Documento Fuente
Soft Matter, 2012,8, 3239-3249
Resumen
This work explores cell behavior as a function of the topographic (fibers vs. films) and bioactive (RGD inclusion) design of multifunctional surfaces obtained from elastin-like recombinamers (ELRs). The surfaces have been analyzed for their differential roughness, wettability, and surface free-energy, as their precise contribution and importance of controlling critical aspects of cell behavior were investigated. The results suggest that the highest proliferative capacity of cells on the highly hydrophilic surfaces is more closely related to the surface properties than to the presence of adhesion sequences, although they act as an accelerating factor. However, on energetically unfavorable surfaces, bioactivity acquires decisive significance in ensuring cell adhesion and proliferation.
Patrocinador
We acknowledge financial support from the EU through the European Regional Development Fund (ERDF), from the MICINN (projects MAT 2007-66275-C02-01, MAT 2009-14195-C03-03, MAT-2010-15982, and MAT2010-15310), the JCyL (projects VA034A09 and VA030A08), the CIBER-BBN (project CB06-01-0003), and the JCyL and the Instituto de Salud Carlos III under the “Network Center of Regenerative Medicine and Cellular Therapy of Castilla and León”.
