Researcher
Charlotte Debbaut
- Keywords:hemodynamics, drug delivery, computational biofluid mechanics, Personalized treatment planning, planning tools, organ perfusion, computationele oncologie, tumor perfusion
- Disciplines:Biomedical image processing, Biomedical modelling, Device biomechanics, Cancer therapy , Biomedical instrumentation, Biofluid mechanics, Image-guided interventions, Cell, tissue and organ engineering, Interventional radiology, Tissue and organ biomechanics
Affiliations
- Department of Electronics and information systems (Department)
Member
From1 Oct 2013 → Today - Department of Civil engineering (Department)
Member
From17 Aug 2009 → 30 Sep 2013
Projects
1 - 7 of 7
- Patient-Specific Planning of Transarterial Drug Delivery for Liver Cancer: Modelling Drug Particle Transport and Catheter AccessibilityFrom1 Nov 2020 → TodayFunding: FWO Strategic Basic Research Grant
- Computational biomechanics as a tool for personalised medicineFrom20 Nov 2019 → TodayFunding: BOF - projects
- Design and fabrication of a new implantable piezoelectric micropump for the treatment and management of lymphedemaFrom1 Jan 2019 → 31 Dec 2020Funding: FWO Strategic Basic Research Grant
- Characterization of biophysical stromal properties in human cancer: towards personalized computational oncologyFrom1 Jan 2019 → 31 Dec 2021Funding: FWO research project
- Numerical Modeling of the Drug Carrier Transport for Targeted Drug Delivery in Liver CancerFrom1 Oct 2017 → 30 Sep 2020Funding: FWO fellowships
- Targeted drug delivery systems for liver cancer:fluid mechanical insights to optimize treatment efficacyFrom1 Oct 2014 → 30 Sep 2017Funding: BOF - Other initiatives
- 3D reconstruction and macro / micro modeling of the flow through the human liver and kidney for the optimization of perfusion preservation for transplantation organsFrom1 Oct 2010 → 5 Jan 2016Funding: IWT personal funding - specialisation scholarships
Publications
1 - 10 of 116
- Biomechanical aspects of the normal and cancer-associated lymphatic system(2022)
Authors: Wim Ceelen, Hooman Salavati, Ghazal Adeli Koudehi, Carlos Alejandro Silvera Delgado, Patrick Segers, Charlotte Debbaut
Pages: 21 - 41 - Experiment-based 3D modelling of lymph uptake and transport.(2022)
Authors: Ghazal Adeli Koudehi, Carlos Alejandro Silvera Delgado, Matthias Van Impe, Pieter Cornillie, Christophe Casteleyn, Christian Vanhove, Winnok De Vos, Michael Davis, Charlotte Debbaut, Patrick Segers
Number of pages: 1 - Computational investigation of the effective forces on droplets during electrostatic precipitation pressurized intraperitoneal aerosol chemotherapy (ePIPAC)(2022)
Authors: Mohammad Rahimi Gorji, Charlotte Debbaut, Ghader Ghorbaniasl, Sarah Cosyns, Wouter Willaert, Wim Ceelen
Number of pages: 1 - Optimization of intraperitoneal aerosolized drug delivery using computational fluid dynamics (CFD) modeling(2022)
Authors: Mohammad Rahimi Gorji, Charlotte Debbaut, Ghader Ghorbaniasl, Sarah Cosyns, Wouter Willaert, Wim Ceelen
Number of pages: 1 - Towards the biomimetic design of hollow fiber membrane bioreactors for bioartificial organs and tissue engineering : a micro-computed tomography (U+03BCCT) approach(2022)
Authors: Giuseppe Falvo D'Urso Labate, Thomas De Schryver, Francesco Baino, Charlotte Debbaut, Gionata Fragomeni, Chiara Vitale-Brovarone, Luc Van Hoorebeke, Patrick Segers, Matthieu Boone, Gerardo Catapano
Number of pages: 1 - A novel method for measuring the hydraulic conductivity of tumor tissue(2021)
Authors: Hooman Salavati, Charlotte Debbaut, Wilhelmus Pullens, Wim Ceelen
Number of pages: 1 - Resistance to intraperitoneal drug delivery and heterogeneity of peritoneal metastasis : the role of hydraulic conductivity(2021)
Authors: Hooman Salavati, Charlotte Debbaut, Wilhelmus Pullens, Wim Ceelen
Number of pages: 1 - Point-of-care 3D printing : a low-cost approach to teaching carotid artery stenting(2021)
Authors: Pieter De Backer, Charlotte Allaeys, Charlotte Debbaut, Roel Beelen
Number of pages: 1 - Interstitial fluid pressure and hydraulic conductivity in solid tumors : introducing an in-vitro method for measuring the hydraulic conductivity of tumor tissue(2021)
Authors: Hooman Salavati, Charlotte Debbaut, Wilhelmus Pullens, Wim Ceelen
Number of pages: 1 - In vitro study of aerosol droplet impact on the peritoneal surface after nebulization using the CapnoPen device(2021)
Authors: Mohammad Rahimi Gorji, Stéphane Dorbolo, Sarah Cosyns, Charlotte Debbaut, Ghader Ghorbaniasl, Wouter Willaert, Wim Ceelen
Pages: 79 - 79