Amanda M. Peterson scite author profile

Lasers with ultrashort pulse durations have become ubiquitous in various applications, including ocular surgery. Therefore, we need to consider the role of nonlinear optical effects, such as supercontinuum generation during propagation within the ocular media, when evaluating their potential hazard. We used a NIR femtosecond laser to generate a supercontinuum within an artificial eye. We recorded the visible spectra of the supercontinuum generated and calculated the energy contained within the visible band. Our results indicate that for wavelengths between 1350 nm and 1450 nm the energy contained within the visible band of the generated white light supercontinuum may surpass current safety exposure limits, and pose a risk of injury to the retina.

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Optical properties of porcine skin and subcutaneous tissue following various methods of cold storage

DeLisi

Peterson

Tijerina

et al. 2022

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Suprathreshold laser injuries in excised porcine skin for millisecond exposures at 1070 nm

et al. 2018

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Skin injury response to near-infrared (NIR) laser radiation between the minimum visible lesion threshold and ablation onset is not well understood. This study utilizes a 1070-nm diode-pumped Yb-fiber laser to explore the response of excised porcine skin to high-energy exposures in the suprathreshold injury region without inducing ablation. Concurrent high-speed videography is employed to determine a dichotomous response for three progressive damage categories: observable surface distortion, surface bubble formation due to contained intracutaneous water vaporization, and surface bubble rupture during exposure. Median effective dose (ED 50 ) values are calculated in these categories for 3-and 100-ms pulses with beam diameters (1∕e 2 ) of 3 mm (28, 35, and 49 J∕cm 2 ) and 7 mm (96, 141, and 212 J∕cm 2 ), respectively. Double-pulse cases are secondarily investigated. Experimental data are compared with the maximum permissible exposure limits and ablation onset simulated by a one-dimensional multiphysics model. Logistic regression analysis predicted injury events with ∼90% of accuracy. The distinction of skin response into progressive damage categories expands the current understanding of high-energy laser safety while underlining the unique biophysical effects during induced water phase change in tissue. These results prove to be useful in the diagnosis and treatment of NIR laser injuries.

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Multiple-pulse skin damage thresholds at 1070 NM

Lisi¹,

Boretsky²,

Schmidt³

et al. 2017

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