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Accumulative Difference Image Protocol for Particle Tracking in Fluorescence Microscopy Tested in Mouse Lymphonodes

Author

Listed:
  • Carlo E Villa
  • Michele Caccia
  • Laura Sironi
  • Laura D'Alfonso
  • Maddalena Collini
  • Ilaria Rivolta
  • Giuseppe Miserocchi
  • Tatiana Gorletta
  • Ivan Zanoni
  • Francesca Granucci
  • Giuseppe Chirico

Abstract

The basic research in cell biology and in medical sciences makes large use of imaging tools mainly based on confocal fluorescence and, more recently, on non-linear excitation microscopy. Substantially the aim is the recognition of selected targets in the image and their tracking in time. We have developed a particle tracking algorithm optimized for low signal/noise images with a minimum set of requirements on the target size and with no a priori knowledge of the type of motion. The image segmentation, based on a combination of size sensitive filters, does not rely on edge detection and is tailored for targets acquired at low resolution as in most of the in-vivo studies. The particle tracking is performed by building, from a stack of Accumulative Difference Images, a single 2D image in which the motion of the whole set of the particles is coded in time by a color level. This algorithm, tested here on solid-lipid nanoparticles diffusing within cells and on lymphocytes diffusing in lymphonodes, appears to be particularly useful for the cellular and the in-vivo microscopy image processing in which few a priori assumption on the type, the extent and the variability of particle motions, can be done.

Suggested Citation

  • Carlo E Villa & Michele Caccia & Laura Sironi & Laura D'Alfonso & Maddalena Collini & Ilaria Rivolta & Giuseppe Miserocchi & Tatiana Gorletta & Ivan Zanoni & Francesca Granucci & Giuseppe Chirico, 2010. "Accumulative Difference Image Protocol for Particle Tracking in Fluorescence Microscopy Tested in Mouse Lymphonodes," PLOS ONE, Public Library of Science, vol. 5(8), pages 1-13, August.
  • Handle: RePEc:plo:pone00:0012216
    DOI: 10.1371/journal.pone.0012216
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    1. Jonne Helenius & Gary Brouhard & Yannis Kalaidzidis & Stefan Diez & Jonathon Howard, 2006. "The depolymerizing kinesin MCAK uses lattice diffusion to rapidly target microtubule ends," Nature, Nature, vol. 441(7089), pages 115-119, May.
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