FAF

Question 1

Lipofusion is a

Answer 1

photoreceptors outer segment phagocytosis byproduct.

Question 2

lipofusion accumulates in a. RPE b. Photoreceptor c. ganglion cells

Answer 2

a. RPE (and eventually in outer retinal layers) -accumulates naturally with age -too much of this indicates retinal pathology (activity in rpe cell death process) -Too little of this can indicate rpe death

Question 3

we view lipofuscin via

Answer 3

FAF (It absorbs 500nm-800nm)

Question 4

what two ways we can accomplish autofluorescing effect? (one we do in lab)

Answer 4

1. Extremely bright flash from cannon fundus photography 2.confocal scanning laser ophthalmoscope

Question 5

The FAF images from cannon are similiar to

Answer 5

similiar to Red-Free and IVFA ….BUT FAF gets you view of lipofusin

Question 6

Hyper AF=

Answer 6

metabolically sick RPE (too much LF )

Question 7

Hypo AF= means what about the RPE

Answer 7

RPE DEAD or not present (Lf is gone), signal blockage. cuz LF is supposed to give me fluroscene. light passes through emitting light. but if its not passing there either that RPE is not there or there is a signal blockage somewhere. giving me a dark (HYPO AF)

Question 8

Guaranteed exam question. How does age affect FAF?

Answer 8

older you get the more metabolic activity you have. =hyperfluorescene

Question 9

How does a cataract or corneal dx affect FAF? guaranteed exam

Answer 9

darker FAF=hypofluorescene dont get confused with background.

Question 10

FAF intensity (hypofluroscene or HYPERflourscene) is affected by what type of device used. .

T/F

Answer 10

true , it depends on the modality.

Question 11

FAF stands for

Answer 11

Fundus AutoFluorescence (FAF)

Question 12

Ocular fluorophores (retinal fluorophores) are ….. Examples include

Answer 12

Retinal molecules that are exhibit fluorescence emission when excited. -Lipofusion (increases af) -ONH drusen (increases af) retinal molecules that absorb fluorescene -Rhodopsin (decreases AF)

Question 13

What’s the main difference between Fundus AUTOFluorescence and fluorescein angiography?

Answer 13

FUNDUS AUTOFluorescence is not dependent on circulation like fluorescein angiography

Question 14

What are the FUNDUS AUTOFluorescence image intensity variables? I.e. what can make the intensity FAF images vary? exam question!

Answer 14

The persons age, Media opacity like a cataract or corneal sizes Pupil size The type of device used - scanning laser phthalmoscope vs fundus camera-based system

Question 15

What does a healthy FUNDUS AUTOFLUROscene look like?

Answer 15

Insert pic.

Question 16

What areas are supposed to be dark on FUNDUS AUTOFLUROscene?

Answer 16

Blood vessels because of signal absorption from blood Fovea- because of signal absorption from macular luteal pigment ONH- because of absorption and absence of RPE

Question 17

What is the gray/grainy appearance on A FUNDUS AUTOFLUORSCENE represent ?

Answer 17

It represents a mild HYPER-FLUORSCENCE (normal levels of lipofuscin in RPE cells )

Question 18

This pic is an image of a REDUCED or INCREASED AF?

Answer 18

Reduced AF because it has a dark spot representing less signal emission. this is signal absorption .

Question 19

A reduced AUTOFLUROSCENE represents a A. Hypo AF B. HYPER AF

Answer 19

A. HYPO AF

Question 20

What can cause a HYPO - FAF? Exam question !!

Answer 20

1. Reduced or absent RPE (esp. RPE atrophy {geographic atrophy, central serous chorioretinopathy, hereditary}, RPE tear, reduced visual cycle,) 2. Anterior material blocking RPE (esp- hyperpigmentation {macular pigments, intraretinal &/or sub retinal hemorrhage}, scar tissue, INTRARETINAL AND/OR SUBRETINAL HEMORRHAGE)

Question 21

*Exam question What can cause an INCREASED AUTOFLUROSCENE? Aka Hyper AF

Answer 21

Drusen Older hemorrhages Excess concentrations of lipofuscin IN RPE (lipofuscinopathies , RPE tear: retracted border) like stargardt dz, pattern dystrophies SUB-retinal autofluorescent material, Window defect (loss of luteal or photo pigment ) Other autofluorescent material

Question 22

Hypo AF means darker or lighter signal?

Answer 22

darker

Question 23

HyperAF means darker or lighter signal?

Answer 23

lighter

Question 24

when you hear signal blockage on FAF, think …

Answer 24

darker. something absorbing Fluorscene making what ever there dark. no fluroscene wavelengths can get through. if no fluorscene, then its hypofluorcene FAF.

Question 25

FAF predicts pseudodrusen on AMD . t/f

Answer 25

true , its not easily seen with DFE.

Question 26

FAF is very useful with AMD.

In what 4 ways can we use FAF to help us with patients dx with AMD?

