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Customized Corneal Shaping
Wavefront- Guided Laser Surgery
| Many patients do
not realize that the eye is an imperfect optical system. As light
rays from distant objects pass through the individual optical
components of the eye, they are subject to being distorted by
the imperfections found in the cornea and the crystalline lens. |
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The distortions that are created
are referred to as "aberrations." The vast majority--90%
or more--of these aberrations create common refractive errors,
such as nearsightedness, farsightedness and astigmatism, which
can be treated by optical devices, like glasses and contact lenses,
or by Laser Vision Correction, using the conventional methods
of LASIK, PRK or LASEK. The remaining 10% of optical aberrations
create images which are altered by chromatic aberration, spherical
aberration, diffraction, curvature of field, coma, trefoils and
quadrifoils--collectively known as "higher order aberrations."
These higher order aberrations only occur in a visually significant
manner in 10% to 15% of the general population. When they do
occur, they are entirely unique to a particular patient--much
like a fingerprint. For these patients, the use of a wavefront-guided
laser technique to create a completely customized reshaping of
the surface of the cornea may be the best treatment option.
| To
achieve a customized corneal shaping, it will require measuring
the higher order optical aberrations using a wavefront analysis
system called an aberrometer and then digitally interfacing it
with a laser, using high speed computerized control to direct
the delivery of a very tiny beam of laser energy across the cornea. |
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The
LADARWave™ CUSTOMCORNEA® Wavefront System lets the surgeon see refractive aberrations
in clear and accurate, rotating 3-D images. How does LADARWave™
do this? First, the LADARWave™ sends low-energy laser light
into the eye. The light reflects off the retina and travels back
through the lens and cornea as an outgoing wavefront. |
This wavefront is captured
by the LADARWave™, which then measures it to determine both
higher and lower order aberrations of the entire optical system.
The aberrations are then displayed on-screen in precise 3-D images.
To then create a customized corneal ablation from the aberrometer
measurements we digitally interface that data with the LADARVision®
Excimer Laser System. The LADARVision® System incorporates
the use of the LADARTracker™, a high-speed computerized
eye tracking method that helps the surgeon enhance your treatment
by providing percise registration of the laser beam to create
a customized ablation surface.
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Since your eyes
are continually making very fine jumping movements - called "saccadic"
movements which are beyond your control, no matter how hard you
concentrate. LADARVision® System assists the surgeon
by scanning the eye 4,000 times per second. Then, using computer
control, it makes micro-adjustments at speeds of 100 times per
second to reposition the pinpoint laser beam between pulses of
light, tracking even the smallest and quickest movements of your
eye during treatment. |
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addition, the LADARVision® System uses an ultra-small beam
of cool laser light - one that's less than a millimeter wide,
a spot much smaller than the thickness of a single human hair.
Using high-speed computer control, the LADARVision® System
moves this tiny beam of light across the surface of the cornea
very rapidly in a tiny, non-sequential and overlapping pattern.
This helps the surgeon deliver a smooth customized corneal shape
to provide you quick visual recovery and individualized correction
of your prescription. |
| LADARVision®
is a registered trademark of Summit Autonomous, Inc. and LADARTracker™
is a trademark of Summit Autonomous, Inc. Used with permission.
All rights reserved. |
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