About Lasik

Common Vision Problems

Vision Correction Techniques
Excimer Laser Treatment -- Lasik, IntraLasik, PRK, and LASEK
Corneal Rings (Intacs)
Holmium Laser (LTK) and Conductive Keratoplasty (CK)
Implantable Contact Lenses
Radial Keratotomy (RK)
Astigmatic Keratotomy (AK)
Automated Lamellar Keratoplasty (ALK) 

Excimer Laser Treatment -- Lasik, IntraLasik, PRK, and LASEK
The excimer laser makes pulses of invisible ultraviolet light. Each pulse of light removes a microscopic layer from the front surface of the cornea, changing the curvature of the cornea ever so slightly. 

To correct nearsightedness, the curvature of the cornea must be decreased -- the cornea must be made flatter. To correct farsightedness, the curvature of the central cornea must be increased. To correct astigmatism, the curvature must be altered in one specific direction.
  
Only a very small amount of tissue is removed, usually less than the thickness of a hair. Low amounts of nearsightedness, farsightedness, or astigmatisim will require smaller amounts of tissue removal, and larger corrections will require greater amounts. The total treatment usually takes less than one minute of actual laser time.
  
A computer running specialized software determines the exact pattern of pulses needed to remove the right amount of corneal tissue. The computer also directs the actual operation of the laser system.
  
There are several variations of laser vision correction, each of which has advantages and disadvantages. We are happy to treat you with the method of your choosing. We will discuss your specific situation after we have taken your personal history and performed measurements and calculations. 

Each of these variations involves using the identical laser to correct the vision. The difference is in the type of flap that is made, prior to using the excimer laser.

1. Lasik (laser in-situ keratomileusis). This is our most common type of treatment. A flap is made using an instrument known as a microkeratome. The laser energy is then applied under the flap. Lasik allows for the most rapid visual recovery. If you desire, both eyes can be treated at the same time.

2. IntraLasik (all-laser Lasik). The flap is created with the Intralase laser. The vision is then corrected using the excimer laser. The visual recovery is slower than with standard Lasik, though both eyes can be treated at the same time.

3. PRK (photorefractive keratectomy). No flap is made. The soft material on the surface of the eye is removed with a brush, or with an alcohol solution, and the laser energy is then applied to reshape the eye. A contact lens is worn for 5-7 days while the soft material regenerates. Only one eye is usually treated at a time; the other eye is usually treated in 2-4 weeks.

4. LASEK (laser epithelial keratomileusis). For patients with relatively thin corneas, large pupils, very high corrections (or a combination of these), LASEK may allow for the largest treatment size, which may be important in diminishing glare and halos. A very thin flap is made involving only the soft material that coats the front surface of the eye. The laser energy is then applied under the flap. This ultra-thin flap heals in 5-7 days, during which time the vision is blurry. Only one eye is usually treated at a time; the other eye is usually treated in 2-4 weeks.

Results
The vast majority of patients no longer need glasses or contact lenses for distance vision after excimer laser treatment. Almost all patients who have excimer laser treatment see better without glasses after the procedure.

After the initial treatment, 90% of patients will have 20/25 or better vision without glasses, and 99% will have 20/40 or better vision without glasses. 20/40 vision is good enough to pass the driver's vision test without glasses.
  
For patients with mild nearsightedness, farsightedness, or astigmatism, the results are even better. Patients requiring higher amounts of correction will have less accurate results. The general rule is: more accurate results will be obtained in people who require less treatment.
  
If needed, the results can be further improved through a repeat excimer laser procedure. There is no additional fee to have a "touch-up" procedure. We perform "re-treatments" in 7% of our patients.
  
These results are very impressive, but it is impossible to tell you exactly what your results will be. No guarantees can be made about the outcome of excimer laser surgery in any individual case, because each person responds in a slightly different way. If you will only be satisfied with "perfect" 20/20 vision without glasses after excimer laser surgery, then please do not have the surgery. Avoid any doctor or clinic that promises you a specific result, because that simply is not possible.
  
The quality of vision after excimer laser treatment is usually superior to vision with contact lenses or glasses. Patients generally have less glare than they had with contact lenses, and of course the inconvenience and discomfort of contact lenses is eliminated. Side vision isn't blocked, as it is with glasses, and there is no longer the problem of dirty, wet or scratched glasses. 