Answer 26

1. use it to look for pseudodrusen. (early detection)
2. more focal patterns (dark spots) on FAF =increase risk of GEOGRAPHIC ATROPY
3. MULTIPLE large areas of increased FAF (soft drusen & hypoplasia) =increase risk of WET AMD
4. pt has CNVM but a normal FAF. Means they have a better chance of visual recovery.

Question 28

all of the following lead to an increase in FAF with dry AMD EXCEPT:

A. soft confluent drusen

b. drusenoid PED (pigment epit detrachment)
c. center of drusen
d. pigment clumping adjacent to drusen

Answer 28

c. center of drusen is hypofluroscent NOT hyperfluros. THE CENTER IS rpe ATROPHY

Question 29

Reticular pseudo drusen (anterior to RPE) will SHOW HYPOfluro on FAF. t/f

Answer 29

true, its pseudo drusen.

Question 30

true or false the different hyper AF and hypo AF on FAF show at different times because of the staging of the AMD.

exam question

Answer 30

false. it shows hyper and hypo FAF THROUGHOUT THE WHOLE DISEASE PROCESS. its more so the phsysiological change thats occuring because whats happening .

Question 31

faf was helpful in determining phenotypes of DRY AMD .

Answer 31

true. but may not be clinical significant.

Question 32

FAF helps deferentiate between dry amd and non amd dz.

Answer 32

true.

can use OCT and other testing. its dominant familial drusen.

Question 33

All of the following are associated with WET AMD except:

a. increased AF with RPE tear
b. fluid leading to increased AF

Answer 33

a. its a DECREASE IN AF with borders increase in AF

Question 34

exam question how do you know its fluid associated with Wet AMD and not just a heme or hard exudate?

Answer 34

i can use FAF. and on the FAF i SHOULD SEE increase in FAF.

if it was a heme or hard exudate, I would first see a absorption and then later an emission due to reorganization.

Question 35

FAF is NOT a major player in development CNVM (choriodal neovascularization membrane_

Answer 35

ture

Question 36

type 1 (occult CNVM) is beneath the RPE and will appear HYPO or HYPER AF or both

Answer 36

both

it will be hypo DUE T0 overlying RPE ATROPHY

and hyper AF at borders

Question 37

type 2 classic CHORORIOD neaovascularization membrane (CNVM) is HYPO , HYPER , BOTH AF.

Whats the main difference between the type 1 and type 2 CNVM

Answer 37

Both Hypo and hyper. Hyper is at the borders

the main difference btwn type 1 and type 2 is HYPO

hypo on type 1 is because of RPE atrophy

hypo on type 2 is because of subretinal fibrovascular net blocking RPE

Question 38

EXAM question.

FAF is clinically significant for ____. THE SINGLE MOST IMPortant indicator of progression of DRY TO wet amd

Answer 38

geographic atrophy

Question 39

what does the hyperfluroescene represent on GA?

Answer 39

it can represent actively expanding area if its diffuse hyper beyond geographic atropy = high risk of progression

Question 42

stargardt disease (macular very dark and black, hyperfluo) early atophy is flecks cam be useful . true or false.

Answer 42

true

Question 43

best disease….

Question 44

retinitis pigmentosa ….

Question 45

new cnvm would show what increased or decreased FAF

Answer 45

increased, the faf depends on the stage of CNVM

Question 46

longstanding CNVM will show a decrease in CNVM . t/f

Answer 46

decreased, the faf depends on the stage of CNVM .

AF can NOT predict anything with CNVM. it just tells me how long its been there

Question 47

you note a diffuse pattern on FAF hyperflor .. and inner hypofluo….what do you think it is

Answer 47

geographic atrophy

Question 48

why would you use FAF on stardgarts disease?

Answer 48

its useful because the flecks and early atrophy wouldnt otherwise be visible.

FAF with stardgats dz correlates with well with vision function

this dz depends on staging too

Question 49

Previtelliform

Answer 49

No to minimal hyper AF

best disease

Question 50

•Shed PR debris and lipofuscion accumulate in subretinal space = yolk like lesions

Answer 50

best disease

Question 51

Psueudohypopyon

Answer 51

Increased AF lower in lesion (gravitational)

Question 52

Vitelliruptive

Answer 52

Hypo AF with hyper AF border

Question 53

1. 60%: “bulls eye” hyper AF foveal ring which constricts over time with loss of vision ; complete PR loss outside the ring
2. 18%: Central foveal hyper autofluorescence – worse visual prognosis

Answer 53

retinitis pigmentosa

Question 54

THE EXTENT OF Central serous chorioretinopathy (csc) IS BEST SEEN WITH FAF BECAUSE….

Answer 54

• Initially – hypo FAF due to blockage / absorption by subretinal fluid
• As progresses/current activity:
• Fluid present affects RPE function
• Granular hyper FAF
• Longstanding: hypo FAF due to atrophy

Question 55

Answer 55

plaquinil toxcity

Question 56

pathy hypo AF due to RPE

exam question

nevus or melanoma

Answer 56

nevus

Question 57

patchy hyper