Elastic fibers are key constituents of the skin. The commonly adopted optical technique for visualizing elastic fibers in the animal skin in vivo is 2-photon microscopy (2 PM) of autofluorescence, which typically suffers from low signal level. Here we demonstrate a new optical methodology to image elastic fibers in animal models in vivo: 3-photon microscopy (3 PM) excited at the 1700-nm window combining with preferential labeling of elastic fibers using sulforhodamine B (SRB). First, we demonstrate that intravenous injection of SRB can circumvent the skin barrier (encountered in topical application) and preferentially label elastic fibers, as verified by simultaneous 2 PM of both autofluorescence and SRB fluorescence from skin structures. Then through 3-photon excitation property characterization, we show that 3-photon fluorescence can be excited from SRB at the 1700-nm window, and 1600-nm excitation is most efficient according to our 3-photon action cross section measurement. Based on these results and using our developed 1600-nm femtosecond laser source, we finally demonstrate 3 PM of SRB-labeled elastic fibers through the whole dermis in the mouse skin in vivo, with only 3.7-mW optical power deposited on the skin surface. We expect our methodology will provide novel optical solution to elastic fiber research.
Keywords: 1700-nm window; 3-photon fluorescence microscopy; elastic fiber; sulforhodamine B.
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