3D microtissue-derived human stem cells seeded on electrospun nanocomposites under shear stress: Modulation of gene expression

Article ID	Journal	Published Year	Pages	File Type
13453450	Journal of the Mechanical Behavior of Biomedical Materials	2020	8 Pages	PDF

Abstract

Osteogenic and angiogenic commitments were more pronounced in MT-derived ASCs seeded on bone biomimetic electrospun nanocomposite PLGA/aCaP than in SCs seeded without induction medium. Furthermore, the static culture was superior to the perfusion regimen used here, as shear stress resulted in adipogenic commitment for MT-derived ASCs and SCs, although the YAP nuclear-to-cytoplasmic ratio indicated higher cell tensions under perfusion, usually associated with preferred osteogenic differentiation.

Keywords

Osteogenesis Stiffness Adipose-derived stem cell Amorphous calcium phosphate yes-associated protein Composite

Related Topics

Physical Sciences and Engineering Engineering Biomedical Engineering

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3D microtissue-derived human stem cells seeded on electrospun nanocomposites under shear stress: Modulation of gene expression

Authors

Isabelle Schneider, Walter Baumgartner, Olivier Gröninger, Wendelin J. Stark, Sonja Märsmann, Maurizio Calcagni, Paolo Cinelli, Petra Wolint, Johanna Buschmann,