Do We Really Need to Wear Proper Eye Protection When Using Holmium:YAG Laser During Endourologic Procedures? Results from an Ex Vivo Animal Model on Pig Eyes.

PURPOSE We sought to evaluate the effect of holmium:yttrium-aluminum-garnet (Ho:YAG) laser exposure on ex vivo pig eyes and to test the protective action of different glasses in preventing eye lesions in case of accident. MATERIALS AND METHODS We pointed the tip of a Ho:YAG laser fiber from different distances (0, 3, 5, 8, 10, and 20 cm, respectively) toward the center of the pupil of the pig eye. The Ho:YAG laser was activated for 1 or 5 seconds at three different settings (0.5 J-20 Hz, 1 J-10 Hz, and 2 J-10 Hz, respectively). The experiment was repeated using laser safety glasses and eyeglasses. A total of 78 pig eyes were used. The effects of the Ho:YAG laser on pig eyes were assessed by histopathology. Comparable laser emission experiments were performed on thermal paper at different distances using different pulse energies. RESULTS Ho:YAG laser-induced corneal lesions were observed in unprotected eyes, ranging from superficial burning lesions to full-thickness necrotic areas, and were directly related to pulse energy and time of exposure and inversely related to the distance from the eye. When the laser was placed 5 cm or more, no corneal damage was observed regardless of the laser setting and the time of exposure. Similar distance/energy level relationships were observed on thermal paper. No damage was observed to the lens or the retina in any of the Ho-YAG laser-treated eyes or in any of the eyes protected by laser safety and eyeglasses. CONCLUSIONS Ho:YAG lasers can cause damage when set to high energy, but only to the cornea, from close distances (0-5 cm) and in the absence of eye protection. Eyeglasses are equally effective in preventing laser damage as laser safety glasses.

[1]  T. Knoll,et al.  EAU Guidelines on Interventional Treatment for Urolithiasis. , 2016, European Urology.

[2]  Olivier Traxer,et al.  Update on lasers in urology 2014: current assessment on holmium:yttrium–aluminum–garnet (Ho:YAG) laser lithotripter settings and laser fibers , 2015, World Journal of Urology.

[3]  Olivier Traxer,et al.  Are we all doing it wrong? Influence of stripping and cleaving methods of laser fibers on laser lithotripsy performance. , 2015, The Journal of urology.

[4]  Olivier Traxer,et al.  In vitro fragmentation efficiency of holmium: yttrium‐aluminum‐garnet (YAG) laser lithotripsy – a comprehensive study encompassing different frequencies, pulse energies, total power levels and laser fibre diameters , 2014, BJU international.

[5]  M. Elhilali,et al.  Adverse events resulting from lasers used in urology. , 2014, Journal of endourology.

[6]  A. Berrocal,et al.  Accidental Nd:YAG laser-induced macular hole in a pediatric patient. , 2013, Ophthalmic surgery, lasers & imaging retina.

[7]  T. Köhler,et al.  Ocular radiation exposure in modern urological practice. , 2013, The Journal of urology.

[8]  Richard Sylvester,et al.  European guidelines on upper tract urothelial carcinomas: 2013 update. , 2013, European urology.

[9]  O. Traxer,et al.  V1718 LASER FIBERS, PULSE ENERGY AND RETROPULSION - WHAT WE CAN SEE AND WHAT WE CAN'T , 2013 .

[10]  U. Nagele,et al.  EAU guidelines on laser technologies. , 2012, European urology.

[11]  Bingqing Wang,et al.  Optimal power settings for Holmium:YAG lithotripsy. , 2012, The Journal of urology.

[12]  D. Archer,et al.  Immunohistochemical study of pig retinal development , 2009, Molecular vision.

[13]  Peter M. G. Munro,et al.  Real-time in vivo imaging of retinal cell apoptosis after laser exposure. , 2008, Investigative ophthalmology & visual science.

[14]  J. Lenoir,et al.  Effectiveness of high-frequency holmium:YAG laser stone fragmentation: the "popcorn effect". , 2008, Journal of endourology.

[15]  Thorsten Bach,et al.  Technical aspects of lasers in urology , 2007, World Journal of Urology.

[16]  G. Rocha,et al.  Two-year follow-up of noncontact holmium laser thermokeratoplasty for the correction of low hyperopia. , 2003, Canadian journal of ophthalmology. Journal canadien d'ophtalmologie.

[17]  J. Teichman,et al.  Holmium: YAG lithotripsy: optimal power settings. , 1999, Journal of endourology.

[18]  J. T. Yates,et al.  Color vision deficits during laser lithotripsy using safety goggles for coumarin green or alexandrite but not with holmium:YAG laser safety goggles. , 1998, The Journal of urology.

[19]  A. Moritz,et al.  Studies of Thermal Injury: I. The Conduction of Heat to and through Skin and the Temperatures Attained Therein. A Theoretical and an Experimental Investigation. , 1947, The American journal of pathology.

[20]  Penny J Smalley,et al.  Laser safety: Risks, hazards, and control measures. , 2011, Laser therapy.

[21]  TRUNK RENEWAL,et al.  Technical data sheet , 2003 .

[22]  A. Deutman,et al.  Treatment of hyperopia with contact Ho:YAG laser thermal keratoplasty. , 1999, Journal of refractive surgery.