IN THE NAME OF GOD. Optical Considerations for IOLs 1.Image magnification 2. Power selection 3.Piggy...
-
Upload
philip-dines -
Category
Documents
-
view
221 -
download
6
Transcript of IN THE NAME OF GOD. Optical Considerations for IOLs 1.Image magnification 2. Power selection 3.Piggy...
![Page 1: IN THE NAME OF GOD. Optical Considerations for IOLs 1.Image magnification 2. Power selection 3.Piggy back IOls 4.Power after cornal refractive surgery.](https://reader038.fdocuments.in/reader038/viewer/2022110116/551c358e550346ea388b46af/html5/thumbnails/1.jpg)
IN THE NAME OF GOD
![Page 2: IN THE NAME OF GOD. Optical Considerations for IOLs 1.Image magnification 2. Power selection 3.Piggy back IOls 4.Power after cornal refractive surgery.](https://reader038.fdocuments.in/reader038/viewer/2022110116/551c358e550346ea388b46af/html5/thumbnails/2.jpg)
Optical Considerations for IOLs
1.Image magnification
2. Power selection
3.Piggy back IOls
4.Power after cornal refractive
surgery
A number of factors must be taken into
consideration when selecting
IOLs,including :
![Page 3: IN THE NAME OF GOD. Optical Considerations for IOLs 1.Image magnification 2. Power selection 3.Piggy back IOls 4.Power after cornal refractive surgery.](https://reader038.fdocuments.in/reader038/viewer/2022110116/551c358e550346ea388b46af/html5/thumbnails/3.jpg)
Image Magnification
Theoretically , replacing a clear or cataractous crystalline lense with an artificial lens is optimal form of aphakic correction.The majority of aberrations and distortions produced by aphakic spectacles derive from their placement anterior to pupillary plane.These include: Image magnification,Ring scotoma,Peripheral distortion,jack-in-the box phenomen,decrease useful peripheral field.
![Page 4: IN THE NAME OF GOD. Optical Considerations for IOLs 1.Image magnification 2. Power selection 3.Piggy back IOls 4.Power after cornal refractive surgery.](https://reader038.fdocuments.in/reader038/viewer/2022110116/551c358e550346ea388b46af/html5/thumbnails/4.jpg)
Image magnification – as much as 20% -
35% - is the major disadvantage of aphakic
spectacles.Contact lens correction of
aphakia magnifies the image 7%-12% ,IOLs
magnify by 4% or less.Naturally ,a lens
located in the posterior chamber produces
less image magnification than a lens in the
anterior chamber.Unilateral pseudophakic
patients have better stereoacuity and less
aniseikonia than aphakic patients whose
vision is corrected with contact lens or
spectacle.
![Page 5: IN THE NAME OF GOD. Optical Considerations for IOLs 1.Image magnification 2. Power selection 3.Piggy back IOls 4.Power after cornal refractive surgery.](https://reader038.fdocuments.in/reader038/viewer/2022110116/551c358e550346ea388b46af/html5/thumbnails/5.jpg)
IOL Power Selection
Nontoric IOLs provide spherical
correction of the refractive error
without any cylindrical component to
this spherical correction should be
calculated for each eye as accurately
as possible.The optimal postoperative
refraction depends on the situation
and visual needs of the patient.
![Page 6: IN THE NAME OF GOD. Optical Considerations for IOLs 1.Image magnification 2. Power selection 3.Piggy back IOls 4.Power after cornal refractive surgery.](https://reader038.fdocuments.in/reader038/viewer/2022110116/551c358e550346ea388b46af/html5/thumbnails/6.jpg)
For example, if a unilateral cataract is
present and the fellow eye is more
than 1.5 – 2 D hyperopic , the surgeon
can consider making the operated eye
slightly hyperopic as well.This strategy
avoid inducing aniseikonia and
anisophoria.In most settings , however
it is desirable to produce emmetropia
or slight myopia.
