optics of indirect ophthalmoscope

Question 1

what are the two components of an indirect ophthalmoscope

Answer 1

1. illumination system

2. observation/imaging system

Question 2

what is the purpose of the illumination system in an indirect ophthalmoscope

Answer 2

you need light in order to see the imaging system i.e. its how you illuminate the retina (imaging system)
but at the same time you need to control the light that is illuminating our object

Question 3

what is the purpose of the illumination system in an indirect ophthalmoscope

Answer 3

(you need light) in order to see the imaging system i.e. its how you illuminate the retina (imaging system)
but at the same time you need to control the light that is illuminating our object

Question 4

what is the purpose of an observation system in indirect ophthalmoscopy

Answer 4

its how we are able to see the retina

Question 5

what is the imaging system in indirect ophthalmoscopy

Answer 5

the retina

Question 6

how are you able to see the retina with direct ophthalmoscopy

Answer 6

two eyes are put in front of each other = should be able to see the retina, given there is sufficient light

Question 7

with direct ophthalmoscopy, what 2 components determines the amount of light that goes from the patient to the examiner

Answer 7

a sight hole and an aperture

Question 8

what is a consequence of being further away with direct ophthalmoscopy

Answer 8

the further away we are from the patient, the less light goes into the patients eye and the less we can see

Question 9

what is the main problem with direct ophthalmoscopy, and explain how it occurs

Answer 9

observer can only see what (i.e. part of fundus) goes through the sight hole

light emerging from inside of the patients pupil, depending on where it is coming from in the retina is coming to our FOV & the moment it exits the patients eye it goes off axis, so most of it will be going away from the optical axis.
so different beams of light from different parts of the retina will be going away from the optical system

Question 10

what is the main problem with direct ophthalmoscopy, and explain why it occurs

Answer 10

observer can only see what (i.e. part of fundus) goes through the sight hole

because, light emerging from inside of the patients pupil, depending on where it is coming from in the retina is coming to our FOV & the moment the light exits the patients eye it goes off axis, so most of it will be going away from the optical axis.
so different beams of light from different parts of the retina will be going away from the optical system

Question 11

what is a possible solution to the observer only being able to see what goes through the sight hole with direct ophthalmoscopy and how can this solution still not be 100% possible

Answer 11

to move the ophthalmoscope as close as possible to the patient’s eye as this improves FOV

but this is still not enough and the only way to fix this is bringing the pupils close together and on top of each other e.g. brining the sight hole of the ophthalmoscope directly onto the pupil in order to collect all of the light beams emerging from the patient’s eye, but this is only theory as the pupil of the eye is behind the cornea

Question 12

what is the imaging system in indirect ophthalmoscopy

Answer 12

(the object) the retina/fundus

Question 13

what is the observation system of an indirect ophthalmoscope

Answer 13

a high powered +ve lens e.g. volk lens, held at a certain distance from the patients eye

Question 14

where does light emerge from with indirect ophthalmoscopy

Answer 14

from the patient’s retina which is the object (fundus)

Question 15

how is the image of the object (fundus) viewed with indirect ophthalmoscopy

Answer 15

• the object (O - fundus) goes into the +ve lens
• an image is formed (O’) in mid air of focal length/point of the volk lens ( formed inbetween the volk lens and the observer’s eye)
• = an intermediate image and with 2 optical systems.
• the image of one optical system becomes an object for the other

Question 16

how is the image of the object (fundus) viewed with indirect ophthalmoscopy

Answer 16

• the object (O - fundus) goes into the +ve lens
• an image is formed (O’) in mid air of focal length/point of the volk lens ( formed inbetween the volk lens and the observer’s eye)
• = an intermediate image and with 2 optical systems.
• the image of one optical system becomes an object for the other hence indirect

Question 17

how is an indirect image formed by indirect ophthalmoscopy

Answer 17

the observer is looking at the patient’s retina but looking at an image formed by the ophthalmoscope lens

Question 18

at which distance is the intermediate image formed with an indirect ophthalmoscope

Answer 18

at the focal point of the ophthalmoscope lens i.e. for a +50D lens, the intermediate image will be 2cm away from the lens

Question 19

how is the intermediate image formed/viewed by the observer

Answer 19

intermediate image is inverted

Question 20

what is the role of the observation system in indirect ophthalmoscopy

Answer 20

to relay the image of the retina of the patient to the examiner
the further away the observation system/lens = the larger the diameter needs to be

