IFS
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COMMITTED TO YOUR PRACTICE SUCCESS Sharing expertise and support from the proven leader • Business Development ❍ In-person and online education—practice-building tools and patient marketing initiatives ❍ Diagnosis and solutions to elevate practice performance • Application Support ❍ On-site surgeon and technician training and support to help improve outcomes by maximizing team skills ❍ Highly skilled application support team and renowned medical monitors— ongoing clinical consultation and analysis to enhance patient outcomes • Field Service Support ❍ Multiple service plans to meet your practice needs—so you can be confident in your system’s performance ❍ 10-time recipient of the Omega Management Group’s Annual NorthFace ScoreBoard Award for consistently exceeding customer expectations REFERENCES 1. Rabinowitz YS. Intacs for keratoconus. Current Opinion in Ophthalmology. 2007 Jul;18(4):279-283. DOI: 10.1097/icu.0b013e3281fc94a5. 2. Lofti AC, et al. Intracorneal ring segments implanted with femtosecond laser can teat keratoconus. OSN US, June 10, 2010. 3. Yu CQ, Manche EE. A comparison of LASIK flap thickness and morphology between the IntraLase® 60- and 150-kHz femtosecond lasers. J Refract Surg. 2014 Dec;30(12):827-30. 4. Donnenfeld E. Preservation of corneal innervation with femtosecond laser inverted sidecut flaps. Invest Ophthalmol Vis Sci. 2010 51: E-Abstract 2855. 5. Knorz MC. Thin-flap LASIK: How thin should we go? CRST Europe. October 2008. 6. Marshall J. Sub-Bowman Keratomileusis vs. conventional LASIK. Paper presented at the ESCRS Annual Meeting; 2007; Stockholm. 7. Probst LE. Circular, elliptical flap comparison takes shape. Ophthalmology Times. July 1, 2013. 8. Probst LE. The next horizon in creating the LASIK flap. CRST. July 2012. 9. Binder PS. AMO’s new iFS® Advanced Femtosecond Laser: faster, safer, more versatile. Refract Eyecare. 2008. 10. Guttman C. Accumulating research evidence highlights benefits of fifth-generation IntraLase® Femtosecond Laser. Euro Times. 2009;14(2):14. 11. Stahl JE, Durrie DS, Schwendeman FJ, Boghossian AJ. Anterior segment OCT analysis of thin IntraLase® femtosecond flaps. J Refract Surg. 2007;23:555-558. 12. Steinert RF. Using IntraLase® to improve penetrating keratoplasty. Refract Eyecare. February 2007. 13. Farid M, Kim M, Steinert RF. Results of penetrating keratoplasty performed with a femtosecond laser zig-zag incision initial report. Ophthalmology. 2007;114(12):2208-2212. 14. Binder PS, Gray B, Brownell M, Martiz J, Gown A, Hill J. Morphology of femtosecond intrastromal arcuate incisions. IOVS. 2012;53,6622. 15. Binder PS. Perfecting clear corneal incisions. CRST. May 2013. © 2020 Johnson & Johnson Surgical Vision, Inc. All other trademarks are intellectual property of their respective owners. PP2020RF4026 A COMPREHENSIVE PLATFORM OF SURGICAL PRECISION INDICATIONS: The iFS® Femtosecond Laser is an ophthalmic surgical laser indicated for use in patients undergoing surgery or treatment requiring initial lamellar resection of the cornea, in treatment requiring initial lamellar resection of the cornea to create tunnels for placement of corneal ring segments, in treatment requiring arcuate cuts/incisions in the cornea, penetrating and/or intrastromal, in lamellar IEK and corneal harvesting, in the creation of a corneal flap in patients undergoing LASIK surgery or other treatment requiring initial lamellar resection of the cornea, in the creation of a lamellar cut/resection of the cornea for lamellar IEK and for the creation of a penetrating cut/incision for penetrating IEK, in treatment requiring the creation of corneal channels for placement/in

PROVEN TECHNOLOGY, RESULTS, AND VERSATILITY Utilized in over 8 million procedures and with over 300 scientific citations to its credit, IntraLase® Technology has a long history of innovation and market leadership. For the iFS® Laser, this standard of excellence means surgeons experience levels of precision and performance that create unmatched confidence in treating patients and maximizing outcomes. The iFS® Laser is modular, ensuring ever-expanding treatment capabilities for today’s demanding patient population. CONTROL AND ACCURACY WITH INTRACORNEAL RING SEGMENTS More precise control in...

CORNEAL CHANNEL CREATION WITH INTUITIVE USER INTERFACE PRECISE LASIK FLAPS Inverted bevel-in side cut, up to 150° Advanced graphical user interface provides you with full control of the inlay channel settings • Increased flap stability and strength postoperatively3 • Fewer signs and symptoms of dry eye than with 30° side cut4 • Results in less strain on the cornea, with little biomechanical change5,6 Parameter adjustments and patient data entry can be conveniently performed on screen Inverted bevel-in side cut, customizable to 150°. PARAMETER SETTING OPTIONS INTUITIVE USER INTERFACE •...

PRECISE CORNEAL INCISIONS (IEK) Precisely shaped edges in multiple configurations (mushroom, zig-zag, Christmas tree, top hat)12 CATARACT INCISIONS WITH GREATER SURGICAL PRECISION Intrastromal and penetrating arcuate incisions • Complete control of angles, placement, and orientations, with micron-level accuracy unmatched by manual blades OCT image of iFS® Laser–created zig-zag pattern erformed SEM image howing the precisely shaped angled edge. s Reproducible grafting of donor and host cornea12,13 • Benefits of improved tissue alignment ❍ ❍ Shaped incisions may be stronger and more...