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- 2023
- Truncation strategies for personalized CFD models of selective liver radioembolization (2023) 18th International Symposium on Computer Methods in Biomechanics and Biomedical Engineering (CMBBE 2023), Abstracts.
- 2022
- A hybrid particle-flow CFD modeling approach in truncated hepatic arterial trees for liver radioembolization : a patient-specific case study (2022) FRONTIERS IN BIOENGINEERING AND BIOTECHNOLOGY. 10.
- Assessment of hepatic arterial hemodynamics with 4D flow MRI : in vitro analysis of motion and spatial resolution related error and in vivo feasibility study in 20 volunteers (2022) EUROPEAN RADIOLOGY. 32(12). p.8639-8648
- Numerical modelling in support of locoregional drug delivery during transarterial therapies for liver cancer (2022) Modelling of mass transport processes in biological media. p.259-286
- The impact of injection timing, injection velocity and inflow waveform on microsphere transport during liver radioembolization (2022) CMBE22 7th International Conference on Computational & Mathematical Biomedical Engineering Vol. 1. In International Conference on Computational & Mathematical Biomedical Engineering p.381-384
- Computational fluids dynamics to investigate the impact of injection timing and location on microsphere and microbubble distribution in a simplified hepatic arterial tree (2022) 9th World Conference of Biomechanics, Abstracts.
- Computational modelling of liver hemodynamics and intrahepatic particle transport (2022) 9th World Conference of Biomechanics, Abstracts.
- The future of preoperative planning for liver cancer : from CT-scan in the 20th century to computational model in the 21st century (2022) Faculty of Engineering and Architecture Research Symposium 2022 (FEARS 2022), Abstracts.
- The impact of catheter location on tumor dose distribution for liver cancer radioembolization (2022) OncoPoint Symposium, 8th, Abstracts.
- The impact of hepatic arterial tree complexity on microparticle transport in computational fluids dynamics simulations of radioembolization for hepatocellular carcinoma (2022) WCB 2022, 9th World Congress of Biomechanics, Abstract book.
- 2021
- Transarterial drug delivery for liver cancer : numerical simulations and experimental validation of particle distribution in patient-specific livers (2021) EXPERT OPINION ON DRUG DELIVERY. 18(3). p.409-422
- Comparing time-efficient particle release maps for liver tumor targeting with embolizing microparticles (2021) ESBiomech 2021, 26thCongress of the European Society of Biomechanics, Abstracts.
- Evaluating the impact of catheter type on local hemodynamics to improve transarterial liver cancer treatments (2021) OncoDot.3 symposium, Abstracts.
- Proof-of-concept CFD model to improve hepatic arterial tree recellularization protocols (2021) ESAO 2021, the 47th Annual Conference of the European Society for Artificial Organs (ESAO), Uniting scientific minds towards lasting artificial organs, Abstracts.
- The impact of injection timing and location on microparticle delivery for tumor targeting in a patient-specific liver (2021) 2021 Summer Biomechanics, Bioengineering, and Biotransport Conference, Proceedings Book. p.124-125
- 2020
- Computational fluid dynamics as a tool for patient-specific injection planning of transarterial therapies for hepatocellular carcinoma (2020) OncoDot.1 symposium, Abstracts.
- Locoregional drug delivery for liver cancer : the impact of tumor burden on the particle distribution in a patient-specific liver (2020) VPH2020, Book of Abstracts. p.623-624
- Targeted drug delivery for liver cancer : can we steer microparticles towards tumor tissue? (2020) BACR Annual Meeting 2020, Abstracts.
- Targeted drug delivery for liver cancer : modelling the impact of cancer burden on the particle distribution (2020) Belgian Association for Cancer Research, Annual meeting, Abstracts.
- 2019
- Targeted drug delivery for liver cancer : the impact of cancer burden on the particle distribution in a patient-specific geometry (2019) 18th National Day on Biomedical Engineering : Artificial Intelligence in Medicine, Abstracts.