OPTICS AND INSTRUMENTS (Adequate for an ophthalmologist)

- Amsler grid: each square is 1 degree at 33 cm

- 1 M unit (1.54mm) is 1 minute of angle at 1 meter

- 1 20/20 Snellen letter is 5 minutes at 6 meters

- resolution of Snellen letter is 1 minute at 6 meters (i.e. 6M)

- resolution of Snellen letter is 6M

- each 20/20 Snellen letter is 30M

Goldman 3 mirrors: 59-67-73 (gonio is 59)

Fluorescein:

excitation: 490

emission: 520

filter: 500

ICG: 835?

DDx of monocular diplopia

1) astigmatsm

2) keratopathy

3) cataract

4) subluxated lens

5) iris atrophy

6) vitreous disease

7) iridectomy

8) malingering

Steep (“tight”) contact lens

1) fluctuating acuity

2) better acuity with blink (moves liquid out)

3) more comfortable

4) poor nutrient exchange

5) persistant astigmatism

6) CL doesn’t fall out

7) little mvt with blink

8) central hypoxia (microcystic edema, PEK)

9) lens low

10) symptoms: burning, photophobia, tearing

11) congested vessels

12) corneal vascularization (pannus)

Signs of flat contact lens

1) clear vision

2) worse acuity with blink (moves)

3) discomfort

4) nutrient exchange adequate

5) no astigmatism

6) lose CL easily

7) movement with blink

8) central corneal abrasion (stain)

9) lens high

10) symptoms: f.b. sensation

Change that can be made on a CL

1) flatten peripheral curve

2) PMMA lenses: adjust power by +/- 0.50 D

Treatment of prismatic effect of ADD

A) Prismatic effect

1) slab-off more myopic lens (BU effect)

2) reverse slab off hyperopic side (BD effect)

3) Fresnel vertical prisms

4) permanent vertical prisms lens

B) Types of add

1) round top for some plus lens (executive)

2) flat top for some plus lens (waiter) - no jump

- makes prismatic effect worse

3) flat top for minus

4) dissimilar segments (eg. round and flat)

C) Centration

1) different center for each lens (bicentration)

2) decenter both distance lenses downward

3) raise ADD closer to center

D) Different pairs

1) contact lenses

2) separate reading glasses

Prentice Rule

- to correct, assume eye looks down 8mm and nasal 2mm

Increased with the rule astigmatism post-op

1) tight sutures

2) many sutures

3) deep bites

4) long bites

5) anterior incision

6) fine sutures (eg. 10-0) - don’t loosen

7) non-absorbable sutures

Contact lens correction

- soft originally for sports, occasional wearers, occasional overnite wearers

- now, for 90% of CL wearers

- RGP better for astigmatism, young progressing myopes

- mulifocals: distance CL for dominant eye; near for non-dominant eye

Types of multifocals contact lenses

1) multifocal aspheric, near in center (soft and hard)

2) bifocal near below

3) multifocal in periphery which moves when eye looks at near to center over pupil (CL moves)

4) diffractive lenses

Types of multififocal IOL’s

1) multifocal aspheric, near in center (soft and hard)

2) distance- near - distance ( 3 rings)

3) diffractive

4) bifocal below?

6 ways to use slit lamp

1) diffuse

2) slit beam

3) indirect - turn knob on arm

4) sclerotic scatter

5) retroillumination

6) specular reflection

Ultrasound wavelengths

1) A scan: 8-15 MHz “reflective”

2) B scan: 8-15 MHz “echogenic”

3) UBM: 50-100 MegaHz

Ultrasound lesion description

1) shape

2) echogenicity

3) homogeneity (regularity)

4) vascularity (dynamic) - seen in melanoma, not angioma or mets

5) dynamic movement: eg RD, PVD

Decrease meridional magnification by

1) decrease cylinder power

2) rotate axis to 90 or 180

3) decrease vertex distance

4) minus cylinder lenses

5) consider CL

Lens Aberrations

1) Spherical aberration

- the most important aberration in the eye

- increases with the 4th power of the pupil

- image is focused anterior to expected location

- increase as object moves away from optical axis

2) Coma

- cause rays from a point to be focused over a small area

- increase as object moves away from optical axis

3) Off-axis astigmatism

- increase as object moves away from optical axis

4) Chromatic aberration

- blue is bent more than red

- yellow sits on retina

- red-blue interval: 1.50 D

- red-green interval: 0.50 D

5) Curvature of Field

- image focused on cuved surface

- advantageous in the eye (only one)

6) Distortion

- different points of the object are magnified dif’t amounts

- e.g. pincushion, barrel distortion

7) Astigmatism of oblique incidence

- tilting of lens

Ways eye deals with spherical aberration

1) pupil

2) cornea is aspheric (greater central refraction)

