Fabrication of microporous polyurethane by spray phase inversion method as small diameter vascular grafts material

Microporous polyurethane vascular prostheses with a 4 mm diameter and 0.3–0.4 mm wall thickness were fabricated by a spray phase inversion technique. In this study, the effect of distance between spray guns (SG) and rotating mandrel (RM), the effect of rate of rotating mandrel (RRM), and the type of...

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Bibliographic Details
Published in:Journal of biomedical materials research 2006-05, Vol.77A (2), p.253-260
Main Authors: Khorasani, M.T., Shorgashti, S.
Format: Article
Language:English
Subjects:
Animals
Biocompatible Materials - chemical synthesis
Biomedical Engineering - methods
Blood Vessel Prosthesis
Cell Line
Fibroblasts - cytology
Fibroblasts - metabolism
Materials Testing
Mice
phase inversion
polyurethane
Polyurethanes - chemical synthesis
Porosity
Prosthesis Design
spraying
Surface Properties
Tensile Strength
vascular graft
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Summary:Microporous polyurethane vascular prostheses with a 4 mm diameter and 0.3–0.4 mm wall thickness were fabricated by a spray phase inversion technique. In this study, the effect of distance between spray guns (SG) and rotating mandrel (RM), the effect of rate of rotating mandrel (RRM), and the type of nonsolvent on pore morphology of PU films were evaluated using scanning electron microscopy (SEM) technique. It was observed that when the distance between SG and RM was increased or the rate of RM was decreased, the porosity of PU films increased and consequently the tensile strength decreased and compliance value increased. Compliance was measured in vitro by volume and vessel diameter changes. Furthermore, when the coagulant (water) was changed to the water/methanol, the porosity of PU film increased and porous morphology changed to filamentous morphology. Attachment of anchorage dependent cells, namely L929 fibroblast cells, were investigated in stationary culture conditions. The cells adhesion and cells growth were studied using optical photomicrographs. The results show that by increasing the porosity content of PU films would consequently increase the cell ingrowths. © 2005 Wiley Periodicals, Inc. J Biomed Mater Res, 2006
ISSN:1549-3296
0021-9304
1552-4965
1097-4636
DOI:10.1002/jbm.a.30613