, Tumor ablation with irreversible electroporation, PLOS ONE, vol.2, pp.1-8, 2007.
URL : https://hal.archives-ouvertes.fr/hal-00319574
, Simulation of floating potentials in industrial applications by boundary element methods, J. Math. Ind, vol.4, p.13, 2014.
, Electrochemotherapy, a new antitumor treatment: first clinical phase I/II trial, Cancer, vol.72, pp.3694-700, 1993.
, Irreversible electroporation of the pancreas: definitive local therapy without systemic effects, J. Surg. Oncol, vol.104, pp.22-28, 2011.
, Non-linear steady-state electrical current modeling for the electropermeabilization of biological tissue, IEEE Trans. Magn, vol.51, pp.1-4, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01153095
, Electrochemotherapy with bleomycin induces hallmarks of immunogenic cell death in murine colon cancer cells, OncoImmunology, vol.3, p.28131, 2014.
, An evaluation of irreversible electroporation thresholds in human prostate cancer and potential correlations to physiological measurements, APL Bioeng, vol.1, p.16101, 2017.
, Contrast enhancement patterns after irreversible electroporation: experimental study of ct perfusion correlated to histopathology in normal porcine liver, J. Vasc. Intervent. Radiol, vol.27, pp.104-111, 2016.
, A luenberger observer for reaction-diffusion models with front position data, J. Comput. Phys, vol.300, pp.288-307, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01111675
, Real time electroporation control for accurate and safe in vivo non-viral gene therapy, Bioelectrochemistry, vol.70, pp.501-507, 2007.
URL : https://hal.archives-ouvertes.fr/hal-00158987
, Implications and considerations of thermal effects when applying irreversible electroporation tissue ablation therapy, Prostate, vol.75, pp.1114-1118, 2015.
, Theoretical analysis of the thermal effects during in vivo tissue electroporation, Bioelectrochemistry, vol.61, pp.99-107, 2003.
URL : https://hal.archives-ouvertes.fr/hal-00320022
, Tissue Ablation with Irreversible Electroporation, Ann. Biomed. Eng, vol.33, pp.223-231, 2005.
, Evolution: an edge-based variational method for non-rigid multimodal image registration, Phys. Med. Biol, vol.61, pp.7377-7396, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01365989
, In vivo results of a new focal tissue ablation technique: irreversible electroporation, IEEE Trans. Biomed. Eng, vol.53, pp.1409-1415, 2006.
URL : https://hal.archives-ouvertes.fr/hal-00093280
, Towards solid tumor treatment by irreversible electroporation: intrinsic redistribution of fields and currents in tissue, Technol. Cancer Res. Treatment, vol.6, pp.261-273, 2007.
, A non-oscillatory eulerian approach to interfaces in multimaterial flows (the ghost fluid method), J. Comput. Phys, vol.152, pp.457-492, 1999.
, The dielectric properties of biological tissues: I. literature survey, Phys. Med. Biol, vol.41, p.2231, 1996.
, The dielectric properties of biological tissues: II. Measurements in the frequency range 10 Hz to 20 GHz, Phys. Med. Biol, vol.41, p.2251, 1996.
, Numerical workflow of irreversible electroporation for deepseated tumor, Phys. Med. Biol, vol.64, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02063020
, Free boundary problem for cell protrusion formations: theoretical and numerical aspects, J. Math. Biol, vol.75, pp.263-307, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01228013
, IRENA: a Finite Volume Method based software for the numerical assessment of clinical IRE
, Vascular reactions to in vivo electroporation: characterization and consequences for drug and gene delivery, Biochim. Biophys. Acta, vol.1569, pp.51-58, 2002.
, Electrical conductivity measurement of excised human metastatic liver tumours before and after thermal ablation, Physiolog. Measur, vol.30, pp.459-466, 2009.
, In vivo electrical conductivity of hepatic tumours. Physiolog. Measur, vol.24, p.251, 2003.