Question 21

name 2 ways of increasing FOV with indirect ophthalmoscopy

Answer 21

• larger diameter lens

- larger power lens

Question 22

what is the relationship between the examiner’s and patients’ pupil during indirect ophthalmoscopy

Answer 22

patient and examiner’s pupils are conjugate to each other

Question 23

what is the only way to collect all the light in indirect ophthalmoscopy

Answer 23

patient’s and examiner’s pupils must be conjugate with each other

Question 24

as well as pupils of the examiner and patient having to be conjugate with each other, what else has to be conjugate

Answer 24

the retina of the patient but be conjugate with the examiner’s

Question 25

where on the examiner is the image of the patient’s pupil formed

Answer 25

on the examiner’s pupil

Question 26

as well as pupils of the examiner and patient having to be conjugate with each other, what else has to be conjugate

Answer 26

the retina of the patient but be conjugate with the examiner’s

Question 27

where on the examiner is the image of the patient’s pupil formed and how so

Answer 27

on the examiner’s pupil - two if the rays at the edge of the patient’s pupil diverge and reach the examiner’s pupil

Question 28

what size is the examiner’s pupil in relation to the patient’s pupil in indirect ophthalmoscopy

Answer 28

• examiner’s pupil is optically smaller than the patient’s

- patient’s pupil is magnified so is larger

Question 29

what is the result of the examiner’s pupil being optically smaller and the patient’s pupil being magnified so larger in indirect ophthalmoscopy

Answer 29

only light rays emerging from the part of the patient’s pupil that is the diameter of the examiner’s pupil that is smaller can be seen, so can only see a small part of the patient’s pupil

Question 30

what does the diameter if the ophthalmoscopy lens determine

Answer 30

the field of view

Question 31

although a larger lens = larger FOV, what is a drawback to producing a larger lens

Answer 31

this produces more spherical aberrations and in the periphery, they will have non paraxial rays

Question 32

what does moving the ophthalmoscopy lens closer to the eye do

Answer 32

gives a larger FOV

Question 33

list all of the things that can be done to the ophthalmoscopy lens to give a larger FOV in indirect ophthalmoscopy

Answer 33

• larger diameter ophthalmoscopy lens
• moving the lens closer
• larger power of ophthalmoscopy lens

Question 34

although a larger power ophthalmoscopy lens results in larger FOV, whittles does it result in

Answer 34

smaller magnification hence smaller image size h’

so can have both high mag/power and large FOV/image i.e. its a trade off

Question 35

what is the equation for the size of an image, if the object is infinitely far away

Answer 35

h’ = -ntani/F

Question 36

as well as pupils of the examiner and patient having to be conjugate with each other, what else has to be conjugate with indirect ophthalmoscopy

Answer 36

the retina of the patient but be conjugate with the examiner’s

Question 37

where on the examiner is the image of the patient’s pupil formed and how so in indirect ophthalmoscopy

Answer 37

on the examiner’s pupil - two if the rays at the edge of the patient’s pupil diverge and reach the examiner’s pupil

Question 38

what is the result of the examiner’s pupil being optically smaller and the patient’s pupil being magnified so larger in indirect ophthalmoscopy, in indirect ophthalmoscopy

Answer 38

only light rays emerging from the part of the patient’s pupil that is the diameter of the examiner’s pupil that is smaller can be seen, so can only see a small part of the patient’s pupil

Question 39

what does the diameter if the ophthalmoscopy lens determine in indirect ophthalmoscopy

Answer 39

the field of view

Question 40

although a larger lens = larger FOV, what is a drawback to producing a larger lens, in indirect ophthalmoscopy

Answer 40

this produces more spherical aberrations and in the periphery, they will have more non paraxial rays

Question 41

what does moving the ophthalmoscopy lens closer to the eye do in indirect ophthalmoscopy

Answer 41

gives a larger FOV

Question 42

although a larger power ophthalmoscopy lens results in larger FOV, what else does it result in, in indirect ophthalmoscopy

Answer 42

smaller magnification hence smaller image size h’

so can have both high mag/power and large FOV/image i.e. its a trade off

Question 43

what will satisfy L’ = L + F in indirect ophthalmoscopy

Answer 43

the patient’s pupil must be conjugate with the examiner’s pupil

Question 44

what do you have an image of, if your pupil is off centre from the patient’s pupil (not conjugate) and how is this, in indirect ophthalmoscopy

