Slit Lamp Biomicroscopy - CSB

Question 1

What is direct illumination?

Answer 1

The observer looks directly at the structures illuminated by the focussed beam.

Question 2

What is indirect illumination?

Answer 2

The observer looks to the side of the illumination.

Question 3

What is retroillumination?

Answer 3

The observer uses light reflected from a more posterior source to view an object.

Question 4

When might retroillumination be used in slit lamp?

Answer 4

When the observer uses light from the iris to observe vessels.

Question 5

Whats an advantage of Diffuse illumination?

Answer 5

Gives good view of eye, lids and lashes.

Question 6

What are the four type of optical sections viewed on the slit lamp?

Answer 6

Corneal Section

Paralellopied

Lens section

Van Herrick

Question 7

Corneal Section

Magnification?

Viewing angle?

The greater the angle, the _______ the optical section.

How is the corneal section seen?

Answer 7

6-16x

At least 45 degrees

The greater the angle, the wider the optical section

As a grey arc

Question 8

What slit lamp method produces this image?

Answer 8

Corneal Section

Question 9

Label the structures in this image.

Answer 9

Question 10

Paralellopied

Whats the easiest way to get to a parallelopied section?

Viewing angle?

Beam Angle?

Magnification?

Answer 10

Obtain a corneal section and just widen the beam to 2-4mm.

45 degrees

2-4mm

6-16x

Question 11

What optical section is this?

Answer 11

Paralellopiped

Question 12

What is the purpose of the paralellopiped technique?

Answer 12

To scan the cornea

Question 13

What is the corneal section technique used for?

Answer 13

To determine depth of opacity of cornea

Question 14

What is the lens optic section technique used for?

Answer 14

To determine depth of opacity of the lens

Question 15

What are you looking out for in the scelerotic scatter technique?

Answer 15

You are looking for a complete halo around the limbus that has no gaps.

Question 16

What is the Van Herick’s technique used for?

Answer 16

It allows you to assess space between the corneal endothelium and anterior chamber iris surface.

Question 17

What technique has been used to produce this image?

Answer 17

Parallelopiped

Question 18

Lens Section Technique

Magnification?

Angle?

Beam Width?

What is viewed via this technique and how does it appear?

Answer 18

6-16x

30 degrees

0.5-1mm

The crystalline lens in the section will appear to have a bright band at the front and back (anterior and posterior cortex) and several lighter bands , in the centre, giving it a layered (onion-like) appearance.

Question 19

What viewing technique has been used to produce this image and what is it showing?

Answer 19

Lens section technique. It is showing the anterior surface of the lens.

Question 20

What technique has been used to produce this image and what is it showing?

Answer 20

It is a lens section and it is showing the centre of a lens

Question 21

What viewing technique has been used to produce this image and what is it showing us?

Answer 21

Lens section - it is showing us the posterior surface of the lens.

Question 22

How can you fully view the lens using the lens section technique?

Answer 22

First focus on the iris then move across to the centre of the pupil. you should see all aspects of the lens illuminated at different points.

Question 23

Why are we concerned about the angle of the anterior chamber?

Answer 23

Closed angle glaucoma.

Question 24

Who is at risk of closed angle glaucoma ?

Answer 24

Elderly hyperopic patients.

Question 25

Can an optometrist induce a closed angle attack?

Answer 25

Yes when you dilate a patient

Question 26

Van Herrick’s Technique

What is it used for?

Beam width?

Viewing angle?

Magnification?

How do you carry out the technique?

What are you assessing?

Answer 26

Used to acess the depth of the anterior chamber

1-2mm

60 degrees

16x

Instruct patient to look directly at the microscope. Position narrow slit beam on the sclera and move across until you reach the limbus and the beam splits in two.

Assess the gap between the iris and the back surface of the cornea to the thickness of the cornea.

Question 27

What viewing technique has been used to produce this image?

