Transcript Femtosecond-assisted Astigmatic Keratotomy

Femtosecond-assisted
Astigmatic
Keratotomy
MOHAMMAD RABEI, H. MD.
IMAM HOSSEIN MEDICAL CENTER
SHAHID BEHESHTI UNIVERSITY
The speaker have no financial interest on this
presentation
www.iranophthalex.com
Introduction
• Naturally occurring and postsurgical astigmatism cause
reduced uncorrected visual acuity (UCVA),
• Corneal astigmatism between 0.25 and 1.25D occurs in up to
64% and >1.5 D in 22%of patients undergoing cataract surgery.
• The average magnitude of astigmatism after PK, is 4 - 6 D
Introduction
• 8% to 20% of PK patients requiring surgical intervention.
• Mild degrees of astigmatism may be manage with:
• Spectacles
• Soft toric CL
• RGP
Introduction
• Higher degrees of astigmatism may require surgical management.
• In phakic patients,
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Toric IOL. Other
Relaxing incisions,
wedge resection or compression sutures in PK
Lasik
PRK
Relaxing incisions
• Relaxing incision is one of the most commonly performed
procedures for astigmatic reduction as it can correct high
levels of astigmatism with fast visual recovery. Incisions can
be:
• Limbal,
• Arcuate,
• Transverse
• Free hand or with a mechanical keratome.
Arcuate keratotomy remains the most popular procedure as it has
better predictability.
Relaxing incisions
• Complications include:
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Microperforation,
Wound gape,
Infection,
Epithelial inclusion
Femtosecond laser technology has been used to perform
astigmatic keratotomy with promising results.
Femtosecond laser-assisted incisions (FSL-assisted AK)have the
advantage of no skip lesions, minimized risk of perforation, and
increased precision in terms of incision depth, length, angulation,
and centration.
Femtosecond Astigmatic keratotomy
• Femtosecond laser systems:
• IntraLase FS (Advanced Medical Optics, Santa Ana, CA),
• Technolas Perfect Vision 520 FS (Technolas Perfect Vision,
Munich, Germany),
• VisuMax Femtosecond System (Carl Zeiss Meditec, Jena,
Germany),
• Femto LDV (Ziemer Group, Port, Switzerland).
• The IntraLase and Femto LDV systems are enabled with
software for astigmatic keratotomy in the United States,
• On the IntraLase FS 30 kHz system, incision depth is restricted
to a maximum of 400 mm,
• The 60 and 150 kHz systems include a keratoplasty mode with
greater incision depth flexibility.
• treatment parameters:
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The energy settings,
Horizontal overlap,
Layer separation,
Spot separation,
Depth in glass values
The side cut angle (angle of incision to surface of cornea) have
been set at 75 or 90 degrees
• The parameters that are individualized to the patient are
posterior depth in micron (intended depth of incision or
percent depth of corneal thickness at incision site), diameter
in mm (optical zone diameter), cut position (axis where center
of incision is to be placed), and cut angle (angular length of
incision in degrees).
Surgical Technique
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Mark the limbus with gentian violet at the slit lamp.
Prepped and anesthetized topically similar
Mark the zone diameter
Mark the planned locations of incisions
Corneal thickness measurment
AC-OCT can be used in the preoperative surgical planning
Surgical Technique
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Treatment parameters are entered,
The suction ring followed by the applanation cone
Centering on the pupil.
The treatment screen shows the locations of the incisions and
the suction ring can be used to rotate the eye to ensure
proper axis alignment.
• Release of the suction ring and applanation cone, the incisions
are immediately opened with a Sinskey hook.
• Postoperative care includes use of topical antibiotics until
epithelization is achieved and topical steroids for several
weeks.
Overlay of the femtosecond
arcuate, phaco, and
sideport incisions.
Optical coherence tomography
of the cornea in the
area of the arcuate incision
confirms its depth.
LASER SETTINGS (30-KHZ) IN
FEMTOSECOND-ASSISTED ANTERIOR KERATOTOMY
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Posterior depth : 420 μm
Anterior sidecut diameter : 6.0 mm
Anterior sidecut energy : 2.3 mJ
Anterior sidecut 1 position : 3°
Anterior sidecut 1 angle : 80°
Anterior sidecut 2 position : 183°
Anterior sidecut 2 angle : 80°
Anterior sidecut angle : 80°
Anterior sidecut spot separation : 5 μm
Anterior sidecut layer separation : 5 μm
Depth in contact glass : 50 μm
Articles
• The FS laser has been used to perform AK with promising
results.
• In a German study, Kiraly et al described the use of the FS
laser to perform arcuate incisions in 10 postkeratoplasty
patients.
• BCVA improved in 8 patients.
• The average corneal astigmatism was reduced by 3 D and
average refractive astigmatism by
4 D.
Articles
• Harissi-Dagher and Azar were the first in the US to report
their results of femtosecond for postkeratoplasty astigmatism
in 2 patients.
