Cooperation of Biological and Mechanical Signals in Cardiac Progenitor Cell Differentiation | Zendy

Pagliari Stefania | Zendy; VilelaSilva Ana Cristina | Zendy; Forte Giancarlo | Zendy; Pagliari Francesca | Zendy; Mandoli Corrado | Zendy; Vozzi Giovanni | Zendy; Pietronave Stefano | Zendy; Prat Maria | Zendy; Licoccia Silvia | Zendy; Ahluwalia Arti | Zendy; Traversa Enrico | Zendy; Minieri Marilena | Zendy; Di Nardo Paolo | Zendy

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Cooperation of Biological and Mechanical Signals in Cardiac Progenitor Cell Differentiation

Author(s) -

Pagliari Stefania,

VilelaSilva Ana Cristina,

Forte Giancarlo,

Pagliari Francesca,

Mandoli Corrado,

Vozzi Giovanni,

Pietronave Stefano,

Prat Maria,

Licoccia Silvia,

Ahluwalia Arti,

Traversa Enrico,

Minieri Marilena,

Di Nardo Paolo

Publication year - 2011

Publication title -

advanced materials

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 10.707

H-Index - 527

eISSN - 1521-4095

pISSN - 0935-9648

DOI - 10.1002/adma.201003479

Subject(s) - materials science , progenitor cell , myocyte , stem cell , cardiac muscle , adhesion , niche , nanotechnology , cell , microbiology and biotechnology , biomedical engineering , biology , anatomy , biochemistry , composite material , medicine

Three‐dimensional cardiac tissue‐specific scaffolds made of poly‐lactic acid (PLA) have an ordered array of square pores reproducing anisotropic cardiac‐like stiffness. The mechano‐physical features of the scaffolds favor cardiomyocyte adhesion and survival and combined with biological signals released by neonatal cardiomyocytes can accelerate cardiac stem cell differentiation by emulating in vitro cardiac niche.

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