期刊
BIOMATERIALS
卷 28, 期 18, 页码 2791-2800出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.biomaterials.2007.02.032
关键词
in situ forming; hydrogel; degradable; enzymatic crosslinking; dextran
Dextran hydrogels were formed in situ by enzymatic crosslinking of dextran-tyramine conjugates and their mechanical, swelling and degradation properties were evaluated. Two types of dextran-tyramine conjugates M-n,M-dextran = 14k, M-w/M-n = 1.45), i.e. dextran-tyramine linked by a urethane bond (denoted as Dex-TA) or by an ester-containing diglycolic group (denoted as Dex-DG-TA), with different degrees of substitution (DS) were prepared. Hydrogels were rapidly formed under physiological conditions from Dex-TA DS 10 or 15 and Dex-DG-TA DS 10 at or above a concentration of 2.5 wt% in the presence of H2O2 and horseradish peroxidase (HRP). The gelation time ranged from 5 s to 9 min depending on the polymer concentration and HRP/TA and H2O2/TA ratios. Rheological analysis showed that these hydrogels are highly elastic. The storage modulus (G), which varied from 3 to 41 kPa, increased with increasing polymer concentration, increasing HRP/TA ratio and decreasing H2O2/TA ratio. The swelling/degradation studies showed that under physiological conditions, Dex TA hydrogels are rather stable with less than 25% loss of gel weight in 5 months, whereas Dex-DG-TA hydrogels are completely degraded within 4-10 d. These results demonstrate that enzymatic crosslinking is an efficient way to obtain fast in situ formation of hydrogels. These dextran-based hydrogels are promising for use as injectable systems for biomedical applications including tissue engineering and protein delivery. (C) 2007 Elsevier Ltd. All rights reserved.
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