![Page 7: IN THE NAME OF GOD. Optical Considerations for IOLs 1.Image magnification 2. Power selection 3.Piggy back IOls 4.Power after cornal refractive surgery.](https://reader038.fdocuments.in/reader038/viewer/2022110116/551c358e550346ea388b46af/html5/thumbnails/7.jpg)
Biometric Assumption In IOL Selection
1.Axial length :
a) A scan
ultrasonography
b) Partial coherence
interferometry
2.Kerotometry or corneal topography
3.Anterior chamber depth or optical
chamber depth(OCD)
![Page 8: IN THE NAME OF GOD. Optical Considerations for IOLs 1.Image magnification 2. Power selection 3.Piggy back IOls 4.Power after cornal refractive surgery.](https://reader038.fdocuments.in/reader038/viewer/2022110116/551c358e550346ea388b46af/html5/thumbnails/8.jpg)
Ascan do not actually measure axial
length.They measure the time required
for a sound pulse to travel through the
ocular media , reflect from the retina ,
and return through the media.Sound
moves faster through the crystalline
lens than through the cornea , aqueous
and vitreous.Even with in the lens itself
, the speed of sound can varry
according to the hardness of the
cataract.
![Page 9: IN THE NAME OF GOD. Optical Considerations for IOLs 1.Image magnification 2. Power selection 3.Piggy back IOls 4.Power after cornal refractive surgery.](https://reader038.fdocuments.in/reader038/viewer/2022110116/551c358e550346ea388b46af/html5/thumbnails/9.jpg)
Ascan tends to understimate the axial lens
of short eyes
and overstimate long eyes. 1 mm error in
the measurement of axial length result in a
refractive error of approximately 2.5 – 3 D .
The two primary Ascan techniques –
applanation (contact) and immersion – give
different readings.Applanation method may
give a shorter axial length measurement
perhaps due to corneal indentation.
![Page 10: IN THE NAME OF GOD. Optical Considerations for IOLs 1.Image magnification 2. Power selection 3.Piggy back IOls 4.Power after cornal refractive surgery.](https://reader038.fdocuments.in/reader038/viewer/2022110116/551c358e550346ea388b46af/html5/thumbnails/10.jpg)
Partial coherence interferometry
measures the time required for infrared
light to travel to the retina . This
technique does not require contact with
the cornea , so corneal compression
artifacts are eliminated . In addition the
patient must fixate a target thus , the
length measured is the path the light
takes to the fovea , the physiological axial
length .
![Page 11: IN THE NAME OF GOD. Optical Considerations for IOLs 1.Image magnification 2. Power selection 3.Piggy back IOls 4.Power after cornal refractive surgery.](https://reader038.fdocuments.in/reader038/viewer/2022110116/551c358e550346ea388b46af/html5/thumbnails/11.jpg)
However , the media must be clear
enough to allow fixation and light
transmission , in dense cataract ,
ultrasound axial length measurements
may still be necessary . Partial
coherence interferometry technique is
probably more accurate and
reproducible than ultrasound method ,
although some cases will still require
ultrasound biometry .
![Page 12: IN THE NAME OF GOD. Optical Considerations for IOLs 1.Image magnification 2. Power selection 3.Piggy back IOls 4.Power after cornal refractive surgery.](https://reader038.fdocuments.in/reader038/viewer/2022110116/551c358e550346ea388b46af/html5/thumbnails/12.jpg)
Keratometry
Keratometry or corneal topography
does not measure corneal power
directly , keratometry measures
only a small portion of central
cornea , viewing the cornea as a
convex mirror. Both front and back
corneal surfaces contribute to
corneal power and a keratometer
measures only the front surface.
![Page 13: IN THE NAME OF GOD. Optical Considerations for IOLs 1.Image magnification 2. Power selection 3.Piggy back IOls 4.Power after cornal refractive surgery.](https://reader038.fdocuments.in/reader038/viewer/2022110116/551c358e550346ea388b46af/html5/thumbnails/13.jpg)
Anterior Chamber Depth
Formulas based on geometrical
optics generally require a third
parameter , anterior chamber
depth or optical chamber depth
(OCD).
