Contrast Sensitivity

Question 1

3 reasons why we measure CS

Answer 1

Management of ocular disease (eg cataracts)
Management of people with age related macular degeneration
Management of bifocal or multi focal contact lenses and IOL patients

Question 2

What are the 4 parameters and what do we modify these to do

Answer 2

Phase- not rlly used clinically- position of waveform related to its position on a circle
orientation,- horizontal vertical or optotypes R eg
contrast- worked out by luminance of sine wave (modulation)
spatial frequency- measured in cycles per degree cpd. How far apart the bars are

We modify these in order to determine a particular resolution for a px

Question 3

Why do clinical test gratings spatial frequencies vary logarithmically

Answer 3

Clinical test gratings don’t have a uniform spatial frequency, these may vary logarithmically to get a more even spread of SFs
Info ab pxs vision over a range of spatial frequncies to determine where vision is most sensitive to contrast

Question 4

What do sinosuidal gratings vary in and where are these used

What are sinosuidal gratings threshold of recognition affected by

Answer 4

Sinosuidal gratings vary in brightness and these are used clinically to measure cs and sf.

Threshold of recognition for sinosuidal gratings is affected by both its cs and sf

Question 5

What does csf provide info about

Answer 5

Provides info about a given pxs vision over a range of spatial frequencies.
If it only measured sf= snellen if only measured contrast=cs. So this combines them both to see what they can see at what contrast levels.

Question 6

What is used to measure contrast sensitivity
what gratings

And what is the equation

Answer 6

Sine wave gratings are used
But square wave gratings could also be used

Y=a sin(bx)+c

Question 7

What is contrast threshold and contrast sensitivity

Answer 7

Grating is changed till the bars can just be seen so this is the contrast threshold. Px is shown graphs of certain SFS and contrast is adjusted till the bars are seen= contrast threshold

Contrast sensitivity= 1/ contrast threshold.
Then plot this Ona. Csf graph

Question 8

equation to work out luminance contrast or modulation

Answer 8

Lmax-Lmin/ Lmax+Lmin

= contrast threshold
1/ans= contrast sensitivity

Question 9

The resultant csf provides info ab a given pxs vision over a range of sfs and contrasts.

Describe the graph to me- y and x axis

Answer 9

On the left hand side on the y axis we have contrast sensitivity from 1-1000. This is a reciprocal so higher numbers are actually reduced contrast as 1/1000 is lower than 1/1 so that means their contrast threshold is smaller at the top but that means their contrast sensitivity is higher at the top which means they can see low contrast targets. And bottom is high contrast targets. So 1000= low contrast target.

On the x axis we have spatial frequencies from 0.1-100 and 0.1 is large and the right hand side is smaller as the bars ae closer together. So 5/6/7 cpd smaller as bars are closer together. More cycles per degree. Less cycle per degree bars are further apart= larger.

Question 10

Describe the actual graph curve

Answer 10

The peak is where the vision is the most sensitive
Below the graph is seen by the px above the graph isnt

Goes from left to right till px cant distinguish between light and dark. Where it hits x axis= limit of contrast sensitivity. Younger people have a higher spatial frequency cut off than older people. So where the curve intersects is where we measure va bc this is the smallest they can see with full contrast so like snellen.

Pelli Robson is measured along the peak of csf. As this is where their vision was most sensitive

We want the px to be as far up the graph peak higher= they can see with lower contrast levels. If the peak shifts right this means that they can see smaller targets with lower contrast so their contrast is more sensitive to those smaller targets. Shift left means they can no longer see smaller optotypes with the same level of contrast.

Question 11

4 methods to measure contrast sensitivity summarised

Answer 11

Vistech- measures contrast sensitivity but varies spatial frequency, contrast and orientation.

Low contrast and high contrast charts- measure sf at same level of contrast either 10 percent or 96 percent but changes spatial frequency and there is constant crowding and logmar progression.

Pelli robson- measures contrast sensitivity at the same spatial frequency but changes the contrast levels.

