Thermal response of human skin epidermis in different skin types to 595-nm laser irradiation and cryogen spray cooling: an ex-vivo study

摘要

Improved laser treatment of port wine stains is expected by utilizing higher incident dosages, longer pulse durations, and longer wavelengths than those currently used in clinical settings. However, higher incident dosages also increase the risk of nonspecific thermal injury to the epidermis. Using ex-vivo human skin samples, we investigated the thermal response of human skin epidermis in different skin types to 595-nm wavelength laser irradiation at high incident dosages (up to 20 J/cm~2) and long pulse durations (1.5 to 40 milliseconds) in conjunction with cryogen spray cooling (CSC). Human skin samples (Fitzpatrick types Ⅰ-Ⅵ) from consenting adult females undergoing trans-rectus abdominis myocutaneoues flap procedures were irradiated at the incident dosages D_0=4, 6, 10, 15, and 20 J/cm~2, pulse durations τ_(laser)=1.5, 10, and 40 milliseconds without and with CSC (Refrigerant-134A, spurt duration τ_(CSC)=100 milliseconds). Thermal injury to the epidermis was evaluated by histological observations. Experimental results showed that thermal injury to the epidermis could not be avoided in skin type Ⅵ even at D_0=4 J/cm~2 in conjunction with CSC. However, CSC allowed utilization of high incident dosages (15-20 J/cm~2) in skin types Ⅰ-Ⅵ.