Answer 27

Van Herricks

Question 28

What are the structures present in this image and what grade would this be?

Answer 28

Grade 4 as the gap is bigger or equal to the thickness of the cornea- ratio is 1:1 (i.e. the angle is wide open).

Question 29

What viewing technique produces this image and what structures can be seen as a result?

Answer 29

Question 30

Specular reflection

Beam Width?

Viewing angle?

Magnification?

What is the angle of incidence equal to?

How do you set up for specular reflection illumination?

What can you expect to see?

What are the uses of specular reflection illumination?

Answer 30

2-4mm

45-60 degrees

>16x (high magnifcation)

The angle of incidence is equal to the angle of reflection.

Remind the client to fixate straight ahead. Look into the microscope. Using the joystick, bring the parallelepiped into sharp focus. Movement of the tear film should be visible after the client blinks. Gradually change the angle the illuminating arm makes with the microscope until a bright, dazzling area of the precorneal tear fluid is seen.

You can expect to see the anterior surface of the lens appear like an orange peel.

Details of the precorneal fluid, mucus secretion and lipid elements of the tears are seen. This illumination enables the contact lens fitter to objectively assess the quality of the tear layer.

Question 31

What viewing technique has been used to produce this image?

Answer 31

Specular reflection

Question 32

Sclerotic scatter

Beam Width?

Viewing Angle?

Magnification?

What’s the theory behind the technique and thus what should be seen in an ideal eye?

If a microscope is used for this technique then what must be done?

Answer 32

2-4mm

45-60 degrees

With the naked eye.

The light is internally reflected within the cornea and re-emerges around the limbus, therefore, in a normal eye, the cornea appears dark with a halo of light around the limbus.

If the microscope is to be used it must be decoupled from the illumination system.

Question 33

What viewing technique is used to produce this image?

Answer 33

Sclerotic Scatter

Question 34

What is Tear Break Up Time (TBUT) ?

Answer 34

Tear Break Up Time (TBUT) is related to the wetting properties of the tears and the rate of tear production.

(It is the time taken to produce tears).

Question 35

What is normal Tear Break Up Time (TBUT)?

Answer 35

Over ten seconds (anything under ten seconds is abnormal).

Question 36

In which people is Tear Break Up Time (TBUT) reduced?

Answer 36

The elderly

Those suffering with Xerophthalmia

Those with Sjogrens Syndrome

Contact Lens Wearers

Question 37

What is Xerophthalmia?

Answer 37

Xerophthalmia is a progressive eye disease caused by vitamin A deficiency.

(Lack of vitamin A can dry out your tear ducts and eyes. Xerophthalmia can develop into night blindness or more serious damage to your cornea).

Question 38

What is Sjogrens Syndrome?

Answer 38

A chronic autoimmune disease affecting salivary glands and tear glands.

Question 39

What is used to test Tear Break Up Time (TBUT) and how do you carry this out?

Answer 39

Flourescin.

You instill flourescin into the patient’s eye then view the eye using the slit lamp - here you add the cobalt blure filter. (If the slit lamp has a wrath filter add this too to increase contrast).

Focus on the cornea and observe the green tear film.

Ask the patient to take a blink and then stare straight ahead.

START counting the number of seconds until you observe dark blue patches appearing in the green tear film. When you see this STOP counting. This is your TBUT.

Question 40

How many purkinje images are there of the eye?

Answer 40

Four

Question 41

Where is each purkinje image formed?

Answer 41

Purkinji I - tear Film

Purkinji II - Corneal Endothelium

Purkinji III - Anterior Surface of Lens

Purkinji IV- Posterior Surface of lens

Question 42

Which purkinji image is the brightest?

Answer 42

Purkinji I

Question 43

Which Purkinji image is the hardest to see?

Answer 43

Purkinji II

Question 44

What is the Purkinji III responsible for?

Answer 44

The orange peel effect seen in specular reflection illumination (when i = r ) .