Question 12

Quick summary of csf

Cs reciprocal version meaning

Answer 12

Cs is measured in cycles per degree
The more cycles the smaller the target
Cs= reciprocal version so really sensitivity is higher to that lower contrast as it goes up

Question 13

Vistech
Distance from viewer

How do you carry it out and plot and compare the results

What does vistech consist of

Answer 13

3M from viewer

Ask the px what orientation the line is (left, right, or straight) sf, contrast and orientation (90,105 (left), 75 (right)) is changed.

Values are plotted and compared with normal values to generate a percentile rank or score. (Plotted on a curve and then on a graph and grey area is normal)

Circular grating patterns are used, 5 rows and 9 columns with decreasing contrast as you go along. Plot faintest line read by px. Grey area you should see in,

Question 14

Low contrast vision charters
Distance
How is it scored

What does it consist of

Answer 14

4M from viewer

Each letter is worth -0.02 log are. Score= -0.02 times no of optotypes read. Analysis of results at the end, basically the more negative the smaller the numbers that are read so more negative the better.

Constant contrast at either 96 or 10 percent Michelson contrast, vary spatial frequencies and there is constant contrast and logmar progression and crowding.

Externally illuminated= 85cd/m^2

Question 15

Pelli Robson
distance from viewers

Why can we also use a different distance and what is this distance

Answer 15

1m from viewer, or 3M as an alternative (adjust near add. 1/distance as positive power)

3M can be used so letters subtend 3cpd 6/60 so are bigger. Adjust near add and this should reduce accom and improve the reliability of the test. Add positive add to address difference in vergence.

Question 16

Facts about Pelli Robson

Then how is Pelli Robson scored

Answer 16

16 letter triplets on 8 lines
Externally illuminated 85cd/m^2
Constant sf but contrast decreases by 0.15logsteps down chart so each triplet has the same contrast. Dont count 1st triplet
Each letter is worth 0.05 so triplet= 0.15

Pelli Robson charts are measured down the centre of the csf. Takes csf at its peak. Visual system is the most sensitive to contrast here.

Mark triplet right if c=o=d
Inverse log score= contrast sensitivity then 1/ans= contrast threshold. Ct as a percentage= times by 100

Lower contrast threshold means higher contrast sensitivity

Question 17

What is glare

Answer 17

Unwanted light within the visual field. Light is scattered in the eye to create a veiling luminance which decreases contrast and contrast sensitivity. This is superimposed on the retinal image.

Question 18

Two types of glare

Answer 18

Disability glare-hurts to see, and cant see. Caused by light scatter in the eye which leads to veiling luminance and decreased contrast

Discomfort glare- uncomfortable, doesnt really affect ability to see

Question 19

Inverse square law

Answer 19

LV= 1/r^2

Lv= veiling luminance and r= distance to light source
As distance increases LV decreases so closer to eye= glare
But as luminance increases va should also increase as smaller pupils= less spherical aberrations

Also illuminance is directly proportional to intensity of source/ distance^2

So 1/d^2 or intensity of source/d^2

Question 20

How to measure glare

Answer 20

Back tester/ brightness acuity tester (illuminated hemisphere)

Or pen torch or angle poise lamp

Question 21

Brightness acuity tester

Answer 21

Illuminated hemisphere
Place it over px eye, pull down shutter with aperture (60mm diameter and 12mm aperture)

3 setting and modify glare source and work out how well they can see
-Bright indoor lighting (low) overcast day (medium) sunlight (high)

Advise px eg wide rimmed hat or dont go driving when sun is low on horizon etc.

