Lab - Special Senses Practical: Vision

Question 1

What is Visual Acuity ?

Answer 1

Visual Acuity is the ability to resolve (see) a gap between two objects

Question 2

How is visual acuity recorded?

Answer 2

Distance visual is recorded as distance tested at over the line seen: distance of patient/line seen

E.g A person with 20/50 vision can clearly see something 20 feet away that a person with normal vision can see clearly from a distance of 50 feet

Visual acuity is recorded as “6/X” in which the 6 indicated the 6 meter the patient is away from the chart and the X is what line of the chart that the smallest text that was seen

Normal healthy vision is 6/6 meaning that the subject is able to read 6 meters the line that is labelled number 6 on the chart.

If only the top line was seen this would be recorded as 6/60 as the top line is labelled as ‘60’ meaning someone with normal vision could see this line from 60 meters away. If they were standing 60 meters away this is all that a normal sight person would see and their vision would be 60/60. Overall ratio is 1.0 or 100%

Near vision- Near vision is recorded as ‘Nx. “x” is the number of text that can be read at 40cm. This is considered normal reading distance.

Question 3

What are the different tests/charts used to test for visual acuity ?

Answer 3

Usually test vision with a standard full size Snellen chart from 6 meters away.

Arclight cloth chart letters can be used which are 50% smaller than the Snellen chart so you can stand 50% the distance which is 3m away

Near visual acuity - There are many near vision charts (we used Arclight near chart). This is considered normal reading distance and has been calibrated for visual acuity to be tested 1). unaided, 2). with prescribed glasses if worn or 3). with a pinhole

In babies (up to age of 24 months) and individuals of any age with learning difficulties we use black and white stripe test (gratings) - Lea paddles

In children between the ages of 2 and 4 years can be assessed by ‘matching pictures’ - Lea symbols

Children with higher level language and understanding can be tested like any literate adult using Snelllen chart.

Illiterate E tests are commonly used in rural locations in low resource countries

Question 4

What must be remembered when taking results from Arclight cloth chart?

Answer 4

The top line is still labelled ‘60’ line so you document the vision as 6/60 and 6/36 despite testing at 3 meters

Question 5

Why do we get patients to look at text through a pinhole?

Answer 5

A pinhole overcomes the optical errors of an eye and can improve unaided vision if a refractive error is present

Question 6

What is Myopia ?

Answer 6

Nearsightedness (myopia) is a common vision condition in which near objects appear clear, but objects farther away look blurry. It occurs when the shape of the eye — or the shape of certain parts of the eye — causes light rays to bend (refract) inaccurately.

Question 7

How do you test Visual Acuity ?

Answer 7

Test unaided, with glasses or contact lenses if worn and with a pinhole

If you tested at a distance of 6 meters then record the visual acuity as “6/x” in which 6 indicates the distance at which the test is performed and “x” denotes the number of the line of the smallest test that was seen

Near vision is simply recorded as “Nx’ where ‘x’ is the number of the paragraph of text that can be read at 40cm. This is considered a normal reading distance and is the distance the reading card is calibrated for.

Question 8

What is the criteria to be registered as severely SI (Sight Impaired/blind)?

Answer 8

Must fall into one of the following categories while wearing any glasses for contact lenses that one may need;
- Visual acuity of less than 3/60 with a full visual field
- Visual acuity between 3/60 and 6/60 with a severe reduction of field of vision such as tunnel vision
- Visual acuity of 6/60 or above but with very reduced field of vision, especially if a lot of sight is missing in the lower part of the field

Question 9

What is the criteria to be registered as SI (Partially Sighted)?

Answer 9

Must fall into one of the following categories while wearing any glasses for contact lenses that one may need;
- Visual acuity of 3/60 to 6/60 with a full field of vision
- Visual acuity of up to 6/24 with a moderate reduction of field of vision or with a central part of vision that is cloudy or blurry
- Visual acuity of up to 6/18 if a large part of your field vision for example a whole half of your vision is missing or a lot of your peripheral vision is missing

Question 10

What are the vision requirements for driving ?

