Web www.postlasikproblems.com

Post Lasik Problems & Learning About LASIK Procedures

LASIK is a surgical procedure intended to reduce a person's dependency on glasses or contact lenses. The goal of this Web site is to provide objective information to the public about LASIK surgery, both before and after the procedure in simple easy to read or print format.

What is Lasik?

When is Lasik Not For Me?

What are the Risks of Lasik and How Can I Find a Doctor Right For Me?

What should I expect before, during, and after Lasik surgery?

LASIK Surgery Checklist

FDA Approved Lasers for LASIK

Glossary - Eye Anatomy

FAQs- (Frequently Asked Questions)

Much of the content and information in this site is directly from the FDA's U.S. Food and Drug Administration's department of health and human services. Scroll down or jump to sections of this site to learn about what you should know before Lasik surgery, what will happen during the Lasik surgery, and what you should expect after Lasik surgery. There is a glossary of terms and a checklist of issues for you to consider, practices to follow, and questions to ask your doctor before undergoing LASIK surgery as well as what to be on the look out for after.

Note: The sponsored sections that appear on this site are to help us defer research, updating, hosting costs in providing this resource for you. We strongly recomend that you review, learn, and use the all information contained in this site as a tool - as part of your own research, and a resource to use before you click or contact any of the sponsored ads. As you know, forewarned if forearmed. Do your homework! We don't want to scare you we want you to be informed.

LASIK stands for Laser-Assisted In Situ Keratomileusis and is a procedure that permanently changes the shape of the cornea, the clear covering of the front of the eye, using an excimer laser. A knife, called a microkeratome, is used to cut a flap in the cornea. A hinge is left at one end of this flap. The flap is folded back revealing the stroma, the middlesection of the cornea. Pulses from a computer-controlled laser vaporize a portion of the stroma and the flap is replaced. There are other techniques and many new terms related to LASIK that you may hear about.

What is LASIK?

The eye and vision errors
The parts of the eye The cornea is a part of the eye that helps focus light to create an image on the retina. It works in much the same way that the lens of a camera focuses light to create an image on film. The bending and focusing of light is also known as refraction. Usually the shape of the cornea and the eye are not perfect and the image on the retina is out-of-focus (blurred) or distorted. These imperfections in the focusing power of the eye are called refractive errors. There are three primary types of refractive errors: myopia, hyperopia and astigmatism. Persons with myopia, or nearsightedness, have more difficulty seeing distant objects as clearly as near objects. Persons with hyperopia, or farsightedness, have more difficulty seeing near objects as clearly as distant objects. Astigmatism is a distortion of the image on the retina caused by irregularities in the cornea or lens of the eye. Combinations of myopia and astigmatism or hyperopia and astigmatism are common. Glasses or contact lenses are designed to compensate for the eye's imperfections. Surgical procedures aimed at improving the focusing power of the eye are called refractive surgery. In LASIK surgery, precise and controlled removal of corneal tissue by a special laser reshapes the cornea changing its focusing power.

Other types of refractive surgery
Radial Keratotomy or RK and Photorefractive Keratectomy or PRK are other refractive surgeries used to reshape the cornea. In RK, a very sharp knife is used to cut slits in the cornea changing its shape. PRK was the first surgical procedure developed to reshape the cornea, by sculpting, using a laser. Later, LASIK was developed. The same type of laser is used for LASIK and PRK. Often the exact same laser is used for the two types of surgery. The major difference between the two surgeries is the way that the stroma, the middle layer of the cornea, is exposed before it is vaporized with the laser. In PRK, the top layer of the cornea, called the epithelium, is scraped away to expose the stromal layer underneath. In LASIK, a flap is cut in the stromal layer and the flap is folded back.

Another type of refractive surgery is thermokeratoplasty in which heat is used to reshape the cornea. The source of the heat can be a laser, but it is a different kind of laser than is used for LASIK and PRK. Other refractive devices include corneal ring segments that are inserted into the stroma and special contact lenses that temporarily reshape the cornea (orthokeratology).

What the FDA regulates
In the United States, the Food and Drug Administration (FDA) regulates the sale of medical devices such as the lasers used for LASIK. Before a medical device can be legally sold in the U.S., the person or company that wants to sell the device must seek approval from the FDA. To gain approval, they must present evidence that the device is reasonably safe and effective for a particular use, the "indication." Once the FDA has approved a medical device, a doctor may decide to use that device for other indications if the doctor feels it is in the best interest of a patient. The use of an approved device for other than its FDA-approved indication is called "off-label use." The FDA does not regulate off-label use or the practice of medicine.

