CO2 fractional laser, as an ablative fractional laser, is commonly used in cosmetic treatment. We applied CO2 fractional laser irradiation to skin in vitro and used reflectance confocal microscopy (RCM) to image and detect the presence of any non-ablative, micro-ablative and ablative effects, in order to better understand the features of a CO2 fractional laser. In vitro irradiation of foreskin was performed using a CO2 fractional laser. Foreskin specimens were divided into 4 groups that received different amounts of irradiation energy, based on the number of irradiation passes they received: 5, 10, 15, and 20 passes, respectively. This corresponds to fluence energy of 16.3, 32.6, 48.9, 65.3 J/cm2. Immediately after irradiation, digital microscopy (DM), RCM, and histopathology were performed to observe whether the non-ablative, micro-ablative, and ablative phenomenon occurred, and the injury features of MTZs. Immediately after CO2 fractional laser irradiation, RCM and DM showed that when the numbers of passes were 5 and 10, a micro-ablative column (MAC) could not be observed or was very small. We mainly observed a thicker thermal coagulation zone (TCZ), representing non-ablative or micro-ablative effects. When the number of passes were increased to 15 and 20, the MAC was significantly enlarged and surrounded by a TCZ of medium thickness, representing ablative effects. For the first time, this study used RCM and DM to demonstrate that a CO2 fractional laser could achieve non-ablative, micro-ablative, and ablative effects on irradiated skin via different energy levels.

KEYWORDS:CO2 fractional laser; Digital microscopy (DM); Micro-ablative; Microscopic treatment zone (MTZ); Non-ablative; Reflectance confocal microscopy (RCM)

PMID: 31845041 DOI: 10.1007/s10103-019-02910-5