Volume 41, No. 03, Month MAY, Year 2019, Pages 529 - 538
Simulation of temperature distribution in different human skin types exposed to laser irradiation with different wavelengths and laser irradiation intensities
In modern medical facilities, laser technology is becoming more important in aesthetic and medical applications.
However, inappropriate laser irradiation can result in harmful effects such as thermal burn injury. This occurs because thermal
response of the skin due to laser irradiation is not well understood. In this study, the thermal response of skin to laser radiation
was investigated under the effects of wavelength, laser intensity, and incident time. The transient bioheat model was considered
and solved numerically using the finite element method. This study demonstrated that the skin temperature distribution depends
strongly on the wavelength, intensity, and skin color type. The amount of energy absorption is significantly higher in the shorter
wavelength range and with increasing intensity. Further, a darker skin color results in higher laser absorption. The obtained
values provide an indication of the limitations that must be considered during laser-induced thermotherapy.