Address
Inria Research Team MONCInstitut de Mathématiques de Bordeaux (CNRS UMR 5251)
351 Cours de la Libération
33405 Talence, France
Phone: (+33) 05-4000-2127
Fax: (+33) 05-4000-2117
Affiliations
InriaUniversity of Bordeaux
Institute of Mathematics of Bordeaux (CNRS UMR 5251)
Links
Inria Research Team MONCWelcome to my webpage!
I am senior research scientist (Directeur de Recherche) at Inria Bordeaux-Sud Ouest, head of the research team MONC previsouly led by Dr. Olivier Saut . Between 2017 and 2019, I led the Inria associate team Num4SEP, which gathered F.Gibou's research group at UCSB and the team MONC on HPC strategies for spheroids electroporation.
Research Profile
My research first dealt with asymptotic analysis of singular or
asymptotically singular domains for electromagnetism. Since 2008,
I work on the mathematical modeling of electroporation
as cancer treatment at
Inria Bordeaux in the research team MONC. This subject with a high potential impact on
cancer treatments combines electric field and biological tissue
modeling. I am also involved in cell migration and tumor spheroid
modeling and more generally in
cancer growth modeling.
My work mainly lies in the field of applied and computational
mathematics, with effective applications in biophysics and
medicine.
Representative Research Publications
If you want to figure out my current research activities, here are some publications that are somehow representative.
- O. Gallinato, B. Denis de Senneville, O. Séror, C. Poignard. Numerical workflow of irreversible electroporation for deep-seated tumor. Phys. Med. Biol., Vol. 64, (2019).
- D.Voyer, A. Silve, L.M. Mir R. Scorretti, C. Poignard. Dynamical modeling of tissue electroporation. Bioelectrochemistry, Vol. 119, (2018).
- M. Leguèbe, A. Silve, L.M. Mir, C. Poignard. "Conducting and Permeable States Membrane Submitted to High Voltage Pulses. Mathematical and Numerical Studies Validated by the Experiments". Pulished on-line in Jnl. Th. Biol. (2014). DOI.
- M. Deville, R. Natalini, C. Poignard. A Continuum Mechanics Model of Enzyme-Based Tissue Degradation in Cancer Therapies. Bull. Math. Biol., (2018).
- G. Dechristé, J. Fehrenbach, E. Griseti, V. Lobjois, C. Poignard. Viscoelastic modeling of the fusion of multicellular tumor spheroids in growth phase. Jnl. Th. Biol., Vol. 454, (2018).
News
- The project granted by Plan Cancer MECI has started in february 2022 for 3 year (600k€), with the Cellular biophysics team of IPBS, the Interventional Radiology unit of AP-HP, Avicenne and the Radiology and nuclear medicine service of the University hospital of Poitiers.
- The project "NEPA" has joined the Bernouilli lab in 2022.