidal hemorrhage

Answer 36

High IOP pre-op
Sudden drop in IOP during surgery
Age 
HTN, high HR
Obesity
High myopia
Chronic ocular inflammation

Question 37

What are the different types of visual acuity measurements

Answer 37

“People’s vision sometimes looks awesome”

Minimum legible = snellen
Minimum visible = VF machine
Vernier = Teller

Others:
Minimum perceptible = candy bar
Minimum separable = tumbling E

Question 38

Compare and contrast peristaltic vs venturi pumps

Answer 38

Peristaltic = vacuum only builds when tip is occluded
Less followability, less smooth, less accurate

Venturi = need compressed gas source
Vacuum bulids even if tip not occluded
Better fluidics (more precise aspiration and vacuum response)

Question 39

Define LASER

Answer 39

Light amplification through stimulated emission of radiation

Question 40

What are the properties of laser light

Answer 40

• single wavelength (monochromatic)
• spatial coherence (all comes to a point)
• temporal coherence (all waves are in sync with each other)
• amplified (high intensity)

Question 41

Wavelengths of ophthalmology lasers

Answer 41

Excimer: 193 nm
Blue-green argon: 475-525 nm
Diode: 820 nm
ND:YAG: 1064 nm (freq doubled YAG = 523 nm)

Question 42

What does it mean if someone has a ‘protanomaly’

Answer 42

They have an abnormal concentration of red cones
Can still see red but have difficulties with seeing red when it is not fully saturated (e.g. mixed with other colours, the red part of the colour may not be as clear to them - i.e. they may confuse certain shades that have red in them i.e. shades of purple or orange)

Question 43

How do you organise colour vision defects

Answer 43

Anomalous vs absent cones
By colour (red, green, blue)

Question 44

What colour vision defect is most common

Answer 44

Deuteromaly

Question 45

What colour vision tests are there and what do they test

Answer 45

Ishihara - tests R/G defects
HRR - B/Y and R/G
100-hue - for saturation. R/G and B/Y
D-15 - shorter version of 100 hue. Also R/G and B/Y

Question 46

What colour vision is more sensitive for macular dz vs optic nerve dz

Answer 46

B/Y is macular

R/G is optic nerve

Question 47

3 types of intra-ocular hemangiomas and systemic associations

Answer 47

Retinal capillary hemangioma - VHL
Diffuse choroidal hemangioma - SWS
Cavernous hemangioma - idiopathic

Question 48

List mitochondrial dz in ophthalmology

Answer 48

LHON
CPEO

MIDD, MERF, MELAS