TY - JOUR
T1 - Anti-biofouling 3D porous systems: the blend effect of oxazoline-based oligomers on chitosan scaffolds.
AU - Ribeiro, Teresa Maria Alves Casimiro
AU - Ricardo, Ana Isabel Nobre Martins Aguiar de Oliveira
AU - Pinho, Mariana Luisa
PY - 2013
Y1 - 2013
N2 - The production, characterization and anti-biofouling activity of 3D porous scaffolds combining different blends of chitosan and oxazoline-based antimicrobial oligomers is reported. The incorporation of ammonium quaternized oligo(2-oxazoline)s into the composition of the scaffold enhances the stability of the chitosan scaffold under physiological conditions as well as its ability to repel protein adsorption. The blended scaffolds showed mean pore sizes in the range of 18-32 μm, a good pore interconnectivity and high porosity, as well as a large surface area, ultimate key features for anti-biofouling applications. Bovine serum albumin (BSA) adhesion profiles showed that the composition of the scaffolds plays a critical role in the chitosan-oligooxazoline system. Oligobisoxazoline-enriched scaffolds (20% w/w, CB8020) decreased protein adsorption (BSA) by up to 70%. Moreover, 1 mg of CB8020 was able to kill 99.9% of Escherichia coli cells upon contact, demonstrating its potential as promising material for production of tailored non-fouling 3D structures to be used in the construction of novel devices with applications in the biomedical field and water treatment processes.
AB - The production, characterization and anti-biofouling activity of 3D porous scaffolds combining different blends of chitosan and oxazoline-based antimicrobial oligomers is reported. The incorporation of ammonium quaternized oligo(2-oxazoline)s into the composition of the scaffold enhances the stability of the chitosan scaffold under physiological conditions as well as its ability to repel protein adsorption. The blended scaffolds showed mean pore sizes in the range of 18-32 μm, a good pore interconnectivity and high porosity, as well as a large surface area, ultimate key features for anti-biofouling applications. Bovine serum albumin (BSA) adhesion profiles showed that the composition of the scaffolds plays a critical role in the chitosan-oligooxazoline system. Oligobisoxazoline-enriched scaffolds (20% w/w, CB8020) decreased protein adsorption (BSA) by up to 70%. Moreover, 1 mg of CB8020 was able to kill 99.9% of Escherichia coli cells upon contact, demonstrating its potential as promising material for production of tailored non-fouling 3D structures to be used in the construction of novel devices with applications in the biomedical field and water treatment processes.
KW - SURFACES
KW - TELECHELIC ANTIMICROBIAL FUNCTIONS
KW - MODE
KW - POLYMERS
KW - ADHESION
KW - RING-OPENING POLYMERIZATION
KW - BIOFILMS
KW - SATELLITE GROUPS
U2 - 10.1080/08927014.2013.766172
DO - 10.1080/08927014.2013.766172
M3 - Article
C2 - 23458129
SN - 0892-7014
VL - 29
SP - 273
EP - 282
JO - Biofouling
JF - Biofouling
IS - 3
ER -