Multiphoton excitation fluorescence microscopy and spectroscopy of in vivo human skin

Multiphoton excitation microscopy at 730 nm and 960 nm was used to image in vivo human skin autofluorescence from the surface to a depth of similar to 200 mu m. The emission spectra and fluorescence lifetime images were obtained at selected locations near the surface (0-50 mu m) and at deeper depths (100-150 mu m) for both excitation wavelengths, Cell borders and cell nuclei were the prominent structures observed, The spectroscopic data suggest that reduced pyridine nucleotides, NAD(P)H, are the primary source of the skin autofluorescence at 730 nm excitation, With 960 nm excitation, a two-photon fluorescence emission at 520 nm indicates the presence of a variable, position-dependent intensity component of flavoprotein, A second fluorescence emission component, which starts at 425 nm, is observed with 960-nm excitation. Such fluorescence emission at wavelengths less than half the excitation wavelength suggests an excitation process involving three or more photons, This conjecture is further confirmed by the observation of the super-quadratic dependence of the fluorescence intensity on the excitation power, Further work is required to spectroscopically identify these emitting species, This study demonstrates the use of multiphoton excitation microscopy for functional imaging of the metabolic states of in vivo human skin cells.