Issue 28, 2016

Tubular inverse opal scaffolds for biomimetic vessels

Abstract

There is a clinical need for tissue-engineered blood vessels that can be used to replace or bypass damaged arteries. The success of such grafts depends strongly on their ability to mimic native arteries; however, currently available artificial vessels are restricted by their complex processing, controversial integrity, or uncontrollable cell location and orientation. Here, we present new tubular scaffolds with specific surface microstructures for structural vessel mimicry. The tubular scaffolds are fabricated by rotationally expanding three-dimensional tubular inverse opals that are replicated from colloidal crystal templates in capillaries. Because of the ordered porous structure of the inverse opals, the expanded tubular scaffolds are imparted with circumferentially oriented elliptical pattern microstructures on their surfaces. It is demonstrated that these tailored tubular scaffolds can effectively make endothelial cells to form an integrated hollow tubular structure on their inner surface and induce smooth muscle cells to form a circumferential orientation on their outer surface. These features of our tubular scaffolds make them highly promising for the construction of biomimetic blood vessels.

Graphical abstract: Tubular inverse opal scaffolds for biomimetic vessels

Supplementary files

Article information

Article type
Paper
Submitted
18 Apr 2016
Accepted
19 May 2016
First published
20 May 2016

Nanoscale, 2016,8, 13574-13580

Tubular inverse opal scaffolds for biomimetic vessels

Z. Zhao, J. Wang, J. Lu, Y. Yu, F. Fu, H. Wang, Y. Liu, Y. Zhao and Z. Gu, Nanoscale, 2016, 8, 13574 DOI: 10.1039/C6NR03173K

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