Researcher
Hans Van Oosterwyck
- Disciplines:Biomechanics
Affiliations
- BioMechanics (BMe) (Division)
Member
From1 Aug 2020 → Today - Faculty of Engineering Science (Faculty)
Member
From1 Oct 2002 → 31 Dec 2005 - Biomechanics Section (Division)
Member
From1 Oct 2000 → 31 Jul 2020
Projects
1 - 10 of 27
- Cerebral Cavernous Malformations on a chip: integrating microfluidics, cellular force quantification and mechanotransduction pathways for better disease modeling.From1 Oct 2023 → TodayFunding: FWO junior postdoctoral fellowship
- Interrelation between osteoarthritis and forces generated by chondrocytesFrom11 Sep 2023 → TodayFunding: Own budget, for example: patrimony, inscription fees, gifts
- Data-driven 3D Traction Force Microscopy to unravel microvascular disease mechanisms.From1 Oct 2022 → TodayFunding: FWO junior postdoctoral fellowship
- Topochemical design of polysaccharide-based interfaces for the study of cell-surface interactionsFrom1 Oct 2022 → TodayFunding: Own budget, for example: patrimony, inscription fees, gifts
- Mapping the cell and tissue mechanical environment of early osteoarthritis by means of an optical image-based approachFrom22 Mar 2021 → TodayFunding: Own budget, for example: patrimony, inscription fees, gifts
- Rehab-4-earlyOA: Mechanobiology-driven rehabilitation of early osteoarthritis through optimized multi-scale biomechanicsFrom1 Nov 2020 → TodayFunding: Own budget, for example: patrimony, inscription fees, gifts
- Increasing scientific, technological and innovation capacity of Serbia as a Widening country in the domain of multiscale modelling and medical informatics in biomedical engineeringFrom1 Oct 2020 → 30 Sep 2023Funding: H2020 - Health, demographic change and wellbeing
- Rehab-4-earlyOA: Mechanobiology-driven rehabilitation of early osteoarthritis through optimized multi-scale biomechanicsFrom1 Oct 2020 → TodayFunding: BOF - projects
- Investigating the interplay between Cerebral Cavernous Malformations, mechanosensitive ion channels and flow-induced shear stress.From21 Sep 2020 → TodayFunding: Own budget, for example: patrimony, inscription fees, gifts
- Understanding the role of cell-matrix mechanics in angiogenesis using in-vitro bioengineered microenvironmentsFrom1 Jan 2018 → 31 Dec 2021Funding: FWO research project
Publications
1 - 10 of 120
- Hierarchical Biomechanics: Concepts, Bone as Prominent Example, and Perspectives Beyond(2022)
Authors: Bart Smeets, Hans Van Oosterwyck
- Computational Analysis of 3D Cellular Forces with Application to in vitro Models in Mechanobiology(2022)
Authors: Jorge Barrasa Fano, Hans Van Oosterwyck
- Fibrodysplasia Ossificans Progressiva: What Have We Achieved and Where Are We Now? Follow-up to the 2015 Lorentz Workshop(2021)
Authors: Hans Van Oosterwyck
- CCM2-deficient endothelial cells undergo a ROCK-dependent reprogramming into senescence-associated secretory phenotype(2021)
Authors: Apeksha Shapeti, Hans Van Oosterwyck
Pages: 843 - 860 - TFMLAB: a MATLAB toolbox for 4D Traction Force Microscopy(2021)
Authors: Jorge Barrasa Fano, Apeksha Shapeti, Mojtaba Barzegari Shankil, Hans Van Oosterwyck
Pages: 1 - 9 - Actuation enhances patterning in human neural tube organoids(2021)
Authors: Gregorius Andika Rustandi, Benjamin Gorissen, Kristofer Davie, Catherine Verfaillie, Maurilio Sampaolesi, Peter Dedecker, Hans Van Oosterwyck, Stein Aerts, Adrian Ranga
- Advanced in silico validation framework for three-dimensional Traction Force Microscopy and application to an in vitro model of sprouting angiogenesis(2021)
Authors: Jorge Barrasa Fano, Apeksha Shapeti, Janne de Jong, Adrian Ranga, Hans Van Oosterwyck
Pages: 326 - 338 - Chlorite oxidized oxyamylose differentially influences the microstructure of fibrin and self assembling peptide hydrogels as well as dental pulp stem cell behavior(2021)
Authors: Mostafa Ezeldeen, Nick Smisdom, Olivier Deschaume, Carmen Bartic, Hans Van Oosterwyck, Reinhilde Jacobs
- Patterned dextran ester films as a tailorable cell culture platform(2021)
Authors: Armen Tchobanian, Frederik Ceyssens, Mar Cóndor Salgado, Hans Van Oosterwyck, Pedro Fardim
- Inverse method based on 3D nonlinear physically constrained minimisation in the framework of traction force microscopy(2020)
Authors: Jorge Barrasa Fano, Hans Van Oosterwyck
Pages: 10210 - 10222