Photorefractive keratectomy
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Photorefractive keratectomy (PRK) and Laser-Assisted Sub-Epithelial Keratectomy (LASEK) are laser eye surgery procedures intended to correct a person's vision and reduce their dependency on glasses or contact lenses. The procedures permanently change the shape of the anterior central cornea using an excimer laser to ablate (burn off) a small amount of tissue from the corneal stroma at the front of the eye, just under the corneal epithelium. The outer layer of the cornea is removed prior to the ablation. A computer system tracks the patient's eye position 60 to 4,000 times per second, depending on the brand of laser used, redirecting laser pulses for precise placement. Most modern lasers will automatically center on the patient's visual axis and will pause if the eye moves out of range and then resume ablating at that point after the patient's eye is re-centered.
The outer layer of the cornea, or epithelium, is a soft, rapidly regrowing layer in contact with the air that can completely replace itself from limbal stem cells within a few days with no loss of clarity. The deeper layers of the cornea, as opposed to the outer epithelium, are laid down early in life and have very limited regenerative capacity. The deeper layers, if reshaped by a laser or cut by a microkeratome, will remain that way permanently with only limited healing or remodelling. In LASEK the corneal epithelium is preserved with a chemical solution, peeled off, and replaced after the laser ablation is complete. With PRK the epithelium removed is discarded and allowed to regenerate. Both procedures are distinct from LASIK (Laser- In Situ Keratomileusis), a form of laser eye surgery where the epithelium is not removed.
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PRK versus LASIK
Because it does not involve a permanent flap in the deeper corneal layers, (as in LASIK where a microkeratome or femtosecond laser is used), the cornea's structural integrity is less altered, but there is more pain and visual recovery is slower. The use of the anti-metabolite mitomycin can minimize the risk of post-operative haze in persons requiring larger PRK corrections. PRK does not run the risk of dislocated corneal flaps which may infrequently occur with trauma even years after LASIK. This makes it the procedure of choice of the military for special forces units.
PRK eligibility
It is estimated that up to 80% of the myopic population may physically qualify as potential PRK candidates. There are a number of basic criteria which a potential candidate must satisfy:
- Normal ocular health
- Age 21 years or older
- Stable refraction error (no noticeable change in the last year) correctable to 20/40 or better
- Between -1.50 to -7.00 diopters of Myopia
- No gender restriction, with the exception of pregnancy
- Realistic expectations of the final results (with a complete understanding of the benefits, as well as the possible risks)
- Pupil size 6mm in room light
There are also some pre-existing conditions that may complicate or preclude the treatment.
- Collagen vascular disease (e.g., corneal ulceration or melting)
- Ocular disease (e.g., dry eye, keratoconus, glaucoma)
- Systemic disorders (e.g., diabetes, rheumatoid arthritis)
- History of side effects from steroids
LASEK versus LASIK
LASEK is a procedure that permanently changes the shape of the cornea using an excimer laser to ablate a small amount of tissue from the front of the eye, just under the eye's outer layer or epithelium. Unlike LASIK, in which the epithelium is not removed from the corneal flap, the epithelium is kept off the eye during the procedure and replaced afterward to act as a natural bandage.
Because it does not involve a knife/microkeratome/or cutting laser as used in LASIK, the cornea's stability is left virtually unaffected, but there is more pain and visual recovery is slower than with the latter procedure. Like PRK, LASEK does not run the risk of dislocated corneal flaps which may occur infrequently with trauma even years after LASIK.
Possible complications
Some complications of PRK include:
- Long healing period
- Pain
- Glare, halos, or starburst Aberrations
- Under- or over-correction
- Recurrence of myopia
- Increased intraocular pressure
- Corneal haze
- Scarring
- Reduced best corrected visual acuity
- Reduced acuity in low light
PRK may be performed on one eye at a time to assess the results of the procedure and ensure adequate vision during the healing process. (Note: The FDA recommends a 3-month period before a second PRK surgery.) Activities requiring good binocular vision may have to be suspended between surgeries and during the, sometimes extended, healing periods.
A few Post-PRK patients have complained of glare, halos, and starburst aberrations, which may be the result of postoperative corneal haze that may develop during the healing process. Using modern lasers as of the year 2005, this is quite rare after 6 months but reportedly, symptoms have occasionally lingered longer than a year in some cases.
Predictability of the resulting refractive correction after healing is not totally exact, particularly for those with more severe myopia. This can lead to under/over-correction of the refractive error. In the case of the over-correction, premature presbyopia is a possibility.
In 1 to 3% of cases, loss of best corrected visual acuity (BCVA) can result, due to decentered ablative zones or other surgical complications. (Note: Loss of BCVA is reportedly 5 to 15x more likely with PRK than that resulting from the use of extended wear contacts.) PRK results in improved BCVA about twice as often as it causes loss. Decentration is becoming less and less of a problem with more modern lasers using sophisticated eye centering and tracking methods.
Issues with patients requiring high visual acuity
Operation of an aircraft is a visually demanding activity performed in an environment that is not always user friendly. This becomes particularly evident if your choice of vision correction is ill-suited for the task. Currently, over 50% of the civil airman population uses some form of visual correction. Aviators considering PRK should know that clinical trials claiming success rates of 90% or higher are based on criteria of 20/40 or better, not 20/20 or better, uncorrected visual acuity.
Some PRK patients have reported dissatisfaction with their vision under low ambient lighting (dusk/nighttime) conditions. Pilots who experience postoperative vision problems could be further compromised by the variations in lighting common to the aviation environment. In addition, exposure to intense UV radiation has been associated with late-onset corneal haze and recurrence of myopia.
The US Federal Aviation Administration will consider applicants with PRK once they are fully healed and stabilized, provided there are no complications and all other visual standards are met. Pilots should be aware, however, that potential employers, such as commercial airlines and private companies, may have policies that consider refractive surgery a disqualifying condition. Also, civilian pilots who wish to fly military aircraft (Army, Air Force, or Naval Reserves) should know that the military does not allow its pilots to have LASIK or PRK. The Navy will routinely grant a waiver for pilots or student naval aviators to fly after PRK, assuming no complications and acceptable vision. In one study 967 of 968 naval aviators having PRK returned to duty involving flying after the procedure.
In the majority of patients, PRK has proven to be a safe and effective procedure for the correction of myopia. PRK is still evolving with other countries currently using refined techniques and alternative procedures. Many of these procedures are under investigation in the U.S. Given that PRK is not reversible, a patient considering PRK is recommended to contact an eyecare practitioner for assistance in making an informed decision concerning the potential benefits and liabilities that may be specific to him or her.