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

DeLisi, Michael P.; Peterson, Amanda M.; Lile, Lily A.; Noojin, Gary D.; Shingledecker, Aurora D.; Stolarski, David J.; Oian, Chad A.; Kumru, Semih S.; Thomas, Robert J.

doi:10.1117/1.jbo.23.12.125001

Cited by 2 publications

(1 citation statement)

References 37 publications

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“…Subsequent studies also explored the 1060-nm wavelength for both human and porcine subjects, for 1-s 4,5 and 0.2-to 0.3-s 6,7 exposures. A recent study by Vincelette et al 8 determined the contribution of beam diameter to porcine skin MVL thresholds for 1070-nm laser exposure durations ranging from 10 ms to 10 s. DeLisi et al 9 further investigated skin injury response to 1070-nm lasers but at suprathreshold endpoints for 3-and 100-ms exposures in excised porcine tissue. Cain et al 10 and Montes de Oca et al 11 presented porcine skin MVL thresholds for light near 1315 nm and pulse durations of 0.35 ms, whereas Oliver et al 12 provided thresholds at 1319 nm for exposure durations of 0.25, 1, 2.5, and 10 s. Several porcine skin MVL threshold studies for 1540-nm laser are available, including for 30-ns, 13,14 0.6-, 13 0.8-, 15 and 60-ms pulses.…”

Section: Introductionmentioning

confidence: 99%

Thermal damage thresholds for multiple-pulse porcine skin laser exposures at 1070 nm

DeLisi¹,

Schmidt

Hoffman

et al. 2019

J. Biomed. Opt.

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As solid-state laser technology continues to mature, high-energy lasers operating in the near-infrared (NIR) band have seen increased utilization in manufacturing, medical, and military applications. Formulations of maximum permissible exposure limits establish guidelines for the safe use of these systems for a given set of laser parameters, based on past experimental and analytical studies of exposure thresholds causing injury to the skin and eyes. The purpose of our study is to characterize the skin response to multiple-pulsed laser exposures at the NIR wavelength of 1070 nm, at a constant beam diameter of 1 cm, using anesthetized Yucatan mini-pig subjects. Our study explores three constant total laser-on times of 0.01, 0.1, and 10 s as single-and multiplepulse sequences. Exposures consisting of 10, 30, and 100 pulses have identical individual pulse durations but different duty cycles in order to include variable degrees of thermal additivity. A plurality of three observers quantifies skin damage with the minimally visible lesion metric, judged at the 1-and 24-h intervals postexposure. Calculation of the median effective dose (ED 50) provides injury thresholds for all exposure conditions, based on varying laser power across subjects. The results of this study will provide a quantitative basis for the incorporation of multiple-pulsed laser exposure into standards and augment data contained in the existing ED 50 database.

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Section: Introductionmentioning

confidence: 99%

Thermal damage thresholds for multiple-pulse porcine skin laser exposures at 1070 nm

DeLisi¹,

Schmidt

Hoffman

et al. 2019

J. Biomed. Opt.

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Human laser skin dose-response model

Ahmed,

Early,

Lund

et al. 2023

ILSC 2023: Proceedings of the International Laser Safety Conference

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The increased use of high-power (tens of kilowatts) laser systems in numerous applications drives the need for a generalized human dose-response model for skin injuries to achieve improved fidelity for risk assessment. Advancing the probabilistic approach to assess the risk of potential laser induced skin injury allows for a quantitative analysis of uncertainty and variability. This understanding should improve the assignment of exposure limits and protective approaches. In the present study, we developed a human dose-response model for laser induced skin injuries. It consists of three sub-models; one for the mean effective dose, one for variability of the mean effective dose, and one for the angle of incidence. The mean effective dose model is a generalized form for a minimum visible lesion (MVL) threshold achieved by scaling the maximum permissible exposure in the ANSI Z136.1 standard across all applicable wavelengths, exposure durations, and injury types. The variability model accounts for differences in skin spectral absorption between humans and uncertainties in scaling for the mean effective dose, and the angle of incidence model assimilates the effects of incident angle variability into the probability of injury. Use of the dose-response parameter models (mean, variability, and incident angle) for calculating a probability of injury is detailed and comparison with empirical data is illustrated.

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

Cited by 2 publications

References 37 publications

Thermal damage thresholds for multiple-pulse porcine skin laser exposures at 1070 nm

Thermal damage thresholds for multiple-pulse porcine skin laser exposures at 1070 nm

Human laser skin dose-response model

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