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Intralase
A recently
developed technology called IntraLase appears to
enhance the safety of LASIK vision correction by
using laser energy to replace the microkeratome
cutting tool traditionally used to create a thin
flap in the clear front covering of the eye
(cornea).
In LASIK, the flap is lifted, and energy from a
different laser (excimer laser) is applied to
reshape the cornea to achieve sharper focus. The
flap then is replaced to serve as a type of
natural "bandage" for healing.
While LASIK complications are relatively rare,
they are sometimes associated with the
oscillating blade used with traditional
microkeratomes. Metal blades might create uneven
flap edges, resulting in abnormal corneal
surfaces and vision defects such as irregular
astigmatism.
Metal blades also have been associated with
formation of incomplete or improperly formed
"buttonhole" flaps that can cause
vision-threatening scars. Many eye surgeons
report these types of complications are far less
likely with laser-created flaps.
As a replacement for microkeratomes, IntraLase
creates flaps through infrared laser energy that
inserts a precise pattern of tiny, overlapping
spaces just below the corneal surface. The
IntraLase laser operates at extremely high
speeds (pulses of one quadrillionth of a
second), allowing tissue to be targeted and
divided at a molecular level without heat or
impact to surrounding tissue.
Studies indicate that IntraLase is associated
with significantly fewer overall LASIK
complication rates. Nevertheless, eye surgeons
recently have reported one postoperative
complication of unusual light sensitivity such
as photophobia that appears unique to the use of
the IntraLase in LASIK. Published reports
mention this complication has occurred in as few
as 1% or as many as 20% of patients undergoing
LASIK with IntraLase, according to an article in
Review of Ophthalmology, October 2004. (The 20%
figure was reported by one surgeon, whose
IntraLase laser was replaced by the company
because compared with other surgeons'
experiences, the figure was abnormally high,
according to the article.)
However, many eye surgeons report that the
photophobia complication is temporary and can be
resolved with steroid treatment (eye drops)
lasting a few weeks. Eye surgeons favoring
IntraLase emphasize that light sensitivity is a
transient side effect that soon resolves, unlike
more serious and potentially permanent
vision-threatening complications that might
result from defective flaps.
However, the tradeout for potentially increased
safety with the use of IntraLase is accompanying
additional LASIK procedure costs of about $300
per eye, according to Review of Ophthalmology.
Usually patients are given the choice of whether
they prefer LASIK flaps to be cut with a blade
or with the more expensive laser technology, but
some surgeons may prefer to use only IntraLase
and may bundle that cost into their overall
LASIK fee.
How IntraLase Works
The LASIK surgeon uses computer software to
guide the IntraLase laser beam, which applies a
series of tiny (3-micron-diameter) bubbles
within the central layer of the cornea. The
resulting corneal flap is created at a precise
depth and diameter pre-determined by the
surgeon. As occurs with a mechanical
microkeratome, a small section of tissue at one
edge of the flap is left uncut, forming a hinge
that allows the surgeon to fold back the flap so
that the cornea can be accessed and reshaped for
vision correction.
Comparing IntraLase with Traditional LASIK:
The Difference Is in the Corneal Flap
With IntraLase, people with thin corneas who
once were unsuitable for LASIK may now be
candidates. Most people have corneas that are
between 500 and 600 microns thick, and most
microkeratomes cut flaps ranging between 100 and
200 microns thick. Because of its precision, the
IntraLase appears capable of more reliably and
consistently producing corneal flaps as thin as
100 microns. This means surgeons now have more
options to perform LASIK in people with thinner
and flatter corneas.
IntraLase in some cases may present fewer LASIK
complications. The IntraLase laser flap follows
the curvature of the cornea and produces a flap
with easily managed vertical edges, unlike
thinner edges associated with microkeratomes
that might tear more easily. This difference in
flap structure may reduce the chance of cells
growing underneath and pushing up the flap
(epithelial ingrowth) to create an irregular
corneal surface with accompanying vision
defects. Other complications such as
"buttonholed" or partially formed flaps also
might be avoided with the IntraLase. Because of
its sterile system, IntraLase also may be
associated with decreased chance of eye
infection or contamination.
The IntraLase laser uses a low vacuum suction
ring to hold the eye, compared with a higher
vacuum used for microkeratomes. However, the
time needed (up to a minute) for the suction
ring to remain on the eye with the IntraLase may
slightly increase chances of bleeding
(hemorrhage). This type of temporary eye
bleeding is not vision-threatening, and it
resolves on its own.
People who have had previous corneal surgery
often are candidates for LASIK with IntraLase.
Many lasik surgeons now use laser-created flaps
for most people who have undergone previous
corneal surgeries such as radial keratotomy (RK),
a now obsolete vision correction surgery that
involved making cuts into the cornea.
After the IntraLase Procedure
Recovery is similar to that of traditional LASIK.
Following surgery, some patients (as with
traditional LASIK) have reported feeling eye
irritation for up to two days.
While some studies indicate that more people
achieve 20/20 or better vision with an IntraLase
flap than with a microkeratome-made flap, other
study results are inconclusive or show superior
visual outcomes when microkeratomes are used
(Review of Ophthalmology). Study results have
shown that LASIK with IntraLase may produce a
lower incidence of post-operative dry eye. Fewer
enhancement ("touch-up") procedures appear to be
required when LASIK is performed with IntraLase.
Laser-made flaps appear to adhere more tightly to the corneal bed at the
end of the procedure and demonstrate a more
aggressive healing response at the edges
compared with microkeratome-made flaps. Some
microkeratome flaps, instead of adhering to the
cornea, can still be lifted easily many years
after surgery.
Summary
The "all-laser" LASIK approach, using the
IntraLase laser and a standard excimer laser,
may avoid some microkeratome-related
complications such as corneal irregularities and
scarring, which can degrade vision. However,
plan on significantly increased procedure costs
if IntraLase is used with LASIK. Also, IntraLase
has been associated with a complication that
causes light sensitivity, although eye surgeons
report that steroid eye drops will resolve the
condition. More surgeon experience with
computer-guided laser creation of LASIK flaps
and further analysis of their results should
confirm whether IntraLase is a significant
advance
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