The FDA does not have the authority to:

* Regulate a doctor's practice. In other words, FDA does not tell doctors what to do when running their business or what they can or cannot tell their patients.
* Set the amount a doctor can charge for LASIK eye surgery.
* "Insist" the patient information booklet from the laser manufacturer be provided to the potential patient.
* Make recommendations for individual doctors, clinics, or eye centers. FDA does not maintain nor have access to any such list of doctors performing LASIK eye surgery.
* Conduct or provide a rating system on any medical device it regulates.

The first refractive laser systems approved by FDA were excimer lasers for use in PRK to treat myopia and later to treat astigmatism. However, doctors began using these lasers for LASIK (not just PRK), and to treat other refractive errors (not just myopia). Over the last several years, LASIK has become the main surgery doctors use to treat myopia in the United States. More recently, some laser manufacturers have gained FDA approval for laser systems for LASIK to treat myopia, hyperopia and astigmatism and for PRK to treat hyperopia and astigmatism.

See the section below on FDA-approved lasers for more details on which lasers have received FDA approval and the specific indications and treatment ranges for which they were approved.

When is LASIK not for me?

You are probably NOT a good candidate for refractive Lasik surgery if:

* You are not a risk taker. Certain complications are unavoidable in a percentage of patients, and there are no long-term data available for current procedures.

* It will jeopardize your career. Some jobs prohibit certain refractive procedures. Be sure to check with your employer/professional society/military service before undergoing    any procedure.

* Cost is an issue. Most medical insurance will not pay for refractive lasik surgery. Although the cost is coming down, it is still significant.

* You required a change in your contact lens or glasses prescription in the past year. This is called refractive instability. Patients who are:

* In their early 20s or younger,
* Whose hormones are fluctuating due to disease such as diabetes,
* Who are pregnant or breastfeeding, or
* Who are taking medications that may cause fluctuations in vision, are more likely to have refractive instability and should discuss the possible additional risks with their    doctor.

* You have a disease or are on medications that may affect wound healing. Certain conditions, such as autoimmune diseases (e.g., lupus, rheumatoid arthritis), immunodeficiency states (e.g., HIV) and diabetes, and some medications (e.g., retinoic acid and steroids) may prevent proper healing after a refractive procedure.

* You actively participate in contact sports. You participate in boxing, wrestling, martial arts or other activities in which blows to the face and eyes are a normal occurrence.

* You are not an adult. Currently, no lasers are approved for LASIK on persons under the age of 18.

Precautions
The safety and effectiveness of refractive procedures has not been determined in patients with some diseases. Discuss with your doctor if you have a history of any of the following:

* Herpes simplex or Herpes zoster (shingles) involving the eye area.

* Glaucoma, glaucoma suspect, or ocular hypertension.

* Eye diseases, such as uveitis/iritis (inflammations of the eye)

* Eye injuries or previous eye surgeries.

* Keratoconus

Other Risk Factors
Your doctor should screen you for the following conditions or indicators of risk:

* Blepharitis. Inflammation of the eyelids with crusting of the eyelashes, that may increase the risk of infection or inflammation of the cornea after LASIK.

* Large pupils. Make sure this evaluation is done in a dark room. Younger patients and patients on certain medications may be prone to having large pupils under dim lighting conditions. This can cause symptoms such as glare, halos, starbursts, and ghost images (double vision) after lasik surgery. In some patients these symptoms may be debilitating. For example, a patient may no longer be able to drive a car at night or in certain weather conditions, such as fog.

* Thin Corneas. The cornea is the thin clear covering of the eye that is over the iris, the colored part of the eye. Most refractive procedures change the eye’s focusing power by reshaping the cornea (for example, by removing tissue). Performing a refractive procedure on a cornea that is too thin may result in blinding complications.

* Previous refractive surgery (e.g., RK, PRK, LASIK). Additional refractive surgery may not be recommended. The decision to have additional refractive surgery must be made in consultation with your doctor after careful consideration of your unique situation.

* Dry Eyes. LASIK surgery tends to aggravate this condition.

What are the risks of Lasik and how can I find the right doctor for me?

Most patients are very pleased with the results of their refractive surgery. However, like any other medical procedure, there are risks involved. That's why it is important for you to understand the limitations and possible complications of refractive surgery.

Before undergoing a refractive procedure, you should carefully weigh the risks and benefits based on your own personal value system, and try to avoid being influenced by friends that have had the procedure or doctors encouraging you to do so.

* Some patients lose vision. Some patients lose lines of vision on the vision chart that cannot be corrected with glasses, contact lenses, or surgery as a result of treatment.

* Some patients develop debilitating visual symptoms. Some patients develop glare, halos, and/or double vision that can seriously affect nighttime vision. Even with good vision on the vision chart, some patients do not see as well in situations of low contrast, such as at night or in fog, after treatment as compared to before treatment.

