In the present work a simple and quick technique for cell seeding into tubular-shaped scaffolds, which allows a homogeneous celldistribution, was tested. The poly-L-lactide (PLLA) scaffolds, prepared via diffusion induced phase separation (DIPS), were filledwith fibrin gel in order to obtain a hybrid scaffold for Vascular Tissue Engineering applications. The formation of immobilized fibrinnetworks on the inner surface of the tubular scaffolds was observed using confocal microscopy and SEM. Morphological analysisof the so-obtained scaffold revealed that the fibrin gel is uniformly distributed on the internal surface of the scaffold, leading to anorganized structure. Moreover a penetration of the gel into the porous wall of the scaffold was observed. The in vitro endothelialcell cultures carried out in the scaffolds highlighted a faster cell proliferation inside the hybrid scaffold with respect to simple PLLAscaffold. Results show that the fibrin/PLLA hybrid scaffold may be favourably used for Vascular Tissue Engineering applications.
Rigogliuso, S., Carfi' Pavia, F., La Carrubba, V., Brucato, V.M.B., Ghersi, G. (2014). PLLA/Fibrin Tubular Scaffold: A New Way for Reliable Endothelial Cell Seeding. CONFERENCE PAPERS IN MATERIALS SCIENCE, 2014(1) [10.1155/2014/147858].
PLLA/Fibrin Tubular Scaffold: A New Way for Reliable Endothelial Cell Seeding
RIGOGLIUSO, Salvatrice;CARFI' PAVIA, Francesco
;LA CARRUBBA, Vincenzo;BRUCATO, Valerio Maria Bartolo;GHERSI, Giulio
2014-01-01
Abstract
In the present work a simple and quick technique for cell seeding into tubular-shaped scaffolds, which allows a homogeneous celldistribution, was tested. The poly-L-lactide (PLLA) scaffolds, prepared via diffusion induced phase separation (DIPS), were filledwith fibrin gel in order to obtain a hybrid scaffold for Vascular Tissue Engineering applications. The formation of immobilized fibrinnetworks on the inner surface of the tubular scaffolds was observed using confocal microscopy and SEM. Morphological analysisof the so-obtained scaffold revealed that the fibrin gel is uniformly distributed on the internal surface of the scaffold, leading to anorganized structure. Moreover a penetration of the gel into the porous wall of the scaffold was observed. The in vitro endothelialcell cultures carried out in the scaffolds highlighted a faster cell proliferation inside the hybrid scaffold with respect to simple PLLAscaffold. Results show that the fibrin/PLLA hybrid scaffold may be favourably used for Vascular Tissue Engineering applications.
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