Journal of Innovative Optical Health Sciences (Sep 2019)

Fast fluorescence lifetime imaging techniques: A review on challenge and development

  • Xiongbo Liu,
  • Danying Lin,
  • Wolfgang Becker,
  • Jingjing Niu,
  • Bin Yu,
  • Liwei Liu,
  • Junle Qu

DOI
https://doi.org/10.1142/S1793545819300039
Journal volume & issue
Vol. 12, no. 5
pp. 1930003-1 – 1930003-27

Abstract

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Fluorescence lifetime imaging microscopy (FLIM) is increasingly used in biomedicine, material science, chemistry, and other related research fields, because of its advantages of high specificity and sensitivity in monitoring cellular microenvironments, studying interaction between proteins, metabolic state, screening drugs and analyzing their efficacy, characterizing novel materials, and diagnosing early cancers. Understandably, there is a large interest in obtaining FLIM data within an acquisition time as short as possible. Consequently, there is currently a technology that advances towards faster and faster FLIM recording. However, the maximum speed of a recording technique is only part of the problem. The acquisition time of a FLIM image is a complex function of many factors. These include the photon rate that can be obtained from the sample, the amount of information a technique extracts from the decay functions, the efficiency at which it determines fluorescence decay parameters from the recorded photons, the demands for the accuracy of these parameters, the number of pixels, and the lateral and axial resolutions that are obtained in biological materials. Starting from a discussion of the parameters which determine the acquisition time, this review will describe existing and emerging FLIM techniques and data analysis algorithms, and analyze their performance and recording speed in biological and biomedical applications.

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