Bioimaging: Processing and Analysis of Digital Biological Images

Acquisition of skills that enable the student to correctly visualize and interpret biological images and obtain quantitative data. Automation of tasks using the ImageJ macro language.

1/ Describe and explain the theoretical bases of digital image interpretation: digital image, image formats, spatial sampling, convolution and deconvolution functions, periodic and non-periodic signals, filters, quantification (segmentation, grain size densitometry, contrast calculation, signal-to-noise ratio determination, image correlation theory, statistical approaches for co-location analysis, Fourier analysis).

2/ Explain the basic principles of 3D reconstruction: image combination, back projection methods, iterative methods.

3/ Use ImageJ (Fiji) to perform channels splitting and merging, segmentation by thresholding, densitometry, granulometry, quantification on protein/DNA gels and microscopy images, deconvolution, intracellular co-localization, filters, periodic signals, projection simulation, 3D reconstruction on projected data, macro language programming with user interface, 3D rendering.

4/ Master scientific argumentation (evidence against points of view: reasoning, facts, examples).


no prerequisites


Digital Image Processing, W. Burger and M.J. Burge, Springer (2nd Edition)

This course will be running for one-week full time. Each new concept will be immediately put into practice on concrete examples using computers and ImageJ / Fiji software. Active learning methodology (Jean Piaget, John Dewey and Kurt Lewin) by combining maieutic educational methods, and debate (Oscar Brenifier) and spiral learning (J.C. Bruner)