, In vivo electrical conductivity measurements during and after tumor electroporation: conductivity changes reflect the treatment outcome, Phys. Med. Biol, vol.54, pp.5949-5963, 2009.
, Electric field redistribution due to conductivity changes during tissue electroporation: experiments with a simple vegetal model, In World Congress on Medical Physics and Biomedical Engineering, pp.59-62, 2009.
, Electrical modeling of the influence of medium conductivity on electroporation, Phys. Chem. Chem. Phys, vol.12, pp.10055-10064, 2010.
, Response of a single cell to an external electric field, Biophys. J, vol.66, pp.1768-1776, 1994.
, Uncertainty quantification in irreversible electroporation simulations, Bioengineering, vol.4, p.41, 2017.
, Dynamic finite-element model for efficient modelling of electric currents in electroporated tissue, Sci. Rep, vol.6, p.26409, 2016.
, Conducting and permeable states of cell membrane submitted to high voltage pulses: Mathematical and numerical studies validated by the experiments, J. Theor. Biol, vol.360, 2014.
, Joint state and parameter estimation for distributed mechanical systems, Comput. Methods Appl. Mech. Eng, vol.197, pp.659-677, 2008.
URL : https://hal.archives-ouvertes.fr/hal-00175623
, Reduced-order unscented kalman filtering with application to parameter identification in largedimensional systems, ESAIM: COCV, vol.17, pp.380-405, 2011.
URL : https://hal.archives-ouvertes.fr/inria-00550104
, In vivo irreversible electroporation kidney ablation: experimentally correlated numerical models, IEEE Trans. Biomed. Eng, vol.62, pp.561-569, 2015.
, Experimental characterization and numerical modeling of tissue electrical conductivity during pulsed electric fields for irreversible electroporation treatment planning, IEEE Trans. Biomed. Eng, vol.59, pp.1076-1085, 2012.
, In vivo characterization and numerical simulation of prostate properties for non-thermal irreversible electroporation ablation: characterized and simulated prostate IRE, Prostate, vol.74, pp.458-468, 2014.
, Irreversible electroporation in patients with hepatocellular carcinoma: immediate versus delayed findings at MR imaging, Radiology, vol.278, pp.285-294, 2015.
, Efficacy of irreversible electroporation in human pancreatic adenocarcinoma: advanced murine model, Mol. Therapy Methods Clin. Dev, vol.2, 2015.
, Time-dependent finite element analysis of in vivo electrochemotherapy treatment, Technol. Cancer Res. Treatment, vol.17, p.1533033818790510, 2018.
, Ex vivo electrical impedance measurements on excised hepatic tissue from human patients with metastatic colorectal cancer, Physiol. Measur, vol.36, pp.315-328, 2015.
, Irreversible electroporation: a new ablation modality-clinical implications, Technol. Cancer Res. Treatment, vol.6, pp.37-48, 2007.
, Efficient Visual Recognition Using the Hausdorff Distance, 1996.
, Sequential finite element model of tissue electropermeabilization, Trans. Biomed. Eng, vol.52, pp.816-827, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00319701
, Irreversible electroporation: disappearance of observable changes at imaging does not always imply complete reversibility of the underlying causal tissue changes, Radiology, vol.282, 2017.
, Vascular disrupting action of electroporation and electrochemotherapy with bleomycin in murine sarcoma, Br. J. Cancer, vol.98, pp.388-398, 2008.
, Safety and efficacy of irreversible electroporation for the treatment of hepatocellular carcinoma not amenable to thermal ablation techniques: a retrospective single-center case series, Radiology, vol.284, pp.877-886, 2017.
, Real-time 3d virtual target fluoroscopic display for challenging hepatocellular carcinoma ablations using cone beam CT, Technol. Cancer Res. Treat, vol.17, 2018.
, Introduction to irreversible electroporation-principles and techniques, Tech. Vasc. Interv. Radiol, vol.18, pp.128-134, 2015.
, Dynamical modeling of tissue electroporation, Bioelectrochemistry, vol.119, pp.98-110, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01598846