Answer 10

You must be able to read (with glasses for contact lenses if necessary) a car number plate made after September 2001 from 20 meters away

You also must meet the eyesight standard for driving having a visual acuity of at least 0.5(6/12) measures on the Snellen chart (with glasses or contact lenses, if necessary) using both eyes together or, if you have sight in one eye only, in that eye

Question 11

What are the 2 main types of colour vision impairment ?

Answer 11

• Congenital red/green colour confusion
• Acquired colour vision dysfunction

Question 12

What is Congenital red/green colour confusion ?

Answer 12

Congenital red/green colour confusion is the most common from of colour vision impairment affection 8% of the male population (its rare in females <1%)

Important genes for colour vision found on X chromosome and special forms of colour vision such as red/green colour confusion are inherited through genes on the X chromosome.

Ishihrara plates are used to asses this

Question 13

What is Acquired colour vision dysfunction?

Answer 13

Acquired colour vision dysfunction is a much for rare form of colour vision. These can be due to drug toxicity of the retina or optic nerve, slowly developing but inherited forms of retinal disease and acutely acquired vascular damage to the brain where colour vision is consciously created.

A Farnsworth-Munsell test is used to asses this

Question 14

How does colour exist?

Answer 14

Colour only exists in our minds!

There is no physical thing that is colour. There are only electromagnetic waves of different wavelengths which have no colour (they are invisible).

The brain creates a conscious perception of colour from a cascade of electrical activity started by EM waves hitting 3 different populations of cone photoreceptors. These are found in the central part of the retina called the macula.

Question 15

How has colour vision evolved ?

Answer 15

Foraging for food, social behaviour and predation avoidance drove the evolution of colour vision. Mammal are generally dichromates (can see 2 colours) although most old world primates including humans are trichromats.

Question 16

Wh is Red/Green colour confusion so common from an evolutionary stance?

Answer 16

Red/Green colour confusion is so common as it was an advantage when hunting and survival etc.

Those with Red/Green colour confusion are better at;
- Seeing shades of light brown/yellow (khaki colour)
- Distinguishing camouflaged objects amongst foliage
- Identifying patterns and textures in dim light conditions

Question 17

How does the surroundings of an object influence the colour that the brain makes?

Answer 17

The type of colour the brain creates is influenced by surrounding colours. Despite the wavelength of light reflecting back from two different surface being identical the colour ‘seen’ is different. This is due to the surrounding colours

Remember hole cut out with grey in practice and when sheet was lifted looked white ?

Question 18

What does lateral inhibition cause in the brain?

Answer 18

Lateral inhibition enhances contrast and colour

Groups of photoreceptors tends to inhibit the response of adjacent groups. A uniformly grey area can be perceived as a range of grey when the surrounding area varies. This is the same for colour

Question 19

How are pupil size’s controlled?

Answer 19

When light is shone into an eye the optic nerve afferent pathway stimulates the parasympathetic efferent supply to BOTH iris sphincter muscles causing constriction (miosis) of the pupils.

Pupil dilation in the dark is largely passive process of inhibiting input to the iris constrictor muscle.
Arousal from brain input via the sympathetic system does however actively drive dilation (mydriasis) of the pupil

Question 20

What is Miosis?

Answer 20

Constriction of pupils

Question 21

What is Mydriasis?

Answer 21

Dilation of pupils

Question 22

What muscles constricts the pupil?

Answer 22

Circular muscles - contract

Question 23

What muscles dilates the pupil ?

Answer 23

Radial muscles contract

Question 24

Give a summary of the Sensory Afferent Pathway of the pupils?

Answer 24

Afferent limb: Retina -> Optic nerve -> Pre-tectal nucleus

Question 25

Give a summary of the Parasympathetic Motor Efferent Pathway of the pupils?