Complications
Excimer laser treatment is subject to complications, but the complication rate is very low. Complications are rare, but will be more common in patients with high amounts of nearsightedness, farsightedness, or astigmatism, because these patients require larger amounts of treatment. Most complications can be partially or totally corrected through a repeat laser procedure.
  
By far the most common complication of excimer laser treatment is under-correction or over-correction. These complications occur because the patient experiences an abnormal healing response, or because slightly too much or too little tissue is removed from the surface of the cornea. Further laser treatment, known as an "enhancement" or a "touch-up", can then be used, usually resulting in excellent vision without glasses or contact lenses.

Under-corrections and over-corrections are the main reason that all patients do not have perfect uncorrected vision after the initial excimer laser treatment.

About 2% of excimer laser patients will experience optical aberrations, including glare, halos at night, or ghost images. This occurs if light is entering from around the edge of the treatment area. Some people have pupils that dilate more than the treatment area. Use of the Alcon LadarVision laser, with its eye tracker and substantially larger treatment areas, has dramatically improved this problem.
  
Complications affecting the health of the eye are extremely rare, but are possible. During the early healing phase, the eye is susceptible to infection. You will be asked to follow certain instructions, including using antibiotic eye drops. Carefully following these instructions will decrease the infection rate to far below 1%. Even if an infection does occur, use of antibiotic eye drops will almost always control the infection.
  
Steroid eye drops are very important after excimer laser treatment, because they are used to control the healing response. However, if used improperly for too long, these drops can damage the eye by causing cataracts or glaucoma. It is very important to go to all scheduled follow-up appointments, especially if you are still taking steroid eye drops.
  
About 1% of excimer laser patients experience some loss of best-corrected vision, which is the best vision possible when using glasses or contact lenses. About 2% of patients will experience an improvement in the best corrected vision. Of course, you probably will no longer use glasses or contact lenses for distance vision after the surgery, so you may not even be aware that your best possible vision is different.
  
Some professionals, such as commercial and military airplane pilots, care very much about their best-corrected vision. These pilots must have best-corrected vision of 20/20 in both eyes. If the best-corrected vision is anything but a perfect 20/20, the pilot's license will be lost.
 
A mild loss of best-corrected visual acuity might not even be noticed or might be just a minor annoyance. A severe loss of best-corrected visual acuity would be noticed by almost every patient and might make it hard to work in occupations that require fine vision. Severe losses of best- corrected visual acuity are exceedingly rare.
  
Either an irregularity or a haziness in the corneal surface could cause a decrease in best-corrected vision. Short-term irregularities during the initial months of healing may occur in up to 5% of cases and almost always resolve as the healing progresses.

Re-treatments
Not all patients get a satisfactory result from excimer laser treatment. This may be due to under-correction, over- correction, or one of the complications described above. The most common problem is an abnormal healing response, resulting in under-correction or over-correction.
  
Patients who experience under-correction or over-correction can usually undergo a second procedure to obtain a better correction. In most cases, a significant improvement in the vision will occur, but it is important to realize that this, too, is a laser procedure, and therefore has the same risks that the first laser procedure had. It is possible but extremely rare that your vision can be worse after a "touch-up" procedure. Complications can occur, even if no complications occurred during your first procedure.
  
If your vision is quite good after your excimer laser treatment, but not perfect, you should consider carefully whether you want to have a "touch-up" procedure. If your vision is really not satisfactory, then a "touch-up" procedure is a good idea. Overall, 7% of our patients undergo "touch-up" procedures, though this will vary significantly from surgeon to surgeon.  

Which laser treatment is best for me -- Lasik, IntraLasik, PRK, or LASEK?
The original form of excimer laser treatment is known as PRK (for "photo-refractive keratectomy"). In PRK, the thin layer of soft tissue coating the outside of the eye is removed and the laser energy is applied to the superficial tissue underneath. In LASEK--with an "E"--a thin flap is made using the soft tissue on the surface, and the laser is then applied to the superficial tissue underneath. LASEK is therefore very similar to PRK.

