| Release: Tuesday,
December 21, 2004
Contact: John Ciccone, 703-591-2220
ASCRS Director of Communications
LASIK
Terms “Wavefront-guided” and “Wavefront-optimized”
Cause Confusion, Eye Surgery Education Council Issues Clarification
Fairfax, VA -- The Eye Surgery Education Council of the American
Society of Cataract and Refractive Surgery Foundation today
issued a clarification on the use of the terms “wavefront-guided,”
and “wavefront-optimized” in connection with laser-based
procedures (LASIK, PRK, etc.) and implantable lenses used
for vision correction purposes. This clarification is issued
to help patients make better-informed decisions regarding
their eye care.
Wavefront-guided vision correction procedures
customize laser treatments based on the individual characteristics
of the eye that is being corrected. The term “wavefront-optimized”
refers to laser treatment software that has been designed
with certain corrections pre-programmed, although a true and
customized wavefront plan is not employed.
The advent of wavefront technology enables
ophthalmologists to measure and treat the defects of the eye’s
visual system that extend beyond what can be corrected by
the basic prescription for eyeglasses or contact lenses. In
addition, wavefront concepts are now being used in the design
of artificial lenses that are implanted into the eye as part
of treating cataracts and other vision problems.
Conventional
vs. Wavefront
Conventional diagnostic systems and the treatment software
that operates the lasers, rely upon the same kind of data
that would be gathered during the physical examinations and
ophthalmic tests used to make prescription eye glasses and
contact lenses.
By contrast, the most commonly used wavefront
technology passes light into the eye, reflects it off the
inside of the back of the eye, and then measures how this
light is distorted as it exits. All of the light rays that
exit the eye form the wavefront, which is representative of
the eye’s focusing characteristics. This reflected light
or wavefront is analyzed by computer software for distortions
caused by the eye’s optical imperfections. For laser-based
vision correction procedures, that information is then used
to generate a customized treatment plan that guides the laser
as it treats the individual eye in question.
Wavefront-guided
vs. Wavefront-optimized
“Spherical aberration” is a common optical imperfection
that is treatable by wavefront technology. It occurs when
the peripheral portion of a lens system focuses light to a
different point then does the central part of the lens system.
A patient with excessive spherical aberrations may have problems
with glare and lack of sharpness of vision, particularly under
dim light conditions. This problem is well known in the optical
industry, and fine cameras, movie projectors, telescopes,
etc., have been designed to overcome the problem.
Since spherical aberration is a common problem,
some new laser programs have a built in software correction
for it. Similarly, new artificial lenses (used for cataract
and other vision correction procedures) are designed to correct
for spherical aberration. Because the design or treatment
concept has been influenced by wavefront methods, it has been
referred to as wavefront-optimized, although a true and customized
wavefront plan is not employed.
Vision correction surgery (LASIK, LASEK, PRK, etc.) to correct
nearsightedness and farsightedness with or without astigmatism
has become widely accepted. Approximately 655,000 people are
expected to have laser-based and lens-based procedures in
2004. Customized, wavefront-guided laser procedures are more
expensive than traditional ones, and differ from wavefront-optimized
procedures. Patients considering laser-based and lens-based
vision correction can benefit from understanding those differences.
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