visual fields lec 4: visual field analysis

Question 1

what four things must you check in order to see if you are carrying out visual fields on the correct patient

Answer 1

• record ID number
• name
• DOB (age)
• refractive error
  must check these things with patient and not just the record card

Question 2

how must you make sure that the data is correct and why, name two things

Answer 2

• date of test: to be able to follow up progress of the visual field
• correct eye

Question 3

what 3 things classes a visual field test as unreliable

Answer 3

check the reliability criteria:
- false positives: >33% 
- false negatives: >33%
- fixation losses: >20% 
so you need less than these values in order to have reliable data

Question 4

what does false positive mean

Answer 4

patient says they can see a light when no light is shown or responds faster than usual or humanly possible

• desperate to finish the test
• trigger happy
• not reliable

Question 5

how much % of false positive data is required for a px to have to repeat the visual field test

Answer 5

15%

Question 6

what does false negative mean

Answer 6

patient says they can’t see a light when they are shown a brighter light in a location where they said they could see it before

• px is getting tired
• can’t see light as they are fatigued
• or they might have a significant visual field loss, so they will just have high false negatives

Question 7

what can you do to avoid a px getting too many false negatives

Answer 7

ask them to come back on a day where they are less tired

Question 8

what does fixation loss mean

Answer 8

patient responds to a light which is shown in their blind spot

• so px must be moving their eye around
• or we haven’t plotted the blind spot properly (so must plot it properly)

Question 9

list the 6 different data representations found on a visual field analysis

Answer 9

1. numeric print out
2. greyscale
3. global visual field indice
4. total and pattern deviation maps
5. probability analysis
6. glaucoma analysis

Question 10

what is a numerical printout of a visual field analysis

Answer 10

the numerical representation of the threshold sensitivity

Question 11

what do high numbers is a numeric printout mean

Answer 11

high numbers = high sensitivity to light (able to detect dim light)

Question 12

what does 0db mean on a numeric printout

Answer 12

just able to see the perimeters brightest light

Question 13

what does

Answer 13

not able to see the perimeters brightest light

Question 14

what do the bracketed numbers mean on a numeric printout

Answer 14

thresholds measured twice

Question 15

what is the greyscale of a visual field analysis

Answer 15

a graphical representation of the numeric printout

Question 16

what do the darker patches on the greyscale of a visual field analysis mean

Answer 16

the smaller the numerical threshold was = the worse that they can see the darker it gets

Question 17

what declines as we age and by how much on average

Answer 17

threshold sensitivity, by 0.7db per decade on average (i.e. doesn’t drop by the same amount at every location in the visual field)

Question 18

which part of the visual field drops more in sensitivity as we age, and by how much

Answer 18

sensitivity in the periphery drops more, by 0.8db per decade

Question 19

which part of the visual field drops but less that in the peripheral visual field, as we age, and by how much

Answer 19

sensitivity in the central vf also drops but less that periphery, by 0.6db per decade

Question 20

how can you calculate the exact amount that a person has dropped in sensitivity as they have aged and what map in the visual field analysis is this represented in

Answer 20

need to take away threshold of the patient, at every single location away from an age match norm (what they should have seen), location by location

located in the total/pattern deviation decibel map

Question 21

what is the name of the calculation where the difference between the measured visual field sensitivity and the age corrected norm visual field sensitivity is calculated

Answer 21

relative visual field sensitivity

also called total deviation decibel map

Question 22

what does it mean when a patient has a +ve value from their relative visual field sensitivity/total deviation decibel map

Answer 22

they can see better than their age matched norm

and if a -ve value = px saw less than what they should see for their age

Question 23

what does it mean when a patient has a 0 value from their relative visual field sensitivity/total deviation decibel map

Answer 23

they saw what they should see for their age in that location

Question 24

if their is a big difference in the value of total deviation decibel/probability map compared to the age norm, what can it indicate

Answer 24

a pathology (if its a high value)