The most popular variation of excimer laser treatment is called Lasik (for "laser in-situ keratomileusis"). In this technique, the laser applications are made deeper within the cornea, rather than near the corneal surface. This is accomplished by creating a flap in the front 20-30% of the cornea and then applying the laser treatment to the tissue beneath the flap. This flap can be made with a special laser, in which case the procedure is known as IntraLasik.
    
When the laser treatment is applied to the tissue deep within the cornea instead of to the surface, the healing response is lessened, which greatly speeds up the vision recovery period. Patients usually see quite well the next day after Lasik or IntraLasik, as opposed to waiting several weeks with PRK or LASEK..
  
Most of the pain fibers in the cornea are in the surface portion. Because this portion of the cornea is removed in PRK but not in Lasik (it is part of the flap, which is folded back into place after the laser energy is applied), there is much less discomfort after Lasik.
  
Lasik requires an additional surgical step, which is the creation of the flap. The flap is created with an instrument known as a keratome, which cuts and then folds back a thin layer of the front of the cornea. Creation of the flap takes about 15 seconds and is virtually painless. When the flap is made with the laser (IntraLasik), it takes about two minutes. The return of vision is slightly slower when IntraLasik is used.
  
Complications with the flap occur about 1% of the time. Almost all of the complications are mild and can be easily treated, often by lifting or repositioning the flap. The most serious complication would involve improper creation of the flap; when this occurs, the patient is asked to wait three months, and then can return for a repeat treatment.
  
We perform all four variations of laser vision correction -- Lasik, IntraLasik, PRK, and LASEK. During your initial consultation, we will talk to you, obtain measurements of your eyes, and determine which procedure is the best for your specific situation. Lasik is usually our procedure of choice.  Patients greatly prefer the Lasik procedure in terms of rapid vision recovery and decreased pain. The vision recovery with Lasik is so rapid that most of our patients return to work the very next day.

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Corneal Rings (Intacs)
Corneal rings (also known as Intacs, intrastromal corneal rings, or ICR) are small pieces of plastic that are embedded in the edge of the cornea. The arc-shaped rings make the central portion of the cornea flatter, decreasing the amount of nearsightedness. Currently, corneal rings are available to treat only low amounts of nearsightedness, and treatments for astigmatism and farsightedness are still being developed.
    
By using rings of varying thickness, different amounts of nearsightedness can be corrected. However, corneal rings are made in only a very limited number of thicknesses, so they can only be used for very specific corrections. If the visual result is not ideal, or if the eye changes in the future, the corneal rings can be removed, but there might not be another ring that is appropriate to correct the vision.  In contrast, excimer laser treatments are available for a wide range of focusing errors and are easily adjustable with retreatments.

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Holmium Laser (LTK) and Conductive Keratoplasty (CK)
Farsightedness is the result of too little curvature of the cornea. In order to correct farsightedness, the central cornea must be made steeper. With the excimer laser, the central cornea is made steeper by removing tissue in a doughnut-shaped pattern from the peripheral cornea.
   
Another type of laser, known as the holmium laser (manufactured by Sunrise Technologies), is also currently available to treat farsightedness. The holmium laser produces infrared light, which causes tissue to constrict, and is therefore very different from the ultraviolet excimer laser. The excimer laser reshapes the cornea by removing tissue; the holmium laser reshapes the cornea by causing tissue to constrict.
   
To treat farsightedness, the holmium laser is applied to the periphery of the cornea in a pattern of multiple spots. As this peripheral tissue constricts, the central cornea steepens, resulting in a decrease in farsightedness. This technique, known as LTK (laser thermal keratoplasty), is effective in reducing lower amounts of farsightedness. 
   
However, the results of LTK are frequently not permanent; commonly, a very substantial loss of effect will occur over the first two years, and the procedure will need to be repeated. For this reason, we will only very rarely recommend this technique. 
   
A similar technique, known as or radio frequency keratoplasty (RFK) or conductive keratoplasty (CK), uses radio frequency energy to constrict the tissue. CK has been approved by the FDA to treat low amounts of farsightedness (hyperopia), though astigmatism cannot yet be treated.

