English

Deep Compressive Macroscopic Fluorescence Lifetime Imaging

Medical Physics 2018-02-23 v2

Abstract

Compressive Macroscopic Fluorescence Lifetime Imaging (MFLI) is a novel technical implementation that enables monitoring multiple molecular interactions in macroscopic scale. Especially, we reported recently on the development of a hyperspectral wide-field time-resolved single-pixel imaging platform that facilitates whole-body in vivo lifetime imaging in less than 14 minutes. However, despite efficient data acquisition, the data processing of a Compressed Sensing (CS) based inversion plus lifetime fitting remain very time consuming. Herein, we propose to investigate the potential of deep learning for fast and accurate image formation. More precisely we developed a Convolutional Neural Network (CNN) called Net-FLICS (Network for Fluorescence Lifetime Imaging with Compressive Sensing) that reconstructs both intensity and lifetime images directly from raw CS measurements. Results show that better quality reconstruction can be obtained using Net-FLICS, for both simulation and experimental dataset, with almost negligible time compared to the traditional analytic methods. This first investigation suggests that Net-FLICS may be a powerful tool to enable CS-based lifetime imaging for real-time applications.

Keywords

Cite

@article{arxiv.1711.06187,
  title  = {Deep Compressive Macroscopic Fluorescence Lifetime Imaging},
  author = {Ruoyang Yao and Marien Ochoa and Xavier Intes and Pingkun Yan},
  journal= {arXiv preprint arXiv:1711.06187},
  year   = {2018}
}

Comments

To present at IEEE ISBI 2018

R2 v1 2026-06-22T22:48:27.067Z