Wide-field fluorescence lifetime imaging with optical sectioning and spectral resolution applied to biological samples

Abstract. Wide-field fluorescence lifetime imaging with spectral resolution and optical sectioning has been performed to achieve five-dimensional fluorescence microscopy. Spectral filtering has been shown to have the potential to provide functional information about biological tissue by simultaneously measuring the spectral/lifetime signature of the sample. The potential to use multispectral imaging to separate cellular components spatially by their different emission wavelengths has also been demonstrated thus reducing artefacts in the calculated lifetime maps. The instrument is based on diode-pumped solid-state laser technology and an ultrafast gated optical image intensifier. Also reported is the use of a picosecond blue laser diode as the excitation source to produce a fluorescence lifetime microscope with a footprint of less than 0.25m².