Intravital two-photon microscopy enables monitoring of cellular dynamics and communication of complex systems, in genuine environment-the living organism. Particularly, its application in understanding the immune system brought unique insights into pathophysiologic processes in vivo. Here we present a method to achieve multiplexed dynamic intravital two-photon imaging by using a synergistic strategy combining a spectrally broad range of fluorophore emissions, a wave-mixing concept for simultaneous excitation of all targeted fluorophores, and an effective unmixing algorithm based on the calculation of spectral similarities with previously acquired fluorophore fingerprints. Our unmixing algorithm allows us to distinguish 7 fluorophore signals corresponding to various cellular and tissue compartments by using only four detector channels.
Keywords: Fluorescing proteins; Intravital imaging; Multiphoton microscopy; Near-infrared fluorescent dyes; Optical parametric oscillator; Similarity unmixing; Two-color two-photon excitation.
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