Biocatalytic synthesis of highly ordered degradable dextran-based hydrogels

We have prepared unique macroporous and ordered dextran-based hydrogels using a single-step biocatalytic transesterification reaction between dextran and divinyladipate in neat dimethylsulfoxide. These hydrogels show a unimodal distribution of interconnected pores with average diameters from 0.4 to...

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Bibliographic Details
Main Author: Ferreira, Lino (author)
Other Authors: Gil, Maria H. (author), Cabrita, António M. S. (author), Dordick, Jonathan S. (author)
Format: article
Language:eng
Published: 2005
Subjects:
Dextran
Hydrogel
Cross-linking
Biodegradation
Online Access:http://hdl.handle.net/10316/3799
Country:Portugal
Oai:oai:estudogeral.sib.uc.pt:10316/3799
Description
Summary:We have prepared unique macroporous and ordered dextran-based hydrogels using a single-step biocatalytic transesterification reaction between dextran and divinyladipate in neat dimethylsulfoxide. These hydrogels show a unimodal distribution of interconnected pores with average diameters from 0.4 to 2.0 [mu]m depending on the degree of substitution. In addition, the hydrogels show a higher elastic modulus for a given swelling ratio than chemically synthesized dextran-based hydrogels. In vivo studies in rats show that the hydrogel networks are degradable over a range of time scales from 5 to over 40 days, and possess good biocompatibility, as reflected in only a mild inflammatory reaction and minor fibrous capsule formation during the time-frame of subcutaneous implantation. These combined properties may offer competitive advantages in biomedical applications ranging from tissue engineering to controlled drug delivery.

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