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Smooth Muscle Cell Alignment and Phenotype Control by Melt Spun Polycaprolactone Fibers for Seeding of Tissue Engineered Blood Vessels.

Authors :
Agrawal A
Lee BH
Irvine SA
An J
Bhuthalingam R
Singh V
Low KY
Chua CK
Venkatraman SS
Source :
International journal of biomaterials [Int J Biomater] 2015; Vol. 2015, pp. 434876. Date of Electronic Publication: 2015 Sep 01.
Publication Year :
2015

Abstract

A method has been developed to induce and retain a contractile phenotype for vascular smooth muscle cells, as the first step towards the development of a biomimetic blood vessel construct with minimal compliance mismatch. Melt spun PCL fibers were deposited on a mandrel to form aligned fibers of 10 μm in diameter. The fibers were bonded into aligned arrangement through dip coating in chitosan solution. This formed a surface of parallel grooves, 10 μm deep by 10 μm across, presenting a surface layer of chitosan to promote cell surface interactions. The aligned fiber surface was used to culture cells present in the vascular wall, in particular fibroblasts and smooth muscle cells. This topography induced "surface guidance" over the orientation of the cells, which adopted an elongated spindle-like morphology, whereas cells on the unpatterned control surface did not show such orientation, assuming more rhomboid shapes. The preservation of VSMC contractile phenotype on the aligned scaffold was demonstrated by the retention of α-SMA expression after several days of culture. The effect was assessed on a prototype vascular graft prosthesis fabricated from polylactide caprolactone; VSMCs aligned longitudinally along a fiberless tube, whereas, for the aligned fiber coated tubes, the VSMCs aligned in the required circumferential orientation.

Details

Language :
English
ISSN :
1687-8787
Volume :
2015
Database :
MEDLINE
Journal :
International journal of biomaterials
Publication Type :
Academic Journal
Accession number :
26413093
Full Text :
https://doi.org/10.1155/2015/434876