Porcine skin visible lesion thresholds for near-infrared lasers including modeling at two pulse durations and spot sizes

With the advent of such systems as the airborne laser and advanced tactical laser, high-energy lasers that use 1315-nm wavelengths in the near-infrared band will soon present a new laser safety challenge to armed forces and civilian populations. Experiments in nonhuman primates using this wavelength...

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Bibliographic Details
Published inJournal of biomedical optics Vol. 11; no. 4; p. 041109
Main Authors Cain, C P, Polhamus, G D, Roach, W P, Stolarski, D J, Schuster, K J, Stockton, K L, Rockwell, B A, Chen, Bo, Welch, A J
Format Journal Article
LanguageEnglish
Published United States 01.07.2006
Subjects
Animals
Burns - etiology
Burns - pathology
Burns - physiopathology
Computer Simulation
Differential Threshold - radiation effects
Dose-Response Relationship, Radiation
In Vitro Techniques
Infrared Rays - adverse effects
Lasers - adverse effects
Models, Biological
Radiation Dosage
Radiation Injuries - etiology
Radiation Injuries - pathology
Radiation Injuries - physiopathology
Risk Assessment - methods
Risk Factors
Skin - injuries
Skin - pathology
Skin - radiation effects
Skin Temperature - radiation effects
Swine
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Summary:With the advent of such systems as the airborne laser and advanced tactical laser, high-energy lasers that use 1315-nm wavelengths in the near-infrared band will soon present a new laser safety challenge to armed forces and civilian populations. Experiments in nonhuman primates using this wavelength have demonstrated a range of ocular injuries, including corneal, lenticular, and retinal lesions as a function of pulse duration. American National Standards Institute (ANSI) laser safety standards have traditionally been based on experimental data, and there is scant data for this wavelength. We are reporting minimum visible lesion (MVL) threshold measurements using a porcine skin model for two different pulse durations and spot sizes for this wavelength. We also compare our measurements to results from our model based on the heat transfer equation and rate process equation, together with actual temperature measurements on the skin surface using a high-speed infrared camera. Our MVL-ED50 thresholds for long pulses (350 micros) at 24-h postexposure are measured to be 99 and 83 J cm(-2) for spot sizes of 0.7 and 1.3 mm diam, respectively. Q-switched laser pulses of 50 ns have a lower threshold of 11 J cm(-2) for a 5-mm-diam top-hat laser pulse.
ISSN:1083-3668
1560-2281
DOI:10.1117/1.2338815