| People | Locations | Statistics |
|---|---|---|
| Naji, M. |
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| Motta, Antonella |
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| Aletan, Dirar |
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| Mohamed, Tarek |
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| Ertürk, Emre |
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| Taccardi, Nicola |
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| Kononenko, Denys |
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| Petrov, R. H. | Madrid |
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| Alshaaer, Mazen | Brussels |
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| Bih, L. |
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| Casati, R. |
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| Muller, Hermance |
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| Kočí, Jan | Prague |
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| Šuljagić, Marija |
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| Kalteremidou, Kalliopi-Artemi | Brussels |
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| Azam, Siraj |
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| Ospanova, Alyiya |
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| Blanpain, Bart |
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| Ali, M. A. |
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| Popa, V. |
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| Rančić, M. |
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| Ollier, Nadège |
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| Azevedo, Nuno Monteiro |
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| Landes, Michael |
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| Rignanese, Gian-Marco |
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Den Toonder, Jaap M. J.
Eindhoven University of Technology
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (27/27 displayed)
- 2023Fully Transparent, Ultrathin Flexible Organic Electrochemical Transistors with Additive Integration for Bioelectronic Applicationscitations
- 2023Single Hydrogel Particle Mechanics and Dynamics Studied by Combining Capillary Micromechanics with Osmotic Compressioncitations
- 2023Round lumen-based microfluidic devices for modelling cancer metastasis
- 2023Nanomagnetic Elastomers for Realizing Highly Responsive Micro- and Nanosystemscitations
- 2023Nanomagnetic Elastomers for Realizing Highly Responsive Micro- and Nanosystemscitations
- 2022A Prototype System with Custom-Designed RX ICs for Contrast-Enhanced Ultrasound Imagingcitations
- 2017Microfluidic magnetic bead conveyor beltcitations
- 2017Magnetofluidic conveyor belt
- 2014Monocytic cells become less compressible but more deformable upon activationcitations
- 2012Magnetically actuated artificial cilia : the effect of fluid inertiacitations
- 2011Magnetically-actuated artificial cilia for microfluidic propulsioncitations
- 2009Numerical simulation of flat-tip micro-indentation of glassy polymers: influence of loading speed and thermodynamic statecitations
- 2007Micro-mechanical testing of SiLK by nanoindentation and substrate curvature techniquescitations
- 2006Indentation: the experimenter's holy grail for small-scale polymer characterization?
- 2006Buckle morphology of compressed inorganic thin layers on a polymer substratecitations
- 2005Viscoelastic characterization of low-dielectric-constant SiLK films using nano-indentation in combination with finite element modelingcitations
- 2005Finite thickness influence on spherical and conical indentation on viscoelastic thin polymer filmcitations
- 2005On factors affecting the extraction of elastic modulus by nanoindentation of organic polymer filmscitations
- 2004Mechanical characterization of SiLK by nanoindentation and substrate curvature techniquescitations
- 2004Optimization of mechanical properties of thin free-standing metal films for RF-MEMScitations
- 2004Optimization of mechanical properties of thin free-standing metal films for RF-MEMScitations
- 2003Residual stresses in multilayer ceramic capacitors: measurement and computationcitations
- 2003Influence of visco-elasticity of low-k dielectrics on thermo-mechanical behavior of dual damascene processcitations
- 2002Fracture toughness and adhesion energy of sol-gel coatings on glasscitations
- 2002Measuring mechanical properties of coatings : a methodology applied to nano-particle-filled sol-gel coatings on glasscitations
- 2000Determination of the elastic modulus and hardness of sol-gel coatings on glass: influence of indenter geometrycitations
- 2000The effect of friction on scratch adhesion testing : application to a sol-gel coating on polypropylenecitations
Places of action
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document
Round lumen-based microfluidic devices for modelling cancer metastasis
Abstract
Most cancer related deaths are not caused directly by primary tumor, but by secondary tumors formed through metastasis to other organs. Metastasis is a complex cascade that we poorly understand due to the limitations of current in-vitro models. Hence, we focus on modeling cancer metastasis on chip, via introducing the relevant physiological factors in the tumor microenvironment (TME). To bring current chip devices one step closer to correct morphology (e.g. of (micro)vessels, and breast-duct) in TME, we fabricate round luminal channels. For this, we exploit different techniques, such as 3D sugar-printing, needle casting and femtosecond laser (FSL) to form lumens either in hydrogel or PDMS. <br/>In 3D sugar-printing technique, sugar glass is printed as fibers and cast in surrounding material (unpolymerized hydrogel, or synthetic polymers); the sugar glass is selectively dissolved after polymerization of surrounding material, that results in interconnected perfusable lumens. We also achieved this with micro-needle technique; The needle removal after hydrogel polymerization, left behind a lumen. For the fabrication of smaller dimension interconnected lumens, we utilized FSL technique.FSL beam can induce strong absorption in glass, that induces internal modification; Following wet chemical etching removes modified material, leaving behind lumens.<br/>When the lumens are seeded with endothelial cells, they form the (micro)vasculature. Combined with a neighboring lumen for cancer cell culture, the process of cancer invasion, migration through ECM, and intravasation can be studied. Up until now, we could mimic breast duct, blood, and lymphatic micro-vessels on chip using luminal channels. Cell-cell tight junctions were present, as a basis for further study of metastatic cascade. We are currently generating human B-cell lymphoma-on-chip as an innovative model to investigate dissemination of malignant B-cells. In the middle channel of a three inter-connected lumina device, we culture fibroblastic reticular cells (FRCs) in a collagen/fibrin hydrogel. When the FRCs have formed a network, diffuse large B-cell lymphoma cells (DLBCL) are added in one of side channels. We could observe DLBCL migration into the FRC-containing hydrogel, which was specific for some DLBCL subtypes. In future work, we will incorporate vessels in TME to study metastasis.<br/>