%0 Journal Article
%T Layer-shaped alginate hydrogels enhance the biological performance of human adipose-derived stem cells
%A Bianca Galateanu
%A Doina Dimonie
%A Eugeniu Vasile
%A Sorin Nae
%A Anisoara Cimpean
%A Marieta Costache
%J BMC Biotechnology
%D 2012
%I BioMed Central
%R 10.1186/1472-6750-12-35
%X Culture-expanded cells isolated from the stromal vascular fraction (SVF), corresponding to the third passage which showed the expression of mesenchymal stem cell (MSC) markers, were used in the 3-D culture systems. The latter represented a calcium alginate hydrogel, obtained by the diffusion of calcium gluconate (CGH matrix), and shaped as discoid-thin layer. For comparative purposes, a similar hADSC-laden alginate hydrogel cross-linked with calcium chloride was considered as reference hydrogel (RH matrix). Both hydrogels showed a porous structure under scanning electron microscopy (SEM) and the hADSCs embedded displayed normal spherical morphologies, some of them showing signs of mitosis. More than 85% of the entrapped cells survived throughout the incubation period of 7£¿days. The percentage of viable cells was significantly higher within CGH matrix at 2£¿days post-seeding, and approximately similar within both hydrogels after 7£¿days of culture. Moreover, both alginate-based hydrogels stimulated cell proliferation. The number of hADSC within hydrogels has increased during the incubation period of 7£¿days and was higher in the case of CGH matrix. Cells grown under adipogenic conditions for 21£¿days showed that both analyzed 3-D culture systems support adipogenic differentiation in terms of neutral lipid accumulation and perillipin expression. Furthermore, the cells encapsulated in CGH matrix displayed a more differentiated phenotype.The results of this study suggest that both CGH and RH matrices successfully support the survival and adipogenesis of hADSC. An enhancement of biological performance was detected in the case of CGH matrix, suggesting its promising application in ATE.
%K Adipose tissue engineering
%K hADSCs
%K Alginate hydrogel
%K 3-D culture
%K Adipogenesis
%K Viability
%U http://www.biomedcentral.com/1472-6750/12/35/abstract