Question 25

how much % of the confidence interval should a patient’s measured sensitivity fall in to be regarded as normal

Answer 25

95% (most people fall in this range)

Question 26

if a patient’s measured sensitivity falls out of the 95% confidence interval, what is their sensitivity registered as

Answer 26

abnormal and a probability level assigned

Question 27

if a patient’s measured sensitivity falls out of the 95% confidence interval, what is the chances of their measured sensitivity to be regarded as normal, and what can this indicate

Answer 27

5% chance of their measured sensitivity as being regarded as being normal
indicates that the px is likely to have a pathology
but e.g. not all 20 year olds see the same, so doesn’t necessarily mean they have a pathology

Question 28

if someone’s measured sensitivity falls outside a 98% confidence interval, what can it mean

Answer 28

they only have a 2% of their threshold sensitivity being normal, i.e. anything outside 98% means you are most likely to have a pathology and only a small (2%) chance of actually being normal

Question 29

what is a total deviation map sensitive to

Answer 29

diffuse loss

Question 30

what does the darker square in a total deviation map indicate

Answer 30

it is more likely to be a pathology (the darker the square)

Question 31

list the %’s found in a total deviation probability map, of if someone falls outside the confidence interval of them not having a pathology, from the lightest to the darkest squares

Answer 31

lightest to darkest squares:

• 5%
• 2%
• 1%
• 0.05%

Question 32

what does light a patch on a total deviation probability map corresponding to

Answer 32

that the scotoma is not very deep

i.e. the threshold sensitivity in db is not too much lower than the age matched norm in that region

Question 33

what threshold sensitivity is typical of someone who has a cataract to glaucoma

Answer 33

20db - registers with the darkest probability symbol

Question 34

what problem can someone with a cataract who has reduced points of 20db in their total deviation probability map cause

Answer 34

it can mask any localised loss that can be underneath the cataract which shows 0.5% loss e.g. incase a px has glaucoma as well
as the cataract causes a diffuse vf loss all over, therefore hides any pathology that can be underneath and px will just be diagnosed with cataract, until it is removed and something like glaucoma can be revealed

Question 35

how does a pattern deviation plot combat the problem where a cataract which causes a reduction in threshold sensitivity by 20db, causing 0.5% probability symbol across the whole of a total deviation probability map which can cover any other underlying pathology such as glaucoma

Answer 35

the machine will mathematically increase each point by 20db i.e. producing more greys than black probably symbols, and this will show is there is any other pathology underneath

i.e. the pattern deviation plots exposes localised loss by adjusting the general height of the hill (which is not done in a total deviation probability map)

Question 36

when for example a general height of a hill is increased by 5 db in a pattern deviation probability map, if the value falls outside a given confidence interval, what is assigned

Answer 36

a probability symbol is assigned

Question 37

when a total deviation probability map where one point is -7db is converted into a pattern deviation probability map where the height of the hill in increased by 5db, how does that value show as in a pattern deviation probability map

Answer 37

as -2 db

Question 38

what is a pattern deviation probability map sensitive to

Answer 38

focal loss

Question 39

what di global visual field indices summarise about a vf test

Answer 39

summarises the information about one aspect/thing of the entire visual field test

Question 40

what are the two types of global indices i.e. two things it looks for to summarise about the entire visual field test

Answer 40

• diffuse loss

- total loss

Question 41

what is diffuse loss measured by

Answer 41

the mean deviation (MD) - is the average of the total deviation values (and says how far that person is from a normal age matched patient)

Question 42

what mean deviation value is considered to be abnormal from a total deviation map

Answer 42

values > -2.00db

Question 43

what does the more -ve mean deviation value from a total deviation map indicate

Answer 43

the worse the visual field results are to a normal age matched individual i.e. higher risk of having a pathology, due to the abnormality