* You may be under treated or over treated. Only a certain percent of patients achieve 20/20 vision without glasses or contacts. You may require additional treatment, but additional treatment may not be possible. You may still need glasses or contact lenses after lasik surgery. This may be true even if you only required a very weak prescription before lasik surgery. If you used reading glasses before lasik surgery, you may still need reading glasses after surgery.

* Some patients may develop severe dry eye syndrome. As a result of surgery, your eye may not be able to produce enough tears to keep the eye moist and comfortable. Dry eye not only causes discomfort, but can reduce visual quality due to intermittent blurring and other visual symptoms. This condition may be permanent. Intensive drop therapy and use of plugs or other procedures may be required.

* Results are generally not as good in patients with very large refractive errors of any type. You should discuss your expectations with your doctor and realize that you may still require glasses or contacts after the surgery.

* For some farsighted patients, results may diminish with age. If you are farsighted, the level of improved vision you experience after lasik surgery may decrease with age. This can occur if your manifest refraction (a vision exam with lenses before dilating drops) is very different from your cycloplegic refraction (a vision exam with lenses after dilating drops).

* Long-term data is not available. LASIK is a relatively new technology. The first laser was approved for LASIK eye surgery in 1998. Therefore, the long-term safety and effectiveness of LASIK surgery is not known.

Additional Risks if you are Considering the Following:

* Monovision

Monovision is one clinical technique used to deal with the correction of presbyopia, the gradual loss of the ability of the eye to change focus for close-up tasks that progresses with age. The intent of monovision is for the presbyopic patient to use one eye for distance viewing and one eye for near viewing. This practice was first applied to fit contact lens wearers and more recently to LASIK and other refractive surgeries. With contact lenses, a presbyopic patient has one eye fit with a contact lens to correct distance vision, and the other eye fit with a contact lens to correct near vision. In the same way, with LASIK, a presbyopic patient has one eye operated on to correct the distance vision, and the other operated on to correct the near vision. In other words, the goal of the surgery is for one eye to have vision worse than 20/20, the commonly referred to goal for LASIK surgical correction of distance vision. Since one eye is corrected for distance viewing and the other eye is corrected for near viewing, the two eyes no longer work together. This results in poorer quality vision and a decrease in depth perception. These effects of monovision are most noticeable in low lighting conditions and when performing tasks requiring very sharp vision. Therefore, you may need to wear glasses or contact lenses to fully correct both eyes for distance or near when performing visually demanding tasks, such as driving at night, operating dangerous equipment, or performing occupational tasks requiring very sharp close vision (e.g., reading small print for long periods of time).

Many patients cannot get used to having one eye blurred at all times. Therefore, if you are considering monovision with LASIK, make sure you go through a trial period with contact lenses to see if you can tolerate monovision, before having the surgery performed on your eyes. Find out if you pass your state's driver's license requirements with monovision.

In addition, you should consider how much your presbyopia is expected to increase in the future. Ask your doctor when you should expect the results of your monovision surgery to no longer be enough for you to see near-by objects clearly without the aid of glasses or contacts, or when a second surgery might be required to further correct your near vision.

* Bilateral Simultaneous Treatment

You may choose to have LASIK surgery on both eyes at the same time or to have surgery on one eye at a time. Although the convenience of having surgery on both eyes on the same day is attractive, this practice is riskier than having two separate surgeries.

If you decide to have one eye done at a time, you and your doctor will decide how long to wait before having surgery on the other eye. If both eyes are treated at the same time or before one eye has a chance to fully heal, you and your doctor do not have the advantage of being able to see how the first eye responds to surgery before the second eye is treated.

Another disadvantage to having surgery on both eyes at the same time is that the vision in both eyes may be blurred after surgery until the initial healing process is over, rather than being able to rely on clear vision in at least one eye at all times.

Finding the Right Doctor
If you are considering refractive surgery, make sure you:

* Compare. The levels of risk and benefit vary slightly not only from procedure to procedure, but from device to device depending on the manufacturer, and from surgeon to surgeon depending on their level of experience with a particular procedure.

* Don't base your decision simply on cost and don't settle for the first eye center, doctor, or procedure you investigate. Remember that the decisions you make about your eyes and refractive surgery will affect you for the rest of your life.

* Be wary of eye centers that advertise, "20/20 vision or your money back" or "package deals." There are never any guarantees in medicine.

* Read. It is important for you to read the patient handbook provided to your doctor by the manufacturer of the device used to perform the refractive procedure. Your doctor should provide you with this handbook and be willing to discuss his/her outcomes (successes as well as complications) compared to the results of studies outlined in the handbook.

