Post on 11-Apr-2017
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SLIT LAMP BIOMICROSCOPY
SLIT LAMP
The routine method of examining the outer segment of the eye is with a
slit lamp. It consists of a relatively low-powered binocular compound
microscope which is linked to an adjustable light source.
The instrument is known as a slit lamp because in everyday use the
illumination is arranged so that a narrow vertical slit of light is projected
on to the eye.
INTRODUCTION
Biomicroscope derives its name from the fact that it enables the
practitioner to observe the tissue of eye under magnification.
It not only provides magnified view of every part of eye but also
allows quantitative measurements and photography of every part
for documentation.
BIOMICROSCOPE Forehead rest
Canthus alignment
Chin rest
Chin rest adjustment knob
Fixation light
Oculars
Magnification
Joystick
Slit lamp facilitates the examination of following structures of the eye:
• Eyelid
• Cornea
• Sclera
• Conjunctiva
• Iris
• Aqueous
• Natural crystalline lens and
• Anterior vitreous.
ILLUMINATION SYSTEM
It consist of:
A bright source of light with a slit mechanism
Provides an illumination of 2*10^5 to 4*10^5 lux.
The beam of light can be changed in intensity, height, width,
direction or angle and color during the examination.
Condensing lens system:
•Consist of a couple of planoconvex lenses with their
convex surface in apposition.
Slit and other diapharm:
Height and width of slit can be varied by using knobs.
Reflecting mirrors and prisms
Filters
oYellow filter
oRed free filter
oDiffuser
oCobalt blue filter
OBSERVATION SYSTEM Observation system is essentially a compound microscope composed of two
optical elements
1. an objective,
2. an eyepiece
It presents to the observer an enlarged image of a near object.
The objective lens consists of two planoconvex lenses with their convexities
put together providing a composite power of +22D.
Microscope is binocular i.e. it has two eyepieces giving
binocular observer a stereoscopic view of eye.
The eye piece has a lens of +10D.
To overcome the problem of inverted image produced by
compound microscope ,slit lamp microscope uses a pair of prisms
b/w the objective and eyepiece to reinvert the image.
Magnifications available are 5X, 16X, 25X, 40X and 100X.
MECHANICAL SYSTEM Joystick arrangement
• Movement of microscope and illumination system towards and away from
the eye and from side and side is achieved via joystick arrangement.
Up and down movement arrangement
•Obtained via some sort or screw devices.
Patient support arrangement
•Vertically movable chin rest and the provision to adjust height of table.
Magnification control :
Including two or pair of readily changeable objective
lenses and two sets of eyepieces.
An on and off switch and illumination control .
FILTERSCobalt blue filter
• Used in conjunction with fluorescein stain
• Dye pods in area where the corneal epithelium is broken or absent.
The dye absorbs blue light and emits green.
Uses:
Ocular staining
RGP lenses fitting
Tear layer
Red free (green)filter:
• Obscure any thing that is red hence the red free light , thus blood
vessels or hemorrhages appears black.
• This increases contrast ,revealing the path and pattern of inflamed
blood vessels.
• Fleischer ring can also be viewed satisfactorily with the red green
filter.
Diffuser
Some instruments have a diffuser which is a frosted glass or
a plastic that flips in front of the illuminator. The diffusor
scatters the light, causing an even spread of light over the
entire ocular surface.
TECHNIQUES/METHODS OF ILLUMINATION
DIFFUSE ILLUMINATION Used for gross survey of the eye. After looking for gross pathology the area of
interest can be focused.
i. Light at 45 degrees
ii. Microscope straight
iii. Least illumination/cobalt blue/red free/diffuser
iv. Least magnification
v. Full width Beam
DIRECT ILLUMINATION Involves placing the light source at an angle of about 40-50 degree
from microscope.
This arrangement permits both light beam and microscope to be
sharply focused on the ocular tissue being observed.
Wide beam direct illumination is commonly used as a preliminary
technique to evaluate large area.