• BCVA improved from 20/100 to 20/30 and from 20/200 to
20/60 and astigmatism reduced by 3.6 D (from 8.5 to 4.9 D)
and 2.7 D (from 7.0 to 4.3 D).
Articles
• Kymionis et al similarly reported a beneficial result in their
patient with postkeratoplasty irregular astigmatism and
showed improvement of BCVA from 20/50 to 20/32 and
reduction of manifest cylinder from 4.0 to 0.5 D.
Articles
• Nubile et al treated 12 postkeratoplasty eyes (including 2 eyes
with DALK) with incision depth of 90% and arc length of 40 to
80 degrees within 1mm of graft-host junction.
• Mean logarithm of the minimum angle of resolution (logMAR)
of BCVA improved from 0.25±0.16 to 0.11±0.12 at 6 months
and UCVA improved from 1.05±0.18 to 0.55±0.34.
• Mean astigmatism reduced from 7.16±3.07 to 2.23±1.55
diopters at 1 month.
Articles
• In a large series of 37 eyes with >5 D of regular astigmatism
after keratoplasty with at least 6 months follow-up,
• Kumar et al showed improvement of UCVA (logMAR
1.08±0.34 to 0.80±0.42), BCVA (logMAR 0.45±0.27 to
0.37±0.27), reduction of absolute cylindrical power (7.46±2.70
to 4.77±3.29), and reduction of astigmatism vector (2.52×122
degrees±5.4 to 0.41×126±4.0 degrees).
Articles
• In a retrospective analysis, Bahar et al described results of 20
eyes that underwent manual AK using a diamond blade and 20
eyes that underwent FS keratotomy.
• Both groups had improvement of UCVA and BCVA, however,
only the FS group achieved a statistical significant
improvement.
• Compared with the manual technique, use of FS showed a
trend toward greater FS-assisted AK improvement of visual
acuity and defocus equivalent (which correlates better with
UCVA than spherical equivalent) and greater reduction of
absolute cylinder. Although manual keratotomy resulted in
shift of astigmatism axis, FS brought the mean astigmatic
vector closer to neutral.
Articles
• In the only randomized study to date, Hoffart et al compared
mechanized AK with FS astigmatic keratotomy.
• Twenty eyes were randomized to either mechanized treatment using
the Hanna keratotome or FS using the Femtec FSL with incision
depth set at 75% depth and other treatment parameters based on
the Hanna nomogram.
• The FS group had a higher reduction of cylinder power ( –
55.4±20.7%, from mean preoperative refractive cylinder of 8.6±3.0
to 3.9±2.4 D) compared with mechanized group ( – 29.7±30.0%,
from 6.7±2.1 to 4.7±2.4 D).
• Both mechanized and laser groups suffer from undercorrection,
however, there was a tendency toward greater axis misalignment
with the keratotome.
• One microperforation and 1 off-center incision were noted in the
keratotome group.
Articles
• Abbey et al reported their results in a patient with naturally
occurring astigmatism of 5.25 D in both eyes.
• Treatment parameter was based on the modified Lindstrom
nomogram for naturally occurring astigmatism and guided by
topographic cylinder axis.
• Significant improvement of UCVA (counting fingers to 20/50,
20/200 to 20/30) and reduction of manifest cylinder power
(2.5 D, 3.0 D) were seen at 1 year.
Complications
• In Kumar et al series of 37 eyes, 8% of eyes experienced
rejection, all of which resolved with topical steroids.
• Overcorrection occurred initially in 24% of eyes, which
required resuturing of the astigmatic keratotomy incisions.
• After adjusting the treatment parameters in the subsequent
eyes, overcorrection decreased to 11%.
• Two thirds of the eyes that experienced overcorrection were
keratoconic, suggesting the ecstatic eyes may be at increased
risk of overcorrection.
• In Nubile et al series of 12 eyes with incision depth of 90%, 2
microperforations occurred while the incision was opened
with a blunt spatula after creation with the femtosecond laser.
• However, it is the authors’ belief that the perforations were a
result of mechanical stress on the thin deep stromal bed
under the incision exerted by the spatula rather than the
occurrence of primary full-thickness femtosecond laser cut.
Conclusions
• High levels of astigmatism, either naturally occurring or more
commonly post surgical, may require surgical interventions, of
which AK remains the mainstay of treatment.
• Compared with traditional techniques of AK, FS assisted AK
has shown to be efficacious and safe with greater precision
and predictability.
• Larger studies to formulate nomograms specific for FS AK are
needed.
• Future developments in FS laser technology may allow
creation of subepithelial stromal incisions with potential for
greater safety.
Conclusion
• Lens material and design is essential for long-term quality of
vision
• Predicting future sometimes difficult
• The lens we use today, although very efficient, will be antics in
a few months!
Thank you
Thank you