Even the best screened patients under the care of most skilled surgeons can experience serious complications.

* During surgery. Malfunction of a device or other error, such as cutting a flap of cornea through and through instead of making a hinge during LASIK surgery, may lead to discontinuation of the procedure or irreversible damage to the eye.

* After surgery. Some complications, such as migration of the flap, inflammation or infection, may require another procedure and/or intensive treatment with drops. Even with aggressive therapy, such complications may lead to temporary loss of vision or even irreversible blindness.

Under the care of an experienced doctor, carefully screened candidates with reasonable expectations and a clear understanding of the risks and alternatives are likely to be happy with the results of their refractive procedure.

Advertising
Be cautious about "slick" advertising and/or deals that sound "too good to be true." Remember, they usually are. There is a lot of competition resulting in a great deal of advertising and bidding for your business. Do your homework.

If you want to know more about advertising ethics, do's and don'ts, or want to report on false advertising, explore the following websites:

* http://www.ftc.gov/bcp/menu-ads.htm
* http://www.ftc.gov/bcp/menu-health.htm

What should I expect before, during, and after Lasik surgery?

What to expect before, during, and after surgery will vary from doctor to doctor and patient to patient. This section is a compilation of patient information developed by manufacturers and healthcare professionals, but cannot replace the dialogue you should have with your doctor. Read this information carefully and with the checklist, discuss your expectations with your doctor.

Before Surgery
If you decide to go ahead with LASIK surgery, you will need an initial or baseline evaluation by your eye doctor to determine if you are a good candidate. This is what you need to know to prepare for the exam and what you should expect:

If you wear contact lenses, it is a good idea to stop wearing them before your baseline evaluation and switch to wearing your glasses full-time. Contact lenses change the shape of your cornea for up to several weeks after you have stopped using them depending on the type of contact lenses you wear. Not leaving your contact lenses out long enough for your cornea to assume its natural shape before lasik surgery can have negative consequences. These consequences include inaccurate measurements and a poor surgical plan, resulting in poor vision after surgery. These measurements, which determine how much corneal tissue to remove, may need to be repeated at least a week after your initial evaluation and before surgery to make sure they have not changed, especially if you wear RGP or hard lenses. If you wear:

* soft contact lenses, you should stop wearing them for 2 weeks before your initial evaluation.
* toric soft lenses or rigid gas permeable (RGP) lenses, you should stop wearing them for at least 3 weeks before your initial evaluation.
* hard lenses, you should stop wearing them for at least 4 weeks before your initial evaluation.

Before your initial exam, stop wearing contact lenses.

You should tell your doctor:

* about your past and present medical and eye conditions
* about all the medications you are taking, including over-the-counter medications and any medications you may be allergic to

Your doctor should perform a thorough eye exam and discuss:

* whether you are a good candidate
* what the risks, benefits, and alternatives of the surgery are
* what you should expect before, during, and after surgery
* what your responsibilities will be before, during, and after surgery

You should have the opportunity to ask your doctor questions during this discussion. Give yourself plenty of time to think about the risk/benefit discussion, to review any informational literature provided by your doctor, and to have any additional questions answered by your doctor before deciding to go through with surgery and before signing the informed consent form.

You should not feel pressured by your doctor, family, friends, or anyone else to make a decision about having surgery. Carefully consider the pros and cons.

The day before surgery, you should stop using:

* creams
* lotions
* makeup
* perfumes

These products as well as debris along the eyelashes may increase the risk of infection during and after surgery. Your doctor may ask you to scrub your eyelashes for a period of time before surgery to get rid of residues and debris along the lashes.

Also before surgery, arrange for transportation to and from your surgery and your first follow-up visit. On the day of surgery, your doctor may give you some medicine to make you relax. Because this medicine impairs your ability to drive and because your vision may be blurry, even if you don't drive make sure someone can bring you home after surgery.

During Surgery
The surgery should take less than 30 minutes. You will lie on your back in a reclining chair in an exam room containing the laser system. The laser system includes a large machine with a microscope attached to it and a computer screen.

A numbing drop will be placed in your eye, the area around your eye will be cleaned, and an instrument called a lid speculum will be used to hold your eyelids open. A ring will be placed on your eye and very high pressures will be applied to create suction to the cornea. Your vision will dim while the suction ring is on and you may feel the pressure and experience some discomfort during this part of the procedure. The microkeratome, a cutting instrument, is attached to the suction ring. Your doctor will use the blade of the microkeratome to cut a flap in your cornea.

The microkeratome and the suction ring are then removed. You will be able to see, but you will experience fluctuating degrees of blurred vision during the rest of the procedure. The doctor will then lift the flap and fold it back on its hinge, and dry the exposed tissue.

