The objective of this study was to investigate the effects of two lasers (Er:YAG and CO2) in enhancing skin permeation of three vitamin C derivatives, L-ascorbic acid 2-phosphate sesquimagnesium salt (MAP-1), magnesium L-ascorbic acid-2-phosphate (MAP-2), and 2-phospho-L-ascorbic acid trisodium salt (SAP). Dorsal skin of 1-week-old pathogen-free pigs was used for this in vitro study. Changes in permeation in laser-treated skin treated by the lasers were examined by confocal scanning electron microscopy. Transdermal flux of vitamin C derivatives was examined with a Franz diffusion cell. Fluxes of MAP-1, MAP-2, and SAP across Er:YAG laser-treated skin were 15-27-fold, 48-123-fold, and 22-56-fold higher, respectively, than their fluxes across intact skin. The fluxes of MAP-1, MAP-2, and SAP across CO2 laser-treated skin were 28-36-fold, 116-156-fold, and 79-102-fold higher, respectively, than their fluxes across intact skin. Optimal fluency for the Er:YAG laser was 3.8 J/cm(2) for MAP-1 and 5 J/cm(2) for MAP-2 and SAP. Optimal fluency for the CO2 laser was 5 W for all three derivatives. In conclusion, optimal fluency for all derivatives was 5 W for the CO2 laser and 3.8 to 5 J/cm(2) for the Er:YAG laser.