Browsing by Author "Navaee, Fatemeh"
Now showing items 1-4 of 4
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)
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 ...
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 ...