Answer 25

Parasympathetic efferent limb: Edinger-Westphal nucelus -> Oculomotor nerve -> Ciliary ganglion -> Iris

Question 26

Give a summary of the Sympathetic Motor Efferent Pathway of the pupils?

Answer 26

Sympathetic efferent limb: Cilospiinal centre of Budge -> Cervical sympathetic chan -> Superior Cervical ganglion -> Carotid plexus -> Trigeminal nerve -> Iris

Question 27

How would you test for Pupil Responses ?

Answer 27

Summary of Pupil Examination;

1. Observe the pupil diameters in light and dark conditions. They should be similar in size. If there is a difference (anisocoria) this maybe pathological. It can also be associated with ptosis.
2. Direct response: Shine the light in one eye and examine the response in the same eye
3. Consensual (indirect) response: Shine the light in one eye and examine the response in the fellow eye.
4. Test for a relative afferent pupillary defect (RAPD): Use the ‘swinging light test’: Shine the light on one eye for 2-3 seconds, then rapidly move to the fellow eye. A normal response is either no change in size, or a brief constriction and returning to the same state (“hippus”). A pupil demonstrating an RAPD will paradoxically dilate when the light is shone upon it.
5. Near response: Ask the participant to look at a distant target then focus on a near target at around 20cms. Both pupils should constrict (Accommodation)

Question 28

What is Ansocoria?

Answer 28

Anisocoria is a condition characterized by unequal pupil sizes. It is relatively common, and causes vary from benign physiologic anisocoria to potentially life-threatening emergencies. Thus, thorough clinical evaluation is important for the appropriate diagnosis and management of the underlying cause

Question 29

What are the causes of Small Pupil - Sympathetic palsy ?

Answer 29

• Internal carotid artery dissection
• Stroke
• Apex of lung pathology

Question 30

What are the causes of Big Pupil - Parasympathetic palsy ?

Answer 30

• Posterior communicating artery aneurysm
• Stroke / microvascular 3rd CNP
• Raised ICP - Uncal herniation (hook on temporal lobe)

Question 31

What are the symptoms of Third Cranial Nerve Palsy?

Answer 31

The affected eye turns slightly outward and downward when the unaffected eye looks straight ahead, causing double vision. The affected eye may turn inward very slowly and may move only to the middle when looking inward. It cannot move up and down.

Question 32

What is Horner’s Syndrome?

Answer 32

Horner’s syndrome is diagnosed clinically by observing ptosis (drooping of upper and lower lids), miosis (constriction) of the ptotic eye and demonstration of dilation lag in the affected eye, and anhidrosis (can’t sweat) on the same side as the ptosis and/or mitosis

Dilation lag is a classic sign of Horner’s syndrome—when the slit lamp beam is turned off, the anisocoria will be most noticeable during the first four or five seconds of viewing. The abnormal pupil will slowly dilate or “lag behind” over 10 to 15 seconds, making the pupil asymmetry less evident.

(Basically affected side has drooping of upper and lower eyelid, constriction of pupil, cant sweat on that side and when a light is turned off there will be unequal sized pupils for 4-5 secs and abnormal pull will dilate taking 10 - 15 secs)

Question 33

Where would you find one’s blind spot?

Answer 33

Your blind spot is a small non-seeing patch in your visual world roughly 15 degrees temporal to fixation on the horizontal meridian. The blind patch projects from the optic nerve at the back of your eye. The optic nerve does not have any photoreceptors. It is made up of the axons of ganglion cells and therefore is ‘blind’.

Question 34

How do you test visual fields?