![Page 14: IN THE NAME OF GOD. Optical Considerations for IOLs 1.Image magnification 2. Power selection 3.Piggy back IOls 4.Power after cornal refractive surgery.](https://reader038.fdocuments.in/reader038/viewer/2022110116/551c358e550346ea388b46af/html5/thumbnails/14.jpg)
Power Prediction Formulas
The first type of IOL formula based on geometrical optics:PIOL = AL - acd
nvit
1 – [ K(acd) / naq ]
K
PIOL = Power of the IOL
K = Dioptric
AL = Axial length
acd = anterior chamber depth
nvit = index of refraction of the vitreaus
naq = index of refraction of the aqueous
![Page 15: IN THE NAME OF GOD. Optical Considerations for IOLs 1.Image magnification 2. Power selection 3.Piggy back IOls 4.Power after cornal refractive surgery.](https://reader038.fdocuments.in/reader038/viewer/2022110116/551c358e550346ea388b46af/html5/thumbnails/15.jpg)
In the 1980 , Sanders , Retzlaff and Kraff
took a different approach.formula turned
out to be a simple linear equation , which
was introduced as the SRK formula.
P = A – (2.5 * axial length in mm) – ( 0.9 * average keratometry in diopter )
A constant , which is provided by
manufacturers for their lens ,is specific to
each lens type .
Factors related to A constant: 1.lense
position in the eye
2.haptic
angulation
3.lens
shape
![Page 16: IN THE NAME OF GOD. Optical Considerations for IOLs 1.Image magnification 2. Power selection 3.Piggy back IOls 4.Power after cornal refractive surgery.](https://reader038.fdocuments.in/reader038/viewer/2022110116/551c358e550346ea388b46af/html5/thumbnails/16.jpg)
This formula was less accurate for long or short eyes. The power was too low in short eyes and too high in longer eyes . the formula was later modified as the SRKⅡ formula : Axial length (AL) Modified A
constant
20 > AL A = A +
3
21 > AL ≥ 20 A = A +
2
22 > AL ≥ 21 A = A + 1
24.5> AL ≥ 22 A = A (No
change)
AL ≥ 24.5 A = A −
0.5
![Page 17: IN THE NAME OF GOD. Optical Considerations for IOLs 1.Image magnification 2. Power selection 3.Piggy back IOls 4.Power after cornal refractive surgery.](https://reader038.fdocuments.in/reader038/viewer/2022110116/551c358e550346ea388b46af/html5/thumbnails/17.jpg)
Second generation formulas added
modifications based on AL for short or
long.
Third and fourth generation formulas
added modifications for other factors
such as corneal curvature , ACD , and
so on .
These formulas are too complex for
convenient hand calculation.
![Page 18: IN THE NAME OF GOD. Optical Considerations for IOLs 1.Image magnification 2. Power selection 3.Piggy back IOls 4.Power after cornal refractive surgery.](https://reader038.fdocuments.in/reader038/viewer/2022110116/551c358e550346ea388b46af/html5/thumbnails/18.jpg)
In the normal range of axial length (22
– 24.5 mm) almost all formulas function
does not have discrepancies.
– But in medium long eye (24.5 – 26
mm) ,the Holladay 1 formula is the
most accurate.
![Page 19: IN THE NAME OF GOD. Optical Considerations for IOLs 1.Image magnification 2. Power selection 3.Piggy back IOls 4.Power after cornal refractive surgery.](https://reader038.fdocuments.in/reader038/viewer/2022110116/551c358e550346ea388b46af/html5/thumbnails/19.jpg)
– And is very long eyes ( > 26 mm) , the
SRK/T is more accurate.
– In short eyes ( < 22 mm ) the Hoffer Q
formula is more accurate.
– Holladay 2 formula equql the Hoffer Q
in short eyes but is not as accurate as
the Holladay 1 or Hoffer Q in average
and medium long eyes.
![Page 20: IN THE NAME OF GOD. Optical Considerations for IOLs 1.Image magnification 2. Power selection 3.Piggy back IOls 4.Power after cornal refractive surgery.](https://reader038.fdocuments.in/reader038/viewer/2022110116/551c358e550346ea388b46af/html5/thumbnails/20.jpg)