TY - CHAP T1 - {Inherently Bio-Active Scaffolds: Intelligent Constructs to Model the Stem Cell Niche} T2 - Myocardial Tissue Engineering Y1 - 2011 A1 - P. Di Nardo A1 - M. Minieri A1 - Tirella, A A1 - G. Forte A1 - A. Ahluwalia ED - Boccaccini, A. R. ED - Harding, S. E. KW - Bioengineering AB -

The oft-abused phrase “genes load the gun, environment pulls the trigger” can be applied to stem cells and stem cell niches as well as to cell–material interfaces. Much is known about cell–material interaction in general, perhaps a little less about how these interactions condition cell phenotype. With the increasing interest in stem cells and, in particular, their applications in tissue regeneration, the regulation of the stem cell microenvironment through modulation of intuitive or smart materials and structures, or what we term IBAS (Inherently Bio-Active Scaffolds) is poised to become a major field of research. Here, we discuss how cardiac regeneration strategies have undergone a gradual shift from the emphasis on biochemical signals and basic biology to one in which the material or scaffold plays a major role in establishing an equilibrium state. From being a constant battle or tug-of-war between the cells and synthetic environments, we conceive IBAS as intuitively responding to the cell’s requirements to instate a sort of equilibrium in the system.

JF - Myocardial Tissue Engineering T3 - Studies in Mechanobiology, Tissue Engineering and Biomaterials PB - Springer Berlin Heidelberg CY - Berlin, Heidelberg VL - 6 SN - 978-3-642-18055-2 UR - http://www.springerlink.com/content/j3k541l113233424/ ER -