Dr. Anne Bonnin

Photo_ProfilBonnin
Photo_ProfilBonnin

Beamline Scientist at the TOMCAT Beamline

Paul Scherrer Institute
Forschungsstrasse 111
5232 Villigen PSI
Suisse
Téléphone


During my PhD at the INSA de Lyon (France), I studied the physical properties of materials in order to discriminate explosive to common materials (see my PhD here). Then, I spent four years in the X-ray imaging group at the European Synchrotron Radiation Facility (Grenoble, France). After a first post-doc in collaboration between the CEA-Cadarache and  the ID22Ni beamline, where I gained experience in X-ray diffraction and X-ray phase contrast tomography, I was NSF Research Fellow for a project linking the Harvard University and the ID19 beamline of ESRF. In April 2014, I joined the X-ray Tomography Group at PSI as scientific collaborator in the Phase Contrast core of the CIBM (EPFL). Since January 2016, I am Beamline Scientist at the TOMCAT Beamline. (See also my Linkedin Profile.)

Specialized in X-ray imaging (micro and nano-tomography, single-distance phase-retrieval) and powder diffraction (XRD-CT), my research interest focuses on developing new imaging methods to characterize materials and understand their behavior. Since 2014, I am in charge of the TOMCAT nanoscope. This full field imaging setup allows to get a 3D spatial resolution around 150 nm between 8-20 keV on sample of ˜70µm2. The setup can be used for absorption or phase contrast imaging. In this case, Zernike Phase Contrast (ZPC) is exploited to enhance contrast for phase objects. As local contact, I collaborate with international researchers material sciences related (e.g. nuclear materials, explosives identification, cement hydration , ...) as well as paleontology (hominid dental microstructure , fossil as rock slabs) and biomedical applications (cardiac imaging, middle-ear bones study, whole mouse brain vasculature investigations). Since 2016, I lead the Heart Imaging Project. The main goal of this international project is to quantify the cardiac macro and micro-structure using synchrotron based X-ray Phase Contrast Imaging (X-PCI). We aim at providing new insights of the cardiac morphology at micrometre scale, non-destructively, without the use of contrast agents and in 3D. With the high resolution provided by X-PCI, we can have access for instance on the myofibres arrangement, vessels and trabeculation organization, and how they change with disease. Those informations are crucial for future clinical applications, not only to understand heart remodelling and the different patterns in cardiovascular disease, but also to provide more personalized and adapted treatments. For this purpose, we are developing dedicated acquisition methodology but also new analysis techniques based on Machine Learning algorithms.

For an extensive overview we kindly refer you to our publication repository DORA.

Synchrotron radiation imaging revealing the sub-micron structure of the auditory Ossicles
Anschuetz L, Demattè M, Pica A, Wimmer W, Caversaccio M and Bonnin A, Hearing Research. 2019; 383: 107806

Comprehensive analysis of animal models of cardiovascular disease using multiscale X-ray phase contrast tomography
Dejea H, Garcia-Canadilla P, Cook AC, Guasch E, Zamora M, Crispi F, Stampanoni M, Bijnens B and Bonnin A, Scientific Reports. 2019; 9(1): 6996

Synchrotron X-ray phase contrast imaging and deep neural networks for cardiac collagen quantification in hypertensive rat model
Dejea H, Tanner C, Achanta R, Stampanoni M, Perez-Cruz F, Konukoglu E and Bonnin A. FIMH 2019, Bordeaux, France, June 6-8, 2019, Proceedings. Vol. 11504. Lecture notes in computer science. Cham: Springer; 2019

NRStitcher: non-rigid stitching of terapixel-scale volumetric images
Miettinen A, Oikonomidis IV, Bonnin A. and Stampanoni M, Bioinformatics. 2019: btz423

X-ray Fourier ptychography,
Wakonig K, Diaz A, Bonnin A, Stampanoni M, Bergamaschi A, Ihli J, Guizar-Sicairos M and Menzel A, Science Advances. 2019; 5(2): eaav0282

An up-to-date publication list can be found in my publons account.