Add to ORKGAbstract. Collagen model tissues, consisting of cells embedded in a collagen matrix at different concentrations (of cells and collagen) were analyzed. Rheological properties were measured and complementary confocal microscopy analysis carried out. An important feature, corresponding to the breakdown of the collagen network (i.e., decrease in network elasticity) was observed at high collagen concentrations, due to the presence of cells. Thanks to confocal microscopy, we showed that cells elongated within the gel and could remodel it, this being a concentration-dependent feature. A careful analysis of the remodeling process showed that cells can attract collagen in their close neighborhood, this being an irreversible process and that migratin...
Physical interactions of cells with matrix microenvironments are critical steps in many cellular pro...
\u3cp\u3eCollagen content and organization in developing collagenous tissues can be influenced by lo...
Migration of cells across tissues with diverse biophysical environments plays a crucial role in a wi...
International audienceCollagen model tissues are analyzed, which consist of cells embedded in a coll...
Collagen microstructure is closely related to the mechanical properties of tissues and affects cell ...
Introduction: An attractive alternative to synthetic scaffolds is represented by reconstituted colla...
Contractile cells can reorganize fibrous extracellular matrices and form dense tracts of fibers betw...
Collective cell migration on extracellular matrix (ECM) networks is a key biological process involve...
The mechanical interaction of cells with their surroundings plays a fundamental role in many biolog...
Graduation date:2017The structure and mechanics of tissues affect many important cellular functions ...
Cell spatial remodelling in tensile connective tissue is at the base of fundamental biological proce...
Extracellular matrix (ECM) strongly influences cellular behaviors, including cell proliferation, adh...
We characterize the rheological properties of cell suspensions and tissues. The suspension concentra...
Collagen is the main load-bearing component of many soft tissues and has a large influence on the me...
Physical interactions of cells with matrix microenvironments are critical steps in many cellular pro...
\u3cp\u3eCollagen content and organization in developing collagenous tissues can be influenced by lo...
Migration of cells across tissues with diverse biophysical environments plays a crucial role in a wi...
International audienceCollagen model tissues are analyzed, which consist of cells embedded in a coll...
Collagen microstructure is closely related to the mechanical properties of tissues and affects cell ...
Introduction: An attractive alternative to synthetic scaffolds is represented by reconstituted colla...
Contractile cells can reorganize fibrous extracellular matrices and form dense tracts of fibers betw...
Collective cell migration on extracellular matrix (ECM) networks is a key biological process involve...
The mechanical interaction of cells with their surroundings plays a fundamental role in many biolog...
Graduation date:2017The structure and mechanics of tissues affect many important cellular functions ...
Cell spatial remodelling in tensile connective tissue is at the base of fundamental biological proce...
Extracellular matrix (ECM) strongly influences cellular behaviors, including cell proliferation, adh...
We characterize the rheological properties of cell suspensions and tissues. The suspension concentra...
Collagen is the main load-bearing component of many soft tissues and has a large influence on the me...
Physical interactions of cells with matrix microenvironments are critical steps in many cellular pro...
\u3cp\u3eCollagen content and organization in developing collagenous tissues can be influenced by lo...
Migration of cells across tissues with diverse biophysical environments plays a crucial role in a wi...