Diffraction phase microscopy: retrieving phase contours on living cells with a wavelet-based space-scale analysis.

Publication details

Overview

Citation, authorship and indexing details for this publication.

Journal Article

Published

Authors

Martinez-Torres C, Berguiga L, Streppa L, Boyer-Provera E, Schaeffer L, Elezgaray J, Arneodo A, Argoul F

Journal

J Biomed Opt 2014 Mar; 19(3): 36007

Journal of biomedical optics

DOI

10.1117/1.JBO.19.3.036007

Open DOI

PMID

24615643

Open PubMed

ISSN

1560-2281

Scientific fields

Acetylcholine receptor chromatin Cytoskeleton disorders Exosomes Gene expression Histones muscle stem cells Neuromuscular Neuromuscular junction PI3K/mTOR Signalling Striated muscles

Members

Laurent Schaeffer

Teams

Nerve-muscle interactions

Summary

We propose a two-dimensional (2-D) space-scale analysis of fringe patterns collected from a diffraction phase microscope based on the 2-D Morlet wavelet transform. We show that the adaptation of a ridge detection method with anisotropic 2-D Morlet mother wavelets is more efficient for analyzing cellular and high refractive index contrast objects than Fourier filtering methods since it can separate phase from intensity modulations. We compare the performance of this ridge detection method on theoretical and experimental images of polymer microbeads and experimental images collected from living myoblasts.