Question 44

what type of pathology causes a global diffuse loss

Answer 44

a cataract - as it causes a large loss in the visual field

Question 45

what is increased in the presence of a cataract

Answer 45

mean deviation - i.e. increased in the presence of large areas of focal loss

Question 46

what is focal loss measured by

Answer 46

a pattern standard deviation (PSD) - which is the standard deviation around the mean of the total deviations

Question 47

what are pattern standard deviations sensitive to and what is this good for

Answer 47

non uniformity in the visual field, good for detecting a small scotoma as the non uniformity throughout the mean total deviations will be detected, indicating a pathology

Question 48

what pattern standard deviation value is considered to be abnormal from a pattern deviation map

Answer 48

> +2.00db

Question 49

which two circumstances will you not get a total pattern standard deviation

Answer 49

if you are completely normal or completely abnormal, because PSD picks up on non-uniformity

Question 50

give an example of a pathology which will have a low pattern standard deviations value and why

Answer 50

cataract - as they will have a mostly uniform visual field loss/total deviation values

Question 51

give an example of a pathology with will have a high pattern standard deviation value and why

Answer 51

glaucoma - as they will have non-uniformity in their visual field loss/total deviation values

Question 52

what is 2 advantages of mean deviation and pattern standard deviation

Answer 52

• gives a single measure about the state of the visual field
• can be used to monitor visual field change over time (progression)
  e.g. from a -4 one year, to a -8 the next year mean deviation, indicates a pathology
  (but make sure to analyse the whole of the visual field as vf does not progress equally)

Question 53

what is a disadvantage of mean deviation and pattern standard deviation

Answer 53

there is a loss in spatial information

Question 54

what is a glaucoma hemifield test

Answer 54

visual field sectors corresponding to the retinal nerve fibre arrangement in the upper hemifield which are compared for asymmetry with their mirror image sectors in the lower hemifield

Question 55

what 5 things can a glaucoma hemifield test results pick up on

Answer 55

whether a patient is:

• within normal limits = don’t have glaucoma
• outside normal limits = has glaucoma
• borderline
• general reduction in sensitivity
• abnormally high sensitivity

Question 56

list the 7 things a new humphrey visual field analyser print out for progression has

Answer 56

1. baseline exams
2. visual field index (VFI) percentage of normal age-adjusted visual field
3. VFI rate of progression analysis of patients’ overall history
4. regression analysis of VFI values and 3-5 year projection
5. VFI bar graphical description of patient’s remaining vision and a 3-5 year projection of VFI if trend continues
6. current report including, VFI, MD, PSD, progression analysis
7. guided progression analysis alert (GPA) a message stating whether statistically significant deterioration noted in consecutive tests

Question 57

what does a visual field index on a new humphrey visual field analyser print out for progression tell you

Answer 57

visual field index (VFI) percentage of normal age-adjusted visual field
tells you how much visual field is left that matches the normal age-adjusted visual field in %

Question 58

what does a solid dot indicate in a guided progression analysis (GPA) indicator of a, new humphrey visual field analyser print out for progression

Answer 58

a point not changing by a significant amount

Question 59

what does a small open triangle identify in a guided progression analysis (GPA) indicator of a, new humphrey visual field analyser print out for progression

Answer 59

a degree of deterioration expected less than 5% of the time at that location in stable glaucoma patients, that is, deterioration significant at the 5% level (p

Question 60

what do half filled triangles indicate in a guided progression analysis (GPA) indicator of a, new humphrey visual field analyser print out for progression

Answer 60

significant deterioration at that point in two consecutive tests/visits

Question 61

what do solid triangles indicate in a guided progression analysis (GPA) indicator of a, new humphrey visual field analyser print out for progression

Answer 61

significant deterioration of that point in three consecutive tests/visits

Question 62

what does an X signify in a guided progression analysis (GPA) indicator of a, new humphrey visual field analyser print out for progression

Answer 62

that the data at that point was out of range for analysis. for data that is out of range. GPA cannot determine whether or not the encountered deviation at that point is significant. this occurs mainly with deepening field defects that were already quite deep at baseline, such that even the maximum available stimulus brightness is within the range of normal variability

