Imaging bacterial 3D motion using digital in-line holographic microscopy and correlation-based de-noising algorithm

Better understanding of bacteria environment interactions in the context of biofilm formation requires accurate 3-dimentional measurements of bacteria motility. Digital Holographic Microscopy (DHM) has demonstrated its capability in resolving 3D distribution and mobility of particulates in a dense suspension. Due to their low scattering efficiency, bacteria are substantially difficult to be imaged by DHM. In this paper, we introduce a novel correlation-based de-noising algorithm to remove the background noise and enhance the quality of the hologram. Implemented in conjunction with DHM, we demonstrate that the method allows DHM to resolve 3-D E. coli bacteria locations of a dense suspension (>10(7) cells/ml) with submicron resolutions (<0.5 mu m) over substantial depth and to obtain thousands of 3D cell trajectories. (c) 2014 Optical Society of America