The direct illumination examination is carried out utilizing four slit
beam effects on the transparent structures of the eye i-e
1. Optical section
2. Parallelepiped of cornea
3. Conical beam effect
4. Specular reflection
1. OPTIC SECTION Optic section is a very thin parallelepiped and optically cuts a very thin slice
of the cornea.
Angle between the illuminating and viewing path is 45 degree.
With narrow slit, the depth and portion of different objects (Penetrating
depth of foreign bodies, shape of lens etc.) can be resolved more easily.
With wider slit their extension and shape are more visible.
Magnification: Maximum.
Used to localizeBlood vessels
Nerve endings
Cataract
AC Depth
PARALLELEPIPED Beam of light that has two parallel sides. Any beam of light with a width
between diffuse and optic section (usually between 0.5mm and
2.0mm). Provides a 3-dimensional view (width, height and depth).
Beam angle: 60°, variable
Beam height: variable, but usually set to maximum
Illumination: low to moderate
Magnification: low to medium
All-purpose evaluation: most commonly used to evaluate almost
every structure.
Cornea: edema, epithelium, endothelium, neovascularization
Lens: cataract
CONICAL BEAM
A small round or square beam of light used to assess the status of the
anterior chamber by oscillating between the cornea and the lens.
Produced by narrowing the vertical height of a parallelepiped to
produce a smaller circular or square spot of light.
Light source is 45-60 degree temporally and directed into the pupil.
Biomicroscope directly in front of the eye.
Magnification High (16-25X)
Intensity of light highest.
To see AC for cells and flare
FOCUSING
Beam is focused between the cornea and the anterior lens and the
dark zone between the cornea and the lens is observed.
SPECULAR REFLECTION Established by separating the microscope and slit beam by equal angles from
normal to cornea.
Position of illuminator about 30 degree to one side and the microscope 30
degree to others ide.
Angle of illuminator to microscope must be equal and opposite.
Angle of light should be moved until a very bright reflex obtained from
corneal surface which is called zone of specular reflection.
Under specular reflection anterior corneal surface appears as white
uniform surface and corneal endothelium takes on a mosaic pattern.
Used to observe:
Evaluate general appearance of corneal endothelium
Lens surfaces
Corneal epithelium
SurfaceEndothelium
SCLEROTIC SCATTER
Light beam is focused at the limbus because of total internal
reflection rays of light pass through the substance of cornea and
illuminate the opposite side of limbus.
If there is any pathology like corneal opacity it become visible
because it scatter rays of light.
Used to observe:
Central corneal epithelial edema
Corneal abrasions
INDIRECT ILLUMINATION The beam is focused at an area adjacent to the ocular tissue to be observed.
PROXIMAL ILLUMINATION
Use a parallelepiped beam sharply focused on the given structures like cornea.
The light passes through the cornea and falls out of focus on the iris. The dark
area lateral or proximal to the parallelepiped is the indirect or proximal zone of
illumination.
RETROILLUMINATION
The light is reflected off the deeper structures like the iris or the retina, while
the microscope is focused to study the more anterior portions of the reflected
light.
IRIS RETROILLUMINATION = CORNEA ( Keratic precipitates)
RETINA RETROILLUMINATION = LENS (Cataract) AND CORNEA
BASIC SLIT LAMP EXAMINATIONPatient positioning:
•Head support unit
•Adjust height of table or chair
•Adjust height of chin rest such that patients lateral
canthus is aligned with the mark.
Adjust ocular eyepieces:
•Power up
•Fixation
•Magnification : begin with 6x -10x magnification
•Focusing
•Special procedures
•Protocol and documentation
USES
1. Diagnostic:
•OCT
•FFA
•Anterior segment and posterior segment diseases.
2. Procedures:
Applanation
Tear evaluation
Gonioscopy
Contact lens fitting etc.
3.Therapeutic:
•Laser
•Foreign Body removal etc.
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