Question 63

list 4 main things that can artificially affect a visual field plot

Answer 63

• the learning effect
• the fatigue effect
• contraction due to external factors
• functional or hysterical field loss (malingerers)

Question 64

what is meant by the ‘learning effect’ as a cause that can artificially affect a visual field plot

Answer 64

mistakes are often made of the first examination i.e. not very good at it the first time around

Question 65

what is a resolution to the ‘learning affect’ as a cause that can artificially affect a visual field plot

Answer 65

repeat fields at a later date

• repeat at least once before referring
• repeating on the same day would be affected by fatigue

Question 66

what 3 things occurs in the ‘fatigue affect’ as a cause that can artificially affect a visual field plot

Answer 66

• increase in false +ve and false -ve responses
• fixation losses increase
• contraction of the visual field due to droopy eyelids (and pupil miosis)

Question 67

what 3 ways can you reduce the fatigue affect as a cause that can artificially affect a visual field plot

Answer 67

• talk to the patient
• give encouragement
• allow the px to stop the test for a minute and have a break

Question 68

in which type of patient can the effects of fatigue be exaggerated

Answer 68

in patients with a pathology

Question 69

what three things are characteristic of the fatigue affect on a visual field plot analysis

Answer 69

• clover leaf pattern of grey scale, resulting from fatigue
• fixation losses
• increase false negative

Question 70

list 5 things that can contribute to a ‘contraction due to external factors’ as a cause that can artificially affect a visual field plot

Answer 70

• droopy lids (maybe fatigue related)
• heavy facial features
• spectacle rim
• lens holder
• hair
• poor positioning of occluder

Question 71

what type of visual field defect does a spectacle or a lens holder not close enough to the patient cause

Answer 71

a ring defect

Question 72

what causes a ‘functional or hysterical field loss’ as a cause that can artificially affect a visual field plot

Answer 72

failure of patient to respond to visual stimuli e.g. malingering

Question 73

what type of responses does ‘functional or hysterical field loss’ as a cause that can artificially affect a visual field plot, produce

Answer 73

produced variable responses

Question 74

which type of patients are the most common to have ‘functional or hysterical field loss’ as a cause that can artificially affect a visual field plot

Answer 74

usually women, 11-20 years old (malingerers)

Question 75

what type of results in a goldmann kinetic perimeter that are characteristic of a ‘functional or hysterical field loss’ i.e. malingerer

Answer 75

• peripheral isopter tends to decrease in size throughout testing
• spiral or star shaped isopter

Question 76

what 5 things show up on a visual field plot of a functional loss example e.g. malingerer

Answer 76

• produce falsely low sensitivity values at various locations
• high false negative rate (they say they can’t see a brighter light afterwards at the same spot)
• high SF value
• higher numbers at the primary seed points, give a distant clover shaped pattern
• long test duration particularly with SITA (which is modelled on normal or glaucoma patients, not ones who make it up)

Question 77

list 4 things that will show up in a visual field analysis of a true pathology such as cataract

Answer 77

• general reduction in sensitivity
• high mean deviation (MD)
• low pattern standard deviation (PSD)/CPSD - as its affects are uniform
• large numbers of significant points on total deviation map i.e. lots of -ve numbers in db, as they will be higher than -2db

Question 78

list 4 things that will show up in a visual field analysis of a true pathology such as early glaucoma

Answer 78

• nasal step: early visual field defect in glaucoma
• mean deviation (MD) is low
• pattern standard deviation (PSD) is low
• significant total and pattern deviation maps

Question 79

what are the two main things that will show up in a visual field analysis of someone who has both cataract and glaucoma

Answer 79

• general reduction in sensitivity on the total deviation map (as cataract causes a diffuse loss)
• pattern deviation map reveals the focal loss i.e. glaucoma (once you elevate the threshold sensitivity in db, the height of the hill)