A pH, glucose, and dopamine triple-responsive,
self-healable adhesive hydrogel formed by phenylborate-catechol complexation
Shan, M (Shan, Meng)[ 1 ] ; Gong, C (Gong, Chu)[ 1 ] ; Li, BQ (Li, Bingqiang)[ 1 ] ; Wu, GL (Wu, Guolin)[ 1 ]
POLYMER
CHEMISTRY, 2017, 8(19): 2997-3005
DOI: 10.1039/c7py00519a
WOS:000401553200013
Abstract
An
injectable polyethylene glycol (PEG) hydrogel was successfully prepared via
borate-catechol complexation using dopamine functionalized 4-armed PEG
(4-arm-PEG-DA) and phenylboronic acid modified 4-armed PEG (4-arm-PEG-PBA). The
hydrogel was formed within 10 s by mixing 15 wt% 4-arm-PEG-DA with 15 wt%
4-arm-PEG-PBA buffer solutions at pH 9.0. The hydrogel was characterized by
Fourier transform infrared (FT-IR) spectroscopy, rheological measurements,
scanning electron microscopy (SEM) and lap shear strength tests. Furthermore,
pH, glucose and dopamine responsiveness of the hydrogel based on
phenylborate-catechol complexation was demonstrated by degradation experiments
and drug release tests. The lap shear strength tests indicated that the
hydrogel possessed the ability of self-healing which was bestowed by the
phenylborate-catechol dynamic covalent bond. Moreover, the hydrogel could serve
as a decent bio-adhesive due to its adhesion properties on different substrates
especially the porcine skin. In vitro cytotoxicity tests demonstrated the
excellent cytocompatibility of the hydrogel. The results of all the experiments
indicate that our newly developed multi-functionalized hydrogel can have
potential applications in biomedical fields such as drug delivery, tissue
engineering, and bio-adhesives.
