Title of article
Nanofiber density determines endothelial cell behavior on hydrogel matrix
Author/Authors
Berti، نويسنده , , Fernanda V. and Rambo، نويسنده , , Carlos R. and Dias، نويسنده , , Paulo F. and Porto، نويسنده , , Luismar M. and Sprenger، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2013
Pages
8
From page
4684
To page
4691
Abstract
When cultured under static conditions, bacterial cellulose pellicles, by the nature of the polymer synthesis that involves molecular oxygen, are characterized by two distinct surface sides. The upper surface is denser in fibers (entangled) than the lower surface that shows greater surface porosity. Human umbilical vein endothelial cells (HUVECs) were used to exploit how the microarchitecture (i.e., surface porosity, fiber network structure, surface topology, and fiber density) of bacterial cellulose pellicle surfaces influence cell–biomaterial interaction and therefore cell behavior. Adhesion, cell ingrowth, proliferation, viability and cell death mechanisms were evaluated on the two pellicle surface sides. Cell behavior, including secondary necrosis, is influenced only by the microarchitecture of the surface, since the biomaterial is extremely pure (constituted of cellulose and water only). Cell–cellulose fiber interaction is the determinant signal in the cell–biomaterial responses, isolated from other frequently present interferences such as protein and other chemical traces usually present in cell culture matrices. Our results suggest that microarchitecture of hydrogel materials might determine the performance of biomedical products, such as bacterial cellulose tissue engineering constructs (BCTECs).
Keywords
Secondary necrosis , Bacterial cellulose tissue engineering construct (BCTEC) , Scaffold microarchitecture , HUVEC
Journal title
Materials Science and Engineering C
Serial Year
2013
Journal title
Materials Science and Engineering C
Record number
2103667
Link To Document