3) nucleus center is more refractive

Accomodation Amplitudes

0 : 18

10: 14

20: 10

30: 8

40: 6

50: 3

60: 1.5

70: 0

Retinoscopy

A) power

- as we approach neutrality, streak is

1) brighter

2) faster

3) fatter

B) axis

- as we approach correct axis, there is

1) less break

2) less skew

3) thinner reflex

4) brighter intensity

Ultraviolet wavelengths

1) UVA: 320-400 - 90% on earth

2) UVB: 280-320 - 10% on earth

3) UVC: <280 - negligeable

Sunglasses: (p. 224 AAO)

1) improve color contrast

2) improve dark adaptation

3) reduction of glare sensitivity (eg. polarized)

4) UV absortion

5) photochromic change with light (silver ions - UV)

UV absorbtion

1) almost all dark sunglasses

2) coated glass (clear glass transmits all above 300nm)

3) plastic made of polycarbonate and CR-39 (transmits above 350; partial absorption)

Regular lenses must

1) be at least 2mm thick

2) withstand 5/8 inch steel ball dropped from 50 inches

Industrial lenses must

1) be at least 3 mm thick

2) withstand 1 1/8 inch steel ball dropped from 50 inches

Lens material

1) glass (high density, high index)

2) high density glass

3) plastic (low density, low index)

4) high density plastic

5) polycarbonate (low density high index)

When to prescribe polycarbonate lenses

(AAO p.229); - “shatter proof”?

- discovered in 1950’s

- lighter, stronger lenses

1) sports

2) industrial

Components of Hyperopia

1) Total: Manifest + Latent

2) Manifest: Absolute + Facultative

AC/A ratio

1) normal = 4-6

2) heterophoria method:

IPD (cm) + [ET (dist) - ET (near)]/near (D)

3) clinical distance-near relationship (usual);

compare deviation at near and far (> 10 abnormal)

4) lens gradient: compare with no lens and with

+ 3.00 at near (or other variations of manipulating with lenses)

Prisms for low vision glasses

- 2 PD BI more than prescription

eg. + 10 D glasses: +12 PD BI OU

after + 10 single vision; available up to + 40

Lensometer: prism moves rings towards base (1 ring per PD)

Advantage of spectacles

1) Both hands free

2) large field

3) Don’t have to hold something

4) good for hand tremor

5) binocular

Advantage of hand lens

1) variable magnification

2) compact

3) esthetic

Disadvantage of projector

1) poor contrast

2) fixed distance

Advantage of Keplerian telescope

1) greater magnification

2) greater focusability

Advantage of Galillean

1) easier to use

2) smaller

3) field expander

Correction of aphakic anisoconia

1) CL

2) decrease vertex of spectacles

3) IOL insertion

4) overcorrected plus CL with minus spectacle lens

5) minus cylinder spectacle lenses

6) decrease lens convexity?? (notes)

Fresnel lens uses

A) prism

1) adaptation test (pre-op surgery in adult)

2) correction of temporary deviation

3) exercises for X(T)

4) stable incomitant deviations

5) nystagmus (null point)

6) VF defects

B) plus lens

1) penalization

2) accomodative ET’s

3) temporary aphakia

4) occupational bifocal adds

5) low vision high power segments

C) minus lens

1) X(T) treatment

Multifocal lenses

1) unwanted astigmatism in area lateral to progressive corridor

Aphakic lens problems

1) ring scottooma

2) jack in the box

3) pincushion distortions

Types of plastic frames

1) CR-39

2) MMA (Plexiglass)

3) Celluloid (cellulose)

4) Nylon

5) carbon-nylon

6) carbon graphite

Types of Metal frames

1) gold

2) aluminum

3) titanium

4) stainless steel

5) “nickel/silver” (German silver - nickel + copper + zinc)

Ways to hold CL in place

1) prism ballast

2) truncation

3) myoflange (plus lenses)

4) lenticular bevel ( minus lens)

Automated Refractors Metjhods

1) optometer

2) Scheiner principle (2 holes)

3) laser speckle pattern movement

4) photo of retina (screening)

5) VEP

6) automated phoropter

7) automated refracting lane

Low Vision Aids

A) Near

1) high plus glasses with BI prism

2) hand-held magnifying lens

3) stand magnifier

B) Far

1) Galilean telescope

2) astronomical telescope

C) Increase field

1) reverse Galilean telescope

D) Non-optical

1) monitor

2) large print books

3) good lighting

4) tinted glasses (improves contrast

5) computers which scan text

6) audiible books