Question 22

Why is a pen torch or angle poise lamp not great

Answer 22

Low tech approach
Not reproducible
Lack of standardisation and comparison

Question 23

60yo vs 20yo

Answer 23

60yo’s retina receives 1/3 of the light of a 20yo

Question 24

Diseases affecting csf- corneal

Answer 24

Refractive surgery
Keratoconus
Corneal dystrophies
Corneal oedema
Contact lens wear

Question 25

Diseases affecting csf- crystalline lens

Answer 25

Cataracts
Pseudophakia

Question 26

diseases affecting csf- retina and beyond

Answer 26

Glaucoma
Ocular hypertension
Optic neuritis
Multiple sclerosis
Papilloedema
Amblyopia

Question 27

Why do we measure csf

Answer 27

For diagnosis, screening, determination of change and assessment of visual function

Question 28

Csf graphs for normal vs post surgery or cataract and cataract and glare

Answer 28

Lower peaks for post surgery and cataracts bc less contrast

Question 29

For retina and beyond describe the csf graphs for strabismic vs anisometropic amblyopia vs Normal and a reference

Answer 29

Anisometropic is worse, this affects ALL sfs. Aniso for all. Difference in prescription in both eyes. The graph is low compared to normal the entire graph is lower

Strabismic- eyes are not aligned properly characterised by a high frequency decrease in cs. So normal till the end and it shifts to the left compared to normal.

(M Abrahamsson, 1998)

Question 30

What does a drop in middle sfs mean

Answer 30

Means the px may not be able to see objects around bends easily

Question 31

Results letter charts for the 96 percent one and 10 percent one for young vs old normals

Answer 31

96 percent chart
Young normals=. -0.20+- 0.06logmar (6/4)
Old normals= -0.11+- 0.08logmar (6/5)

10 percent chart
Young normals= 0.05 +-0.08 logmar
Old normals=. 0.19+- 0.10 logmar

Question 32

Pelli Robson young normal vs old normal

Answer 32

Young normal= 1.86+- 0.09 log cs units
Old normals=. 1.80 +- 0.11 log cs units

Question 33

Pelli Robson young vs old with glare

Answer 33

Young with glare= 1.80+- 0.09 log cs units
Old with glare= 1.65 +- 0.11 log cs units

Question 34

Young vs old subjects for low contrast

Answer 34

Young subjects lose 2 lines from 90 to 10 percent
Old subjects lose 3 lines

Question 35

Normal score for Pelli Robson

Answer 35

2= normal
Less than 1.5= visual disability.

Question 36

Why does the Elliot method for Pelli Robson improve reliability

Answer 36

Originally it was 2/3 of triplet right= right
Elliot said C=O=D

Question 37

What is glare

Answer 37

Just unwanted light within the visual field

Question 38

What is disability glare and name 2 effects of disabuility glare

Answer 38

Light scatter etc produces veiling luminance light scatter within eye superimposes on retinal image leads to reduced contrast and contrast sensitivity.

2 effects- change in adaptation, production of veiling luminance

Discomfort is just cant see properly

Question 39

Angle poise lamp dont allow it to become a what
And acuity increases when illumination increases for what type of people…

Answer 39

To become a photo stress test

For elderly and people with armd

Question 40

Conventionally what are clinical assessments of VA related to and what is another method

Answer 40

Conventionally clinical assessments of VA are related to the eyes resolving power
Another method is based on the eyes sensitivity to luminance contrast

Question 41

Why is Elliot’s method better and why does it improve reliability

Answer 41

Original scoring was 2/3 in a triplet right
Elliot said allow C=O=D and he proposed letter by letter scoring with each letter worth 0.05 units. Increases reliability

Question 42

Pelli Robson chart what is the working distance and how many cpd does this subtend

Answer 42

1m working distance at 1cpd. Add a +1.00 DS add for older presbyopic patients.

3M suggested as alternative so letters subtend 3cpd. (6/60) as an alternative to 1m. Remember to adjust near add

Question 43

When does acuity improve and especially with what type of patients

Answer 43

Acuity improves w illumination
Especially in elderly and patients with ARMD

Question 44

4 reasons why we measure cs

Answer 44

Diagnosis
Screening- determination of normal and abnormal
Determination of change- evaluating procedures
Evaluating visual function- assessment of function

Question 45

graph with normal refractive error and light scatter

Answer 45

Normal highest. Light scatter lowest whole curve shifts down
Refractive error in middle. =
Starts off normal then around the peak whole curve starts shifting down and it ends in the same place as where light scatter ends off at the same spatial frequency cut off