Answer 44

have an image of the light source and image of the patient’s retina

the light will first diverge, then converge to a point of the patient’s pupil

Question 45

with binocular indirect ophthalmoscopy, how is it set up

Answer 45

• one of patient’s eye and two of the examiner’s
• both pupils are conjugate with each other
• both eyes of the examiner at looking at the object (fundus) which forms an intermediate image O’

Question 46

with binocular indirect ophthalmoscopy, how is it set up

Answer 46

• one of patient’s eye and two of the examiner’s
• both pupils are conjugate with each other
• both eyes of the examiner at looking at the object (fundus) which forms an intermediate image O’

Question 47

what can you not control with binocular indirect ophthalmoscopy and what problems can this cause

Answer 47

the pd’s of the examiner’s eyes

image of the right and left pupil ends up in the periphery which causes a problem because the examiner can only see whatever light goes into the patches formed by their two pupils (which are also optically smaller than the patient’s) which rest on the pupil border of the patient , as a result the examiner can see most of the patient’s iris which is no good

Question 48

what is a solution to the problem where the examiner is only being able to view most of the patient’s iris in binocular indirect ophthalmoscopy as the pd’s cannot be altered

Answer 48

if viewing binocularly, need to add mirrors in order to see into the patient’s pupil, as mirrors has the effect of bringing the examiner’s pupils closer together hence allowing to see into the pupil, as a result both of the examiner’s pupils are collecting light coming from the patient’s pupil

Question 49

what affect does mirrors have on the angle of the light going into the examiner’s pupils in binocular indirect ophthalmoscopy

Answer 49

mirrors makes the angle smaller, so both of the examiner’s pupils are collecting the light coming from the patient’s pupil

Question 50

what is the binocular indirect ophthalmoscope composed of

Answer 50

• head piece
• light coming out from the middle
• mirrors

Question 51

what does a slit lamp use instead of mirrors in order to bring the pupil images of the examiner together in binocular indirect ophthalmoscopy

Answer 51

prisms which has the same affect as mirrors

the slit lamp looks at the intermediate image O’ in this case and magnifies it

Question 52

what creates a corneal reflection with binocular indirect ophthalmoscopy

Answer 52

all the light that it focussed onto one point = corneal reflection

Question 53

what must the corneal reflection not obscure in binocular indirect ophthalmoscopy

Answer 53

the viewing channels

Question 54

what is a result of the corneal reflection overlapping the viewing channels in binocular indirect ophthalmoscopy

Answer 54

a corneal reflex, therefore corneal reflection (i.e. illumination) and both viewing channels must be separate

Question 55

how do you avoid getting a corneal reflex in binocular indirect ophthalmoscopy

Answer 55

make sure the light source doesn’t over lap the pupils

Question 56

what happens when the light source is not focussed correctly during binocular indirect ophthalmoscopy

Answer 56

corneal reflex will enter the viewing channels

Question 57

what 2 things is the correct distance and position of the indirect ophthalmoscope important for

Answer 57

• max FOV

- no corneal reflections

Question 58

what can be done to a patient to more likely avoid corneal reflection overlapping the viewing channels

Answer 58

pupil dilation is often necessary

Question 59

what can scatter from other ocular media do

Answer 59

it can still enter the viewing path

Question 60

what powers are volk/ophthalmoscopy lenses available in

Answer 60

between +15D (31 deg) and +40D (69 deg) = much larger FOV than direct ophthalmoscopy

Question 61

how much FOV in degrees can a +15D ophthalmoscopy lens produce

Answer 61

31 degrees

Question 62

how much FOV in degrees can a +40D ophthalmoscopy lens produce

Answer 62

69 degrees

Question 63

what type of lens does a ophthalmoscopy/volk lens have and what are the advantages to this lens type

Answer 63

• high index, glass and aspheric surfaces
• to maximise lens diameter and power while minimising aberrations
• low dispersion glass: minimises chromatic aberrations (if not there will be different wavelengths refracted by different amounts)
• AR coating and colour filters: reduces reflections, scatter, chromatic aberrations and harmful radiation

Question 64

the principle of what other imaging device is similar to indirect ophthalmoscopy but with more complicating optics

Answer 64

optics of the fundus camera is very similar in principle, but with more complex optics and recording of image

Question 65

define indirect ophthalmoscopy

Answer 65

a positive lens which is used to form a real inverted image of the patient’s fundus. this intermediate aerial image is viewed by the observer