Issue 43, 2022

Shape memory polyurethane potentially used for vascular stents with water-induced stiffening and improved hemocompatibility

Abstract

Shape memory polymers (SMPs) with multiple functionalities have great potential in implantable biomedical devices, especially vascular stents. However, stents made of SMPs are generally faced with the problem of insufficient radial support due to the sharp decline of the modulus after shape recovery. Therefore, it is necessary to improve the modulus of SMPs after opening the narrow part by other means. In this study, the novel SMPs available for vascular stents were developed with impressive water-induced stiffening when shape recovered in a physiological environment. Herein, a series of shape memory polyurethanes (SMPUs) containing full hard segments on the main chains and bearing hydrophilic tertiary amine soft segments on the side chains were synthesized. When immersed in water, the soft segments were dramatically separated from the hard segments, which were aggregated more to form densely packed hard domains with stronger hydrogen bonding and higher crystallinity. Both Young's modulus and the shape recovery ratio were thus promoted due to the segmental rearrangement in water. At the same time, hydrophilic side chains migrated to the surface driven by the segmental rearrangement in water, which promotes the adhesion and growth of vascular endothelial cells and inhibits the activation of the coagulation system. The ingenious structural design provided SMPUs with adequate mechanical strength and hemocompatibility to qualify for potential applications in self-expanding vascular stents.

Graphical abstract: Shape memory polyurethane potentially used for vascular stents with water-induced stiffening and improved hemocompatibility

Supplementary files

Article information

Article type
Paper
Submitted
09 Aug 2022
Accepted
01 Oct 2022
First published
03 Oct 2022

J. Mater. Chem. B, 2022,10, 8918-8930

Shape memory polyurethane potentially used for vascular stents with water-induced stiffening and improved hemocompatibility

R. Yang, W. Liu, A. Wang, X. Deng, Y. Feng, Q. Zhang, Z. Li, F. Luo, J. Li and H. Tan, J. Mater. Chem. B, 2022, 10, 8918 DOI: 10.1039/D2TB01681H

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