3. SYNOPTOPHORE
A type of a telescope which both reflects and refracts
rays of light.
The optics are such that the instrument measures at
infinity
The instrument consists of two cylindrical tubes with a
mirrored right angle bend and containing in each eye
piece a + 6.50 D.S lens.
At the outer end of each tube there is a slide carrier into
which pictures are inserted, so that each eye is
stimulated by a separate image.
4. SYNOPTOPHORE optics
The total length of the tube is 15.5 cm which is
the focal length of a + 6.5 D.S. lens, therefore
the emergent rays are parallel giving the
appearance that the picture is at infinity.
No accommodation is required by the
patient when observing the pictures
5. SYNOPTOPHORE
The tubes are supported on columns in such a
way that the pictures may be moved in relation
to each other horizontally, vertically and
torsionally.
Therefore any horizontal, vertical or torsional
deviation can be measured in nine positions of
gaze.
The synoptophore can be converted to a near
test by adding – 3.00 D.S lenses to induce
accommodation
6.
7. Synoptophore
Used for both sensory and motor evaluation.
To confirm three grades of BSV
Make use of Hirschberg's method to measure
the deviation.
With a cover test to measure the deviation.
8. Targets
The test presents known target to each eye.
Targets are pairs of slides that are placed in
slide holders and viewed through an internally
lighted optical system.
Each eye sees one of the pair of slides.
9. Types of Targets/Slides
There are three sizes of slide:-
Paramacula – subtends 5° at nodal point
Macular – subtends 3° - 5° at nodal point
Foveal – subtends 1° 3° at nodal point
10. Types of Targets/Slides
The slides are divided into three types:-
1. Simultaneous perception (red bound)
2. Fusion (green bound)
3. Stereoscopic (yellow bound)
12. Diagnostic Uses
Angle of deviation objectively and subjectively
Assessment of retinal correspondence
Fusional amplitudes
Grades of BSV
After image test
Measurement of angle kappa
13. Measuring of deviation with
synoptophore
Measured objectively and subjectively
Simultaneous perception slides are used such
as lion and cage
17. Objective measurement
Tubes should be adjusted to zero
Patient should be seated comfortably with IPD adjusted.
Simultaneous slide should be placed in both slide carrier
Now the examiner will start cover test with the help of
light control button by extinguishing and lightening
alternatively and neutralized the deviation.
After this the deviation should be read out from the scale
18. Subjective measurement
Method
Subjective measurement is based on the patients
responses. The accuracy of the measurement depends
on the ability and cooperation of the patient
Move tubes back to 0°, ask patient to move the tube in
front of the deviating eye with the handle until he sees
two dissimilar images superimposed e.g. lion in a
cage
Deviation measurement read from scales
19. Retinal correspondence
Harmonious abnormal retinal correspondence is present
where the angle of anomaly is equal to the objective
angle, and the subjective angle is zero.
Unharmonious abnormal retinal correspondence is
present where the angle of anomaly is different from the
objective angle
The angle of anomaly is the difference between the
objective and subjective angles of deviation
21. Example
One eye will see a mice with cap and without tail.
While the other eye will see a mice with tail and without
cap.
By sensory fusion the pts will see a complete mice with
cap and tail.
The examiner will lock both the tubes with a control .
First both the tubes will be moved in convergent position
and reading will be taken on fusion break
Than the examiner will move the tubes in divergent
position and reading will be taken when fusion breaks
23. G1.Simultaneous perception
Grade (1): binocular vision requires
simultaneous perception (parafoveal, foveal, or
macular slides may be used; this choice
depends on V/A).
Dissimilar targets, such as a lion and cage, are
presented to each eye.
The patient who sees the lion in the cage is
seeing with each eye simultaneously and has
grade 1 binocular vision
24. G2. Fusion
Grade (2): binocular vision requires fusional ability.
Similar targets presented to each eye must be fused
before a complete picture is identified. a grade 2 target
may present to one eye a picture of a rabbit with no tail ,
clutching flowers , the other eye would be presented
with a picture of the same rabbit , but it would have a tail
, and geld in its hand would be a stem without flowers.
Grade 2 binocular vision is present if the patient fuses
these images and reports seeing a tailed rabbit clutching
a group of flowers by a stem.
25.
26. G3. Stereopsis
Grade (3): depth perception:
Binocular vision requires the coordinate use of the
two eyes together to yield the sensation of
stereopis.
Grade 3 slides present to the viewer pictures that
are not quite superimposable .the fusion of these
slightly disparate images by the brain creates the
sensation of depth, or stereopis .if fused correctly,
one of the seahorses will appear distinctly in front of
the others.
27. After image test
Induces an after image in each eye
It has special slides
The slides are black except for a central clear bar with
small red fixation target at the center
One bar is vertical and the other is horizental
Vertical bar slide usually in front of deviating eye
The examiner put on high intensity light on one eye for
10 second than switch off to other eye for 10 second
Than the pts is asked to draw the cross as he/she
perceived.
30. Measuring Angle Kappa
A special slide is placed in front of the eye under
observation.
It consists of a row of numbers and letters at 1Δ
intervals.
The patient is asked to look at the zero.
If the corneal reflex is on the nasal side of the
pupil the angle is positive
If it is on the temporal side it is negative.
31. The patient is asked to look in turn at either
one letter or one number until the reflex is
centered.
The degree of deviation corresponding to the
letter or number is then recorded
32. For instance, if the right eye is the one to be
tested and the corneal reflex is centered when
the patient looks at the letter C.
The patient has a 3Pd negative angle kappa in
the right eye