The laser will be positioned over your eye and you will be asked to stare at a light. This is not the laser used to remove tissue from the cornea. This light is to help you keep your eye fixed on one spot once the laser comes on. NOTE: If you cannot stare at a fixed object for at least 60 seconds, you may not be a good candidate for this surgery.

When your eye is in the correct position, your doctor will start the laser. At this point in the surgery, you may become aware of new sounds and smells. The pulse of the laser makes a ticking sound. As the laser removes corneal tissue, some people have reported a smell similar to burning hair. A computer controls the amount of laser energy delivered to your eye. Before the start of surgery, your doctor will have programmed the computer to vaporize a particular amount of tissue based on the measurements taken at your initial evaluation. After the pulses of laser energy vaporize the corneal tissue, the flap is put back into position.

A shield should be placed over your eye at the end of the procedure as protection, since no stitches are used to hold the flap in place. It is important for you to wear this shield to prevent you from rubbing your eye and putting pressure on your eye while you sleep, and to protect your eye from accidentally being hit or poked until the flap has healed.

Good practices to follow before and after surgery

After Surgery
Immediately after the procedure, your eye may burn, itch, or feel like there is something in it. You may experience some discomfort, or in some cases, mild pain and your doctor may suggest you take a mild pain reliever. Both your eyes may tear or water. Your vision will probably be hazy or blurry. You will instinctively want to rub your eye, but don't! Rubbing your eye could dislodge the flap, requiring further treatment. In addition, you may experience sensitivity to light, glare, starbursts or haloes around lights, or the whites of your eye may look red or bloodshot. These symptoms should improve considerably within the first few days after surgery. You should plan on taking a few days off from work until these symptoms subside. You should contact your doctor immediately and not wait for your scheduled visit, if you experience severe pain, or if your vision or other symptoms get worse instead of better.

You should see your doctor within the first 24 to 48 hours after surgery and at regular intervals after that for at least the first six months. At the first postoperative visit, your doctor will remove the eye shield, test your vision, and examine your eye. Your doctor may give you one or more types of eye drops to take at home to help prevent infection and/or inflammation. You may also be advised to use artificial tears to help lubricate the eye. Do not resume wearing a contact lens in the operated eye, even if your vision is blurry.

What to expect after surgery

You should wait one to three days following surgery before beginning any non-contact sports, depending on the amount of activity required, how you feel, and your doctor's instructions.

To help prevent infection, you may need to wait for up to two weeks after surgery or until your doctor advises you otherwise before using lotions, creams, or make-up around the eye. Your doctor may advise you to continue scrubbing your eyelashes for a period of time after surgery. You should also avoid swimming and using hot tubs or whirlpools for 1-2 months.

Strenuous contact sports such as boxing, football, karate, etc. should not be attempted for at least four weeks after surgery. It is important to protect your eyes from anything that might get in them and from being hit or bumped.

During the first few months after surgery, your vision may fluctuate.

* It may take up to three to six months for your vision to stabilize after surgery.
* Glare, haloes, difficulty driving at night, and other visual symptoms may also persist during this stabilization period. If further correction or enhancement is necessary, you should wait until your eye measurements are consistent for two consecutive visits at least 3 months apart before re-operation.
* It is important to realize that although distance vision may improve after re-operation, it is unlikely that other visual symptoms such as glare or haloes will improve.
* It is also important to note that no laser company has presented enough evidence for the FDA to make conclusions about the safety or effectiveness of enhancement surgery.

IMPORTANT: Contact your eye doctor immediately, if you develop any new, unusual or worsening symptoms at any point after surgery. Such symptoms could signal a problem that, if not treated early enough, may lead to a loss of vision.

LASIK Surgery Checklist

Print this LASIK SURGERY CHECKLIST document in PDF format

Know what makes you a poor candidate

Career impact - does your job prohibit refractive surgery?
Cost - can you really afford this procedure?
Medical conditions - e.g., do you have an autoimmune disease or other major illness? Do you have a chronic illness that might slow or alter healing?
Eye conditions - do you have or have you ever had any problems with your eyes other than needing glasses or contacts?
Medications - do you take steroids or other drugs that might prevent healing?
Stable refraction - has your prescription changed in the last year?
High or Low refractive error - do you use glasses/contacts only some of the time? Do you need an unusually strong prescription?
Pupil size - are your pupils extra large in dim conditions?
Corneal thickness - do you have thin corneas?
Tear production - do you have dry eyes?

