Is Excimer Laser Safe for Eyes
LASIK and other forms of laser refractive surgery, such as PRK and LASEK, all use a highly specialized excimer laser to reshape the cornea and correct refractive errors including myopia (nearsightedness), hyperopia (farsightedness) and astigmatism.
Excimer lasers have revolutionized the field of laser eye surgery. And over the decades, advances in excimer laser technology have increased the safety, efficacy and predictability of corneal refractive surgery.
Excimer lasers have the ability to remove, or “ablate,” microscopic amounts of tissue from the cornea with a very high degree of accuracy and without damaging the surrounding corneal tissue.
There are several excimer lasers that have been approved by the FDA for use in vision correction surgery performed in the United States, including:
- STAR S4 IR Excimer Laser System and iDesign Advanced WaveScan Studio System (Johnson & Johnson)
- Allegretto WAVE Eye-Q Excimer Laser System (Alcon)
- TECHNOLAS 217Z Zyoptix System for Personalized Vision Correction (Bausch + Lomb)
- Nidek EC-5000 with Navex Quest customization (Nidek)
- MEDITEC MEL 80 Excimer Laser System (Zeiss)
Though each of these lasers has its own unique set of features, research has shown that all FDA-approved excimer laser produce comparable LASIK results.
Most experts agree that your surgeon’s skill and experience, and an accurate evaluation of whether you’re a suitable LASIK candidate, are far more critical factors affecting final LASIK outcomes than subtle differences between excimer lasers.
How do excimer lasers work?
The excimer laser emits a cool beam of ultraviolet light of a specific wavelength (typically 193 nanometers) to precisely remove corneal tissue. When the surface of the cornea is reshaped in the right way, it allows light rays to focus properly onto the retina for clear vision.
The high-energy pulses of ultraviolet light penetrate only a tiny amount of the cornea and have the ability to remove as little as 0.25 microns of tissue at a time. (One micron is a thousandth of a millimeter.)
An excimer laser corrects nearsightedness by flattening the cornea; it corrects farsightedness by making the cornea steeper. And astigmatism can be corrected by smoothing an irregular cornea into a more symmetrical shape.
Excimer lasers are controlled by computer settings programmed to correct your specific refractive error. Your surgeon will program the excimer laser with the desired measurements in order to reshape your cornea and treat your prescription. The quantity and pattern of tissue removal are unique to each patient.
Most modern excimer lasers have automated eye-tracking systems that monitor eye movements and keep the laser beam on target during surgery. Studies have shown that eye trackers produce better outcomes and decrease LASIK complications compared with past lasers that did not use eye-tracking systems.
Pupil size, ablation speed and patient comfort
In recent years, increasing evidence has indicated that larger pupil sizes may affect laser vision correction outcomes. If your pupil expands in low light beyond the diameter of the laser treatment zone on the cornea, you may experience vision problems such as glare and halos at night.
Some surgeons believe the diameter of the laser ablation should be at least as large as your pupil in dim light. If you have larger pupils, the type of excimer laser may be important in relation to how large the treatment zone (diameter) the laser is capable of creating. You should discuss this with your surgeon.
Treatment times also differ among lasers, ranging from about 20 to 60 seconds or longer, depending on your refractive error. You may consider that important in terms of your comfort as you undergo a procedure.
You also might want to ask whether your surgeon uses a femtosecond laser or a bladed surgical tool (microkeratome) to create the corneal flap in LASIK eye surgery and how these two approaches might differ in terms of your comfort. Many surgeons take opposing sides in the microkeratome vs. femtosecond LASIK debate.
While specific excimer laser technology plays a key role, ultimately it is your surgeon’s skill and experience — and your suitability as a candidate — that will be the most important factors affecting your LASIK outcome.
Invented in 1970, the Excimer Laser has served many medical purposes and continues to lead as a UV laser solution in the medical market.
Excimer lasers are gas lasers that emit strong pulses of light in the ultraviolet (UV) spectrum. The name excimer comes from excited dimer. This laser has the ability to remove considerably fine layers of surface material without altering the surrounding material. Excimer lasers are used in a wide range of medical applications today, including treatment of psoriasis, LASIK eye surgery and many refractive ophthalmology treatments.
Laser safety components established within your facility will keep your physicians, medical staff and patients protected. Safety regulations are also implemented by ANSI (American National Standards Institute) and OSHA (Occupational Safety and Health Administration) which both have required safety regulations. All health care facilities must enforce laser safety measures when working around high power class 3B and class 4 laser systems. Excimer laser safety glasses or goggles will help shield your eyes from harmful laser radiation during your excimer laser procedure. Ultraviolet lasers can cause severe eye damage such as corneal flash burns, photokeratits and cataracts to the eye. Not only do excimer lasers have potential harm effects towards the eyes, they can also be harmful towards your skin. The use of long-sleeved coats and gloves is highly recommended.
To keep protective laser eyewear intact, it is a good idea to store them in a protective unit similar to the Clearly Safe Acrylic Safety Eyeglass Dispenser. This dispenser can hold multiple pairs and can be mounted to the wall or table top.
The excimer laser continues to assist in a variety of medical applications. With a multitude of different types of treatments, medical staff in all health care facilities must take cautionary measures when working around high power lasers.
