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JM

Jean-Louis Milan

12
Documents
Identifiants chercheurs

Présentation

I have begun developing computational modelling of cytoskeleton dynamics to understand how the cells adapt their structure to their environment. I have succeed in proposing mechanisms of cell adhesion and cell migration guided by substrate shape. Based on these results of our models that reproduced observed phenomenon on static cellular environment, I have built the idea of upgrading the models into avatars of cell to develop strategies for tissue engineering based on in silico live predicting tool that a are able to guide cell functions into dynamic cellular environments.

Publications

mvassaux
Image document

IN SILICO AVATARS OF CELLS TO PREDICT CELL MIGRATION ON TRAVELLING WAVES

Jean-Louis Milan , Maxime Vassaux , Laurent Pieuchot , Karine Anselme , Ian Manifacier
18th International Symposium on Computer Methods in Biomechanics and Biomedical Engineering, CMBBE, Jun 2023, Paris, France
Communication dans un congrès hal-04463371v1

Avatars in silico pour prédire et piloter la migration des cellules sur des vagues de surface

Jean-Louis Milan , Maxime Vassaux , Laurent Pieuchot , Karine Anselme , Ian Manifacier
RITS (Recherche en Imagerie et Technologies pour la Santé) 2022, SFGBM (Société Française du Génie Biologique et Médical), May 2022, Brest, France
Communication dans un congrès hal-04463374v1

In silico avatars of cells to predict cell migration on travelling waves

Jean-Louis Milan , Maxime Vassaux , Laurent Pieuchot , Karine Anselme , Ian Manifacier
9th World Congress of Biomechanics, WCB, Jul 2022, Taipei, Thailand
Communication dans un congrès hal-04463373v1
Image document

Developing in silico avatars of cells to predict and drive cell migration on travelling waves

Jean-Louis Milan , Maxime Vassaux , Laurent Pieuchot , Karine Anselme , Ian Manifacier
European Congress of Biomechanics, Jun 2022, Porto, Portugal
Communication dans un congrès hal-04463347v1

Curvature-dependent mesenchymal cells and epithelial tissue migration and orientation

Laurent Pieuchot , Pablo Rougerie , Maxime Vassaux , Julie Marteau , Pierre-François Chauvy
Interface Biology of Implants IBI 2019, May 2019, Rostock, Germany
Communication dans un congrès hal-02175659v1

La curvotaxie ou comment la migration des cellules est dirigée par la courbure de leur environnement

Laurent Pieuchot , Maxime Vassaux , Alain Guignandon , Julie Marteau , Jean-Louis Milan
Matériaux 2018, Nov 2018, Strasbourg, France
Communication dans un congrès hal-02188974v1

How cells surf the waves? Curvotaxis directs migration trough cell-scale natural landscapes

Laurent Pieuchot , Maxime Vassaux , Julie Marteau , Thomas Cloatre , Tatiana Petithory
American Society for Cell Biology C.1 Materials, Surfaces and Interfaces for Medical Applications and Health, Dec 2016, San Francisco, United States
Communication dans un congrès hal-02175663v1
Image document

Designing Optimal Scaffold Topographies to Promote Nucleus-Guided Mechanosensitive Cell Migration Using in Silico Models

Maxime Vassaux , Laurent Pieuchot , Karine Anselme , Maxence Bigerelle , Jean-Louis Milan
Bilen Emek Abali; Ivan Giorgio. Developments and Novel Approaches in Biomechanics and Metamaterials, 132, Springer International Publishing, pp.199-216, 2020, Advanced Structured Materials, 978-3-030-50464-9. ⟨10.1007/978-3-030-50464-9_12⟩
Chapitre d'ouvrage hal-03475182v1