Know all the risks and procedure limitations

Overtreatment or undertreatment - are you willing and able to have more than one surgery to get the desired result?
May still need reading glasses - do you have presbyopia?
Results may not be lasting - do you think this is the last correction you will ever need? Do you realize that long-term results are not known?
May permanently lose vision - do you know some patients may lose some vision or experience blindness?
Dry eyes – do you know that if you have dry eyes they could become worse, or if you don’t have dry eyes before you could develop chronic dry eyes as a result of surgery?
Development of visual symptoms - do you know about glare, halos, starbursts, etc. and that night driving might be difficult?
Contrast sensitivity - do you know your vision could be significantly reduced in dim light conditions?
Bilateral treatment - do you know the additional risks of having both eyes treated at the same time?
Patient information - have you read the patient information booklet about the laser being used for your procedure?

Know how to find the right doctor

Experienced - how many eyes has your doctor performed LASIK surgery on with the same laser?
Equipment - does your doctor use an FDA-approved laser for the procedure you need?
Informative - is your doctor willing to spend the time to answer all your questions?
Long-term Care - does your doctor encourage follow-up and management of you as a patient? Your preop and postop care may be provided by a doctor other than the surgeon.
Be Comfortable - do you feel you know your doctor and are comfortable with an equal exchange of information?

Know preoperative, operative, and postoperative expectations

No contact lenses prior to evaluation and surgery - can you go for an extended period of time without wearing contact lenses?
Have a thorough exam - have you arranged not to drive or work after the exam?
Read and understand the informed consent - has your doctor given you an informed consent form to take home and answered all your questions?
No makeup before surgery - can you go 24-36 hours without makeup prior to surgery?
Arrange for transportation - can someone drive you home after surgery?
Plan to take a few days to recover - can you take time off to take it easy for a couple of days if necessary?
Expect not to see clearly for a few days - do you know you will not see clearly immediately?
Know sights, smells, sounds of surgery - has your doctor made you feel comfortable with the actual steps of the procedure?
Be prepared to take drops/medications- are you willing and able to put drops in your eyes at regular intervals?
Be prepared to wear an eye shield - do you know you need to protect the eye for a period of time after surgery to avoid injury?
Expect some pain/discomfort - do you know how much pain to expect?
Know when to seek help - do you understand what problems could occur and when to seek medical intervention?
Know when to expect your vision to stop changing - are you aware that final results could take months?
Make sure your refraction is stable before any further surgery - if you don't get the desired result, do you know not to have an enhancement until the prescription stops changing?

FDA-Approved lasers for LASIK
Approval Number for a particular laser will connect you to another FDA page with links to the Approval Order, Indications for Use, the Summary of Safety and Effectiveness (SSE) and the Labeling for Physician and Patient (labeling is often combined into one document with the patient labeling following the physician labeling).

Company and model	Approval number and date	Approved indications (D = diopters)
Alcon - LADARVision	P970043/S5 5/9/00	Myopia less than -9.0D with or without astigmatism from -0.5 to -3.0D
Alcon - LADARVision	P970043/S7 9/22/00	Hyperopia less than 6.0D with or without astigmatism less than -6.0D
Alcon - LADARVision	P970043/S10 10/18/02	Wavefront-guided LASIK: Myopia up to -7.0D with or without astigmatism less than 0.5D
Alcon - LADARVision	P970043/S15 6/29/04	Wavefront-guided LASIK: Myopic astigmatism from -0.5D to -4.0D
Alcon - Apex Plus	P930034/S13 10/21/99	Myopia less than -14.0D with or without astigmatism from 0.5 to 5.0D
Bausch & Lomb Surgical - Technolas 217a	P990027 2/23/00	Myopia from -1.0 to -7.0D with or without astigmatism less than -3.0D
Bausch & Lomb Surgical - Technolas 217a	P990027/S2 5/15/02	Myopia less than -11D with or without astigmatism less than -3.0D
Bausch & Lomb Surgical - Technolas 217a	P990027/S4 2/25/03	Hyperopia between 1.0 and 4.0D with or without astigmatism up to 2.0D
Bausch & Lomb Surgical - Technolas 217z	P990027/S6 10/10/03	Wavefront-guided LASIK: Myopia up to -7.0D with or without astigmatism up to -3.0D
Dishler	P970049 12/16/99	Myopia from -0.5 to -13.0D with or without astigmatism between -0.5 to -4.0D
Kremer	P970005 7/30/98	Myopia from -1.0 to -15.0D with or without astigmatism up to -5.0D
LaserSight - LaserScan LSX	P980008/S5 9/28/01	Myopia from -0.5 to -6.0D with or without astigmatism up to 4.5D
Nidek - EC5000	P970053/S2 4/14/00	Myopia from -1.0 to -14.0D with or without astigmatism less than 4.0D
VISX - Star S2 & S3	P930016/S12 4/27/01	Hyperopia between +0.5 and +5.0D with or without astigmatism up to +3.0D
VISX - Star S2 & S3	P930016/S14 11/16/01	Mixed astigmatism up to 6.0D; cylinder is greater than sphere and of opposite sign
VISX - Star S2	P990010 11/19/99	Myopia less than -14.0D with or without astigmatism between -0.5 and -5.0D
VISX - Star S3 (EyeTracker)	P990010/S1 4/20/00	Same as S2, except with eye tracker
VISX - Star S4 & WaveScan WaveFront System	P930016/S16 5/23/03	Wavefront-guided LASIK: Myopia up to -6.0D with or without astigmatism up to -3.0D
VISX - Star S4 & WaveScan WaveFront System	P930016/S17 12/14/04	Wavefront-guided LASIK: Hyperopia up to +3.00D with or without astigmatism up to +2.00D
WaveLight - ALLEGRETTO WAVE	P020050 10/07/03	Myopia up to -12.0D with or without astigmatism up to -6.0D.
WaveLight - ALLEGRETTO WAVE	P030008 10/10/03	Hyperopia up to +6.0D with or without astigmatism up to +5.0D.

