Proliferation and beta-tubulin for human aortic endothelial cells within gas-plasma scaffolds.

Purpose: We determined if human aortic endothelial cells (HAEC) enhanced proliferative and angiogenic phenotypes within gas-plasma treated bioresorbable D,L-polylactic acid (D,L-PLA) three-dimensional scaffolds.

Method: 6 x 10(3) HAEC (N=120) were incubated for 6, 12 or 18 days within either non-treated control or treated scaffolds. Before removing media, unstained wells were observed for apparent cell densities.

Angiogenic bFGF expression from gas-plasma treated scaffolds.

Purpose: In vivo experiments indicate that gas-plasma-treated D,L-polylactide polymers expressing basic fibroblast growth factor (bFGF) exhibit enhanced angiogenesis. bFGF is not a single entity, but it is instead a family of isoforms. Consequently, we sought to determine which bFGF isoforms and levels initiate angiogenesis in nude mice peritoneums.

VEGF analysis induced by endothelialized gas-plasma treated D,L-PLA scaffolds.

Purpose: Vascular endothelial growth factor (VEGF) isoforms play different roles in the temporal sprouting of endothelial-lined vessels in a nude mouse peritoneal model as cells respond to nontreated control and gas-plasma-treated bioresorbable poly-D,L-lactide acid 3D scaffolds with human aortic endothelial cells (HAEC).

Methods And Materials: Nude mice peritoneums were incubated with HAEC (CW = control; TW = gas-plasma treated) or polymer scaffolds (Cp = control; Tp = treated) for 12, 24 and 72 days. Cytoplasmic and nuclear protein fractions were isolated using NER, electrophoresized using NuPAGE-MES and analyzed by WesternBreeze Chemiluminescent.