Browsing by Author "Weder, Gilles"
Now showing items 1-9 of 9
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ADVANCED DIGITAL TECHNOLOGIES IN LIFE SCIENCES: PHOTONICS AND BEYOND
Paoletti, Samantha; Cattaneo, Stefano; Lecomte, Steve; Verjus, Christophe; Lemay, Mathieu; Volker, Andreas; Weder, Gilles; Revol, Vincent (2022-12-13)CSEM technologies aim to improve the quality of life of patients and make new treatments accessible for all. Life sciences companies’ central role in drug pricing and access to medicines puts them on the frontline of ... -
Coplanar embedding of multiple 3D cell models in hydrogel towards high‑throughput micro‑histology
Heub, Sarah; Navaee, Fatemeh; Migliozzi, Daniel; Ledroit, Diane; Boder-Pasche, Stéphanie; Goldowsky, Jonas; Vuille-dit-Bille, Emilie; Hofer, Joëlle; Gaiser, Carine; Revol, Vincent; Suter-Dick, Laura; Weder, Gilles (2022)Standardised and high-throughput methods have been developed for the production and experimental handling of some 3D in vitro models. However, adapted analytical tools are still missing for scientists and researchers to ... -
Perfusion platform for bioengineered tissues
Boder-Pasche, Stéphanie; Sirugue, Pascaline; Heub, Sarah; Atakan, H. Baris; Goldowsky, Jonas; Ischer, Réal; Ledroit, Diane; Navaee, Fatemeh; Valentin, Thomas M.; Weder, Gilles (2022-07) -
Piezoelectric micromachined ultrasound transducers (PMUTs) for acoustic positioning of suspended microtissues
Vuille-dit-Bille, Emilie; Bayat, Dara; Dubois, Marc-Alexandre; Overstolz, Thomas; Heub, Sarah; Sakar, Selman; Despont, Michel; Weder, Gilles (2022-10-18) -
Symposium on 3D Printing for Life Sciences
Weder, Gilles (2022-06-29) -
A Three-Dimensional Engineered Cardiac In Vitro Model: Controlled Alignment of Cardiomyocytes in 3D Microphysiological Systems
Navaee, Fatemeh; Khornian, Niloofar; Longet, David; Heub, Sarah; Boder-Pasche, Stéphanie; Weder, Gilles; Kleger, Alexander; Renaud, Philippe; Braschler, Thomas (2023-02-10)Cardiomyocyte alignment in myocardium tissue plays a significant role in the physiological, electrical, and mechanical functions of the myocardium. It remains, however, difficult to align cardiac cells in a 3D in vitro ... -
Tools for manipulation and positioning of microtissues
Vuille-dit-Bille, Emilie; Deshmukh, Dhananjay V.; Connolly, Sinead; Heub, Sarah; Boder-Pasche, Stéphanie; Dual, Jürg; Tibbitt, Mark. W.; Weder, Gilles (2022-10)Complex three-dimensional (3D) in vitro models are emerging as a key technology to support research areas in personalised medicine, such as drug development and regenerative medicine. Tools for manipulation and positioning ... -
Toward a Physiologically Relevant 3D Helicoidal-Oriented Cardiac Model: Simultaneous Application of Mechanical Stimulation and Surface Topography
Navaee, Fatemeh; Renaud, Philippe; Piacentini, Niccolo; Durand, Mathilde; Bayat, Dara Zaman; Ledroit, Diane; Boder-Pasche, Stéphanie; Kleger, Alexander; Braschler, Thomas; Weder, Gilles (2023-02-17)Myocardium consists of cardiac cells that interact with their environment through physical, biochemical, and electrical stimulations. The physiology, function, and metabolism of cardiac tissue are affected by this dynamic ... -
Toward the Next Generation of Spine Bioreactors: Validation of an Ex Vivo Intervertebral Disc Organ Model and Customized Specimen Holder for Multiaxial Loading
Secerovic, Amra; Ristaniemi, Aapo; Cui, Shangbin; Li, Zhen; Soubrier, Astrid; Alini, Mauro; Ferguson, Stephen J; Weder, Gilles; Heub, Sarah; Ledroit, Diane; Grad, Sibylle (2022-08)A new generation of bioreactors with integrated six degrees of freedom (6 DOF) aims to mimic more accurately the natural intervertebral disc (IVD) load. We developed and validated in a biological and mechanical study a ...