FDA-Approved lasers for PRK and other refractive surgeries

Company and model	Approval number and date	Approved indications (D = diopters)
Alcon - LADARVision	P970043 11/2/98	PRK; Myopia from -1.0 to -10.0D with or without astigmatism less than -4.0D
Alcon - Apex & Apex Plus	P930034 10/25/95	PRK; Myopia from -1.5 to -7.0D
Alcon - Apex Plus	P930034/S9 3/11/98	PRK; Myopia from -1.0 to -6.0D with or without astigmatism from -1.0 to -4.0D
Alcon - Apex Plus	P930034/S12 10/21/99	PRK; Hyperopia from +1.5 to +4.0D with or without astigmatism less than -1.0D
Bausch & Lomb Surgical - KERACOR 116	P970056 9/28/99	PRK; Myopia from -1.5 to -7.0D with or without astigmatism less than -4.5D
LaserSight - LaserScan LSX	P980008 11/12/99	PRK; Myopia from -1.0 to -6.0D with or without astigmatism less than 1.0D
Nidek - EC5000	P970053 12/17/98	PRK; Myopia from -0.75 to -13.0D
Nidek - EC5000	P970053/S1 9/29/99	PRK; Myopia from -1.0 to -8.0D with or without astigmatism from -0.5 to -4.0D
Refractec - ViewPoint CK System	P010018 4 /11/02	Conductive keratoplasty; Hyperopia from +0.75 to +3.25D with or without astigmatism up to 0.75D
Refractec - ViewPoint CK System	P010018/S5 03/16/2004	Conductive keratoplasty; Monovision in patients with presbyopia with or without hyperopia
Sunrise - Hyperion	P990078 6/30/00	Laser Thermokeratoplasty (LTK); Hyperopia from +0.75 to +2.5D with or without astigmatism less than 0.75D
VISX - Model B & C (Star & Star S2)	P930016 3/27/96	PRK; Myopia from 0 to -6.0D
VISX - Model B & C (Star & Star S2)	P930016/S3 4/24/97	PRK; Myopia from 0 to -6.0D with or without astigmatism from -0.75 to -4.0D
VISX - Model B & C (Star & Star S2)	P930016/S5 1/29/98	PRK; Myopia from 0 to -12.0D with or without astigmatism from 0 to -4.0D
VISX - Star S2	P930016/S7 11/2/98	PRK; Hyperopia from +1.0 to +6.0D
VISX - Star S2 & S3	P930016/S10 10/18/00	PRK; Hyperopia from +0.5 to +5.0D with or without astigmatism +0.5 to +4.0D
VISX - Star S2 & S3	P930016/S13 3/19/01	Add myopia blend zone; increase overall ablation zone from 6.5 to 8.0mm

Glossary - Eye Anatomy

Ablate in surgery, is to remove.

Ablation zone the area of tissue that is removed during laser surgery.

Accommodation the ability of the eye to change its focus from distant objects to near objects.

Acuity clearness, or sharpness of vision.

Astigmatism a distortion of the image on the retina caused by irregularities in the cornea or lens.

Cornea the clear, front part of the eye. The cornea is the first part of the eye that bends (or refracts) the light and provides most of the focusing power.

Diopter the measurement of refractive error. A negative diopter value signifies an eye with myopia and positive diopter value signifies an eye with hyperopia.

Dry Eye Syndrome a common condition that occurs when the eyes do not produce enough tears to keep the eye moist and comfortable. Common symptoms of dry eye include pain, stinging, burning, scratchiness, and intermittent blurring of vision.

