LASIK (Laser-Assisted In Situ Keratomileusis) surgery continues to redefine ophthalmology, offering a transformative solution for refractive errors like myopia, hyperopia, and astigmatism. One of the key factors behind the success of LASIK is the ongoing technological advancements, with two standout innovations being the Wavelight laser and the Contoura Vision system. In this article, we explore the intricacies of LASIK technology, shedding light on the principles underlying the Wavelight laser and the groundbreaking Contoura Vision system.
Does Technology Matter in LASIK?
LASIK, a revolutionary surgical procedure, uses lasers to both precisely create an epithelial flap and to reshape the cornea to correcnt the patients refractive error. enhances vision by reshaping the cornea, the transparent part of the eye. LASIK.com Network Surgeon, Dr. Ron Allen explains more about the importance of LASIK technology:
Decoding the Wavelight Laser
Wavelight lasers mark a significant leap in LASIK technology, employing wavefront-optimized technology. Unlike traditional LASIK, which addresses basic vision aspects, wavefront-optimized treatments aim to maintain corneal asphericity by delivering more laser energy in the corneal periphery, reducing higher-order aberrations (HOA) associated with visual symptoms after conventional refractive surgery.
Introducing the Contoura Vision System
Contoura Vision, a revolutionary LASIK technology developed by Alcon, takes personalization to new heights. Integrating corneal topography and wavefront-guided technology, this system creates a detailed, individualized treatment plan.
Corneal topography maps the cornea’s curvature, providing insights into shape and irregularities. Combined with wavefront measurements, Contoura Vision produces a 3D map, enabling the laser to address not just refractive errors but also subtle corneal irregularities, enhancing visual outcomes.
The system’s proficiency in handling higher-order aberrations contributes to improved vision, especially in low-light conditions, with patients reporting sharper, clearer vision and reduced halos and glare.
Distinguishing Visx and Wavelight Lasers
Visx and Wavelight lasers, distinct brands of excimer lasers in LASIK surgery, differ in technologies and features. Wavefront technology, eye tracking systems, treatment speed, FDA approval, and treatment capabilities are factors differentiating them. Both brands boast FDA approval, with Wavelight often praised for precision and customization, while Visx has a long history of successful LASIK procedures.
Comparing LASIK Eye Surgery Technology
Femtosecond Lasers:
1. IntraLase iFS (now part of Johnson & Johnson Vision): A femtosecond laser offering high precision for corneal flap creation, contributing to enhanced safety and efficacy.
2. Alcon FS200: Another femtosecond laser system ensuring precise corneal flap creation with low pulse energy for customization.
3. Zeiss VisuMax: Known for precision, this femtosecond laser facilitates bladeless and precise corneal flap creation.
Excimer Lasers:
1. Alcon’s Contoura Vision: Integrating corneal topography and wavefront-guided technology for highly customized LASIK treatments, addressing both common refractive errors and higher-order aberrations.
2. Wavelight EX500: Recognized for speed and accuracy, equipped with advanced eye-tracking and wavefront-optimized technology for efficient and personalized LASIK treatments.
3. VISX Excimer Lasers: Widely used and reliable, incorporating wavefront-guided technology for customized LASIK treatments.
4. Nidek EC-5000: A versatile excimer laser system offering precision in treating various refractive errors.
Choosing LASIK technology depends on a surgeon’s preference, laser model, and patient needs. If you’re contemplating LASIK, we strongly recommend scheduling a free consultation with LasikPlus. This personalized consultation will provide you with valuable insights and help determine the most suitable technology for your unique vision correction needs.