Question 45

Which Purkinji image is this?

Answer 45

Purkinji I

Question 46

Which Purkinji image is this (the one far right)?

Answer 46

Purkinji II

Question 47

Which Purkinji image is this?

Answer 47

Purkinji IV

Question 48

When using Fluorescin what must you always ensure you do & don’t do?

Answer 48

Remember to use Saline and check expiry dates!

NEVER use tap water.

Tap water + Fluorescin –> Pseudomonas (bacteria) which we do not want!

Question 49

What does Smith’s method allow us to estimate?

Answer 49

It allows us to estimate the anterior chmaber depth at the apex of the cornea.

Question 50

If a patient has a ratio of 0.5:1 as measured using Van Herrick’s technique, what grade is she given and what is the diagnosis?

Answer 50

Grade 3 . Diagnosis is that angle is open.

Question 51

If a patient has a ratio of 0.25:1 as measured using Van Herrick’s technique, what grade is she given and what is the diagnosis?

Answer 51

Grade 2. Diagnosis is that it is suspicious and needs to be checked out by gonioscopy.

Question 52

If a patient has a ratio of <0.25:1 as measured using Van Herrick’s technique, what grade is she given and what is the diagnosis?

Answer 52

Grade 1. Diagnosis is that the angle is dangerously narrow.

Question 53

What pathology could possibly be seen by sclerotic scatter?

Answer 53

Corneal oedema - this woul look like a spot also being highlighted (as well as the limbus)

Corneal opacity - a highlighted spot within the cornea.

Question 54

What are slit lamps used for in optometric practice?

Answer 54

Examination of external eye, anterior chamber, iris and crystaline lens.

Fundus examination (requires auxillary lens and mydriasis).

Applanation tonometry (requires Goldmann tonometer attactchment) - allows us to determine intraocular pressure.

Gonioscopy - viewing of the iridocorneal angle.

Pachometry -process of measuring the thickness of the cornea

Inspection of Contact Lenses.

Question 55

How is a lid eversion conducted and why is it done?

Answer 55

In order to examine the palpebral conjunctiva under the upper lid.

Instruct the patient to look down.

Place a thin rod (e.g. a cotton bud) horizonatlly along the skin of the upper eyelid just above the level of the upper border of the tarsal plate.

Take the upper lid margin and lashes between the index finger and the thumb and draw the lid away from the globe.

press down with the rod and roll the lid back over it. The rod can then be withdrawn and the lid will normally stay up until the patient looks down or blinks.

Question 56

What is fluorescin used for?

Answer 56

To detect lesions of the corneal epithelium.

To examine the fit of RIGID contact lenses.

In applanation tonometry

To evaluate TBUT (Tear Break Up Time).

To demonstrate the patency (the condition of being open or unobstructed) of lacrimal drainage.

Question 57

What is fluorescin angiography?

Answer 57

A technique used to examine integrity of retinal vessels.

Question 58

What are fluorets and why are they used?

Answer 58

Pseudomonas (a type of bacteria) has an affintiy for flourescin and contamination with this organism presents serious risk to the eye. To avoid this risk fluorescin is usually applied using impreganted paper strips called fluorets.

Question 59

How does the instillation of Fluorescin occur?

Answer 59

The Fluoret is dampened using sterile saline solution or contact lens wetting solution (NEVER tapwater).

Patient is instructed to look UP and NASALLY.

The moistened fluoret touches the exposed bulbar conjunctiva.

It is then ready to view under UV light.

Question 60

What are the dark blue areas seen when testing Tear Break Up Time (TBUT) using fluorescin?

Answer 60

These are areas where the tear film has evaporated to expose the epithelium.

Question 61

Why are elderly hyperopic patients at risk of closed angle glaucoma?

Answer 61

As you age the lens gets (shorter) and fatter. As a result volume in the anterior chamber decreases and so pressure increases.