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Implantable Contact Lenses
Intraocular implants, also known as implantable contact lenses or phakic intraocular lenses, are tiny plastic lenses inserted inside the eye, behind the cornea. These lenses bend the incoming light rays and can correct nearsightedness, farsightedness, and astigmatism.
   
Intraocular implants have been used successfully for many years to the replace the crystalline lens when it turns cloudy -- forming a cataract -- and has to be removed.  When used to treat nearsightedness, farsightedness, or astigmatism, intraocular implants are placed in front of the crystalline lens, and the crystalline lens is left inside the eye. Some implants are placed in front of the iris (the colored part of the eye) and are known as anterior chamber implants. Others are placed behind the iris and are referred to as posterior chamber implants.
   
The long-term safety of intraocular implants for nearsightedness, farsightedness, and astigmatism has not been determined and extensive tests are currently underway.  Because they are placed near critical structures inside the eye, there is concern that they may cause cataracts or glaucoma. If determined to be safe, intraocular implants may be used to treat people with too much nearsightedness or too much farsightedness for the Lasik technique. 

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Radial Keratotomy (RK)
Radial keratotomy was the first surgical procedure to be widely used to correct nearsightedness and, contrary to most people's understanding, does not involve the use of a laser. RK was invented in the Soviet Union in 1973 and was first performed in the United States in 1978. Over one million people around the world have been treated with RK. 
   
Like excimer laser surgery, RK corrects nearsightedness by altering the shape of the cornea. The doctor makes a series of incisions in the periphery of the cornea. This increases the corneal curvature slightly where the incisions are made, and decreases the curvature in the central portion of the cornea. The incisions are made in a radiating pattern, like the spokes on a bicycle wheel. By varying the number, length, depth, and location of these incisions, different amounts of nearsightedness can be corrected.
   
Although patient satisfaction with RK was very high, RK has now been largely replaced by excimer laser techniques and is seldom used today. Lasik and PRK produce results that are more accurate than RK and can treat a much wider range of focusing errors. Because of this greater accuracy, excimer laser patients are much less likely than RK patients to require a "touch-up" procedure. Also, RK patients experience side effects more commonly than do excimer laser patients. These side effects include "starbursts" when viewing a bright light against a dark background and fluctuation in vision throughout the day. RK patients, but not excimer laser patients, experience a temporary, reversible fluctuation in vision when at high altitudes. Pilots, mountain climbers, and skiers may be affected by this and should not have RK. 

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Astigmatic Keratotomy (AK)
Astigmatic keratotomy is a variation of RK, used to treat astigmatism. AK uses arc-shaped incisions in the cornea, whereas RK uses radial incisions, like the spokes of a wheel. Neither RK nor AK is performed with a laser. At the Caster Eye Center, we do not perform RK or AK.
   
AK is often performed in conjunction with RK and can also be performed in conjunction with excimer laser surgery. This is important, because not all excimer lasers can correct astigmatism, so excimer laser treatment of nearsightedness and farsightedness is occasionally combined with AK treatment of astigmatism. For mild or moderate astigmatism, AK's predictability is good but certainly not perfect. In most cases, it is more accurate to treat astigmatism with the excimer laser than to use AK.

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Automated Lamellar Keratoplasty (ALK) 
Performed from the 1970s until the mid-1990s, ALK was the forerunner to Lasik. In ALK, a keratome was used to peel back the front layers of the cornea, creating a flap, just as it is used in the Lasik procedure today. No tissue is permanently removed in the making of the flap; by making the flap, it enables the doctor to work on the deeper tissue of the cornea. In ALK, the keratome was then used a second time to remove a small disc of cornea from under the flap, causing the central cornea to flatten and lessening nearsightedness. In Lasik, the tissue under the flap is instead removed using the excimer laser, which is much more precise. 
   
ALK has been completely replaced by Lasik and is not performed anymore. In fact, ALK was never very popular because the second part of the procedure, removing the disc of tissue, was not adequately precise. However, without ALK we would probably not have Lasik today. Lasik is a combination of the flap technique of ALK with the precision of the excimer laser -- a truly remarkable combination.
   
Because ALK has been performed since the 1970s, we have a long track record showing the safety of making corneal flaps. This is very important: because of ALK, we know that there are no long term safety problems from making corneal flaps.

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