- The iFSTM Laser offers highly customizable LASIK flap creation with multiple options to individualize your LASIK procedures to each patient’s unique visual needs.
- Complete surgical control down to the micron in terms of diameter, depth and edge angle1
- Inverted bevel-in side cut, customizable up to 150˚, helps increase flap stability and strength postoperatively1,2
- Elliptical flaps maximize stromal bed exposure for full delivery of excimer ablation3
- Fast flap creation allows procedures to be completed in under 12 seconds, creating an easy experience for both surgeons and patients2
iFS™ Advanced Femtosecond Laser
5th Generation Intralase Technology
The iFSTM Laser is a comprehensive platform built on IntraLaseTM Technology’s legacy of surgical precision. Delivering individualized procedures from LASIK flaps to inlay pocket creation, the iFSTM Laser is the ideal choice for ophthalmic subspecialty.
Not all products are available in all countries
5th Generation Intralase Technology
The iFSTM Laser is a comprehensive platform built on IntraLaseTM Technology’s legacy of surgical precision. Delivering individualized procedures from LASIK flaps to inlay pocket creation, the iFSTM Laser is the ideal choice for ophthalmic subspecialty.
Not all products are available in all countries
Proven Technology
Proven Results
- LASIK flaps created with the iFSTM Laser offer excellent quality and control.
- Low energy, tight spot spacing and line separation create a smooth stromal bed, allowing for easy lift,3 minimal inflammation2 and fast flap creation2
- Inverted bevel-in side cut may provide fewer dry eye signs and symptoms than with 30º side cut4
- Thin, uniform (planar) flaps result in minimal disruption of corneal architecture and high predictability and reproducibility5
Proven Versatility
The iFSTM Laser goes beyond LASIK with customizable procedures for:
- IntraLaseTM-enabled keratoplasty (IEK) incisions in multiple configurations6,7
- Intrastromal and penetrating arcuate incisions, with complete control of angles, placement and orientation for micron-level accuracy7
- Multiplanar clear corneal and planar paracentesis incisions during cataract surgery7
- Pocket creation for inlay placements, with options for width, offset, depth, side-cut radius and side-cut angle7
- Intracorneal corneal ring segments (ICRS), with greater control over channel depth and accuracy than mechanical instruments7
Specifications7
Patient Interface
| Applanation lens
|
|---|---|
Laser Engine
| Mode-locked, diode-pumped ND:glass oscillator with a diode-pumped regenerative amplifier
|
Approximate
System Size | Width: 0.47 m
Length: 1.04 m
Height: 1.52 m
Weight: 392 kg |
REFERENCES
1. Knorz MC, Vossmerbaeumer U. Comparison of flap adhesion strength using the Amadeus microkeratome and the IntraLaseTM iFSTM Femtosecond Laser in rabbits. J Refract Surg. 2008;24(9):875-878. REF2014RF0042.
2. Binder PS. JJSV’s new iFSTM Advanced Femtosecond Laser: faster, safer, more versatile. Refract Eyecare. 2008. REF2015RF0045.
3. Guttman C. Accumulating research evidence highlights benefits of fifth-generation IntraLaseTM Femtosecond Laser. Euro Times. 2009;14(2):14. REF2015CT0047.
4. Donnenfeld E. Preservation of corneal innervation with femtosecond laser inverted sidecut flaps. Invest Ophthalmol Vis Sci. 2010 51: E-Abstract 2855. REF2015CT0036.
5. Steinert RF. Using IntraLaseTM to improve penetrating keratoplasty. Refract Eyecare. February 2007. REF2014RF0050.
6. Farid M, Kim M, Steinert RF. Results of penetrating keratoplasty performed with a femtosecond laser zigzag incision initial report. Ophthalmology. 2007;114(12):2208-2212. REF2014RF0049.
7. iFSTM Advanced Femtosecond Laser System - Op. Manual - 0150-0157, current revision.
© Johnson & Johnson Surgical Vision, Inc. 2022.
For healthcare professionals only. Please reference the Instructions for Use for a complete list of Indications and Important Safety Information and contact our specialists in case of any question.
PP2022MLT4214 v2