Endothelium the inner layer of cells on the inside surface of the cornea.

Epithelium the outermost layer of cells of the cornea and the eye's first defense against infection.

Excimer laser an ultraviolet laser used in refractive surgery to remove corneal tissue.

Farsightedness the common term for hyperopia.

FDA the abbreviation for the Food and Drug Administration. It is the United States governmental agency responsible for the evaluation and approval of medical devices.

Flap & Zap a slang term for LASIK.

Ghost Image a fainter second image of the object you are viewing.

Glare scatter from bright light that decreases vision.

Halos are rings around lights due to optical imperfections in or in front of the eye.

Haze corneal clouding that causes the sensation of looking through smoke or fog.

Higher order aberrations refractive errors, other than nearsightedness, farsightedness, and astigmatism, that cannot be corrected with glasses or contacts.

Hyperopia the inability to see near objects as clearly as distant objects, and the need for accommodation to see distant objects clearly.

Inflammation the body's reaction to trauma, infection, or a foreign substance, often associated with pain, heat, redness, swelling, and/or loss of function.

Informed Consent Form a document disclosing the risks, benefits, and alternatives to a procedure.

In Situ a Latin term meaning "in place" or not removed.

Iris the colored ring of tissue suspended behind the cornea and immediately in front of the lens.

Keratectomy the surgical removal of corneal tissue.

Keratotomy a surgical incision (cut) of the cornea.

Keratitis inflammation of the cornea.

Kerato prefix indicating relationship to the cornea.

Keratoconus a disorder characterized by an irregular corneal surface (cone-shaped) resulting in blurred and distorted images.

Keratomileusis carving of the cornea to reshape it.

Laser the acronym for light amplification by stimulated emission of radiation. A laser is an instrument that produces a powerful beam of light that can vaporize tissue.

LASIK the acronym for laser assisted in situ keratomileusis which refers to creating a flap in the cornea with a microkeratome and using a laser to reshape the underlying cornea.

Lens a part of the eye that provides some focusing power. The lens is able to change shape allowing the eye to focus at different distances.

Microkeratome a surgical device that is affixed to the eye by use of a vacuum ring. When secured, a very sharp blade cuts a layer of the cornea at a predetermined depth.

Monovision the purposeful adjustment of one eye for near vision and the other eye fordistance vision.

Myopia the inability to see distant objects as clearly as near objects.

Nearsightedness the common term for myopia.

Ophthalmologist a medical doctor specializing in the diagnosis and medical or surgical treatment of visual disorders and eye disease.

Optician an expert in the art and science of making and fitting glasses and may also dispense contact lenses.

Optometrist a primary eye care provider who diagnoses, manages, and treats disorders of the visual system and eye diseases.

Overcorrection a complication of refractive surgery where the achieved amount of correction is more than desired.

PRK the acronym for photorefractive keratectomy which is a procedure involving the removal of the surface layer of the cornea (epithelium) by gentle scraping and use of a computer-controlled excimer laser to reshape the stroma.

Presbyopia the inability to maintain a clear image (focus) as objects are moved closer. Presbyopia is due to reduced elasticity of the lens with increasing age.

Pupil a hole in the center of the iris that changes size in response to changes in lighting. It gets larger in dim lighting conditions and gets smaller in brighter lighting conditions.

Radial Keratotomy commonly referred to as RK; a surgical procedure designed to correct myopia (nearsightedness) by flattening the cornea using radial cuts.

Refraction a test to determine the refractive power of the eye; also, the bending of light as it passes from one medium into another.

Refractive Errors imperfections in the focusing power of the eye, for example, hyperopia, myopia, and astigmatism.

Refractive Power the ability of an object, such as the eye, to bend light as light passes through it.

Retina a layer of fine sensory tissue that lines the inside wall of the eye. The retina acts like the film in a camera to capture images, transforms the images into electrical signals, and sends the signals to the brain.

Sclera the tough, white, outer layer (coat) of the eyeball that, along with the cornea, protects the eyeball.

Snellen Visual Acuity Chart one of many charts used to measure vision.

Stroma the middle, thickest layer of tissue in the cornea.

Undercorrection a complication of refractive surgery where the achieved amount of correction is less than desired.

Visual Acuity the clearness of vision; the ability to distinguish details and shapes.

Vitreous Humor the transparent, colorless mass of gel that lies behind the lens and in front of the retina and fills the center of the eyeball.

Wavefront a measure of the total refractive errors of the eye, including nearsightedness, farsightedness, astigmatism, and other refractive errors that cannot be corrected with glasses or contacts.

FAQs- (Frequently Asked Questions)