Answer 34

Setup: Sit directly in front of your patient, at the same height, with your knees almost touching

Test binocular visual field:
a. Present your open palms in the 2 upper quadrants halfway between you and the
patient
b. Ask the patient “while looking at my nose, can you tell me how many hands I am
holding up”
c. Present your open palms in the 2 lower quadrants and repeat the question
d. Now waggle the fingers of one hand
e. As the patient “Point to the hand which is waving”
f. Repeat this 2 or 3 times to ensure a consistent response

Uniocular visual field assessment:
a. Hold up 1 or 2 fingers in front of the patient and confirm their vision is good enough
to see ‘counting fingers’ and that they understand the test
b. Emphasise they should keep looking at your open eye and not the fingers
c. With the patient’s left eye covered and your right eye closed, ask the patient to fix
on your open eye. Then, explain to the patient that you are going to hold up different
numbers of fingers. Ask them to tell you how many fingers they see.
d. Place your fist in the middle of one quadrant and ‘flash’ either 1 or 2 fingers
halfway between you and the patient
e. Test all 4 quadrants of one eye twice randomly presenting one or two fingers and not simply alternating
f. Repeat this for the fellow eye
Uniocular field testing: Testing right upper temporal quadrant

Remind the patient throughout the visual field examination to look at your open eye and not at the fingers.

The commonest error here is not keeping the examining hand halfway between examiner and patient.

A more in depth visual field assessment can be carried out to explore the meridia (horizontal and vertical) and also the blindspot using a red pin. However, the above points 1 to 3 are substantial enough for your stage in training.

Question 35

What would be the cause of a complete loss of vision in one eye?

Answer 35

Optic nerve disease

Question 36

What would be thee cause of a Bilateral Hemianopia ?

Answer 36

Disease of the optic chiasm

Question 37

What would Inferior or Superior quadrantanopia be caused by?

Answer 37

Disease of the parietal or temporal lobes respectively (PITS)

Question 38

What would cause a Hemianopia?

Answer 38

Optic tract or occipital lobe disease

Question 39

How would you carry out a Retinal Reflection Test?

Answer 39

• Bright light, lens set to zero, arms length
• Observe both eyes at a time
• Comment on any asymmetry of brightness and colour or presence of opacity

Question 40

What is wrong with this retina ?

Answer 40

• Dark Central Opacity
• Cataract
• Corneal scar

Question 41

What is wrong with this retina ?

Answer 41

White reflex;
- Leucocoria
- Retinoblastoma

Question 42

What is wrong with this retina ?

Answer 42

• Left central opacity
• Posterior polar cataract

Question 43

What is wrong with this retina ?

Answer 43

• Left absent retinal reflection
• Complete Cataract

Question 44

What is wrong with this retina ?

Answer 44

• Bilateral Leucocoria
• Retinoblastoma

Question 45

How would you test the Optic Nerve?

Answer 45

• Low to medium bright light held in right hand
• Using right eye to their eye
• Start 15 degrees (blind spot) temporal on the horizontal with lens zero at arms length
• Slowly move in maintaining the rental reflection
• Until you can see the optic nerve
• Follow the vessel branch (arrows) to the disc
• If out of focus alter lens power
• Comment on margin, colour and cup

Question 46

What is wrong with this Optic Nerve?

Answer 46

Swollen

Question 47

What is wrong with this Optic Nerve?

Answer 47

New vessels

Question 48

What is wrong with this Optic Nerve?

Answer 48

Cupped

Question 49

What is wrong with this Optic Nerve?

Answer 49

Pale

Question 50

How would you asses the Retina?

Answer 50

• Follow each major arcade vessel (1-4)
• Return to optic nerve each time until all 4 have been examined
• Finally ask the patient to look at light
• Examine the fovea (5) at the centre of macula (not too long as patient will see whiteness and stars)
• Comment on appearance of the vessels and retina noting any abnormal findings

Question 51

What is wrong with this Retina?

Answer 51

Central Retinal Vein Occlusion

Question 52

What is wrong with this Retina?

Answer 52

Maculopathy - Age related macular degeneration or Toxoplasma scar

Question 53

What is wrong with this Retina?

Answer 53

Proliferative Diabetic Retinopathy