Issue 11, 2022

Preparation and characterisation of zwitterionic sulfobetaine containing siloxane-based biostable polyurethanes

Abstract

Siloxane-based biostable polycarbonateurethanes (PCUs) with varying [PDMS]/([PDMS] + [PCDL]) were synthesized by a two-step solution polymerisation method. As potential blood-contact biomaterials, their biocompatibility was further improved by inserting sulfobetaine via three synthetic protocols. It was found that Mn was progressively decreased from 4.50 × 104 to 3.23 × 104 with increasing PDMS content and the PDI was kept below 2.0 after the zwitterionic modification. At the same time, the Mn was reduced from 3.78 × 104 for a 20 mol% PDMS containing PU to around 2.38 × 104 for these zwitterion modified PUs while the PDI was dropped below 1.61. Accordingly, the tensile stress was dropped from 43.1 MPa to about 25.3 MPa and the fracture energy was decreased from 146.4 MN m−1 to about 69.8 MN m−1. Thanks to the enrichment of PDMS on the surface as evidenced by XPS analysis, the water contact angle (WCA) was increased from 106.2° to 116.8°, whereas this value was again decreased to about 94.6° after inserting sulfobetaine. Compared to siloxane-based PCUs, the fibrinogen absorption on and platelet adhesion to the surface of these zwitterionic modified ones were markedly retarded. This suggested that there is a trade-off between the mechanical properties and biocompatibility for the zwitterion containing siloxane-based biostable PCUs applied as blood-contacting biomaterials.

Graphical abstract: Preparation and characterisation of zwitterionic sulfobetaine containing siloxane-based biostable polyurethanes

Supplementary files

Article information

Article type
Paper
Submitted
18 Jan 2022
Accepted
14 Apr 2022
First published
20 Apr 2022
This article is Open Access
Creative Commons BY-NC license

Mater. Adv., 2022,3, 4608-4621

Preparation and characterisation of zwitterionic sulfobetaine containing siloxane-based biostable polyurethanes

Z. Liu, Y. Xiao, X. Ma, X. Geng, L. Ye, A. Zhang and Z. Feng, Mater. Adv., 2022, 3, 4608 DOI: 10.1039/D2MA00049K

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