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Biodegradable elastomers for tissue engineering and cell-biomaterial interactions.

Christopher J CJ Bettinger

Macromol Biosci 11(4):467-82 (2011) PMID 21229578

Synthetic biomaterials serve as a cornerstone in the development of clinically focused regenerative medicine therapies that aim to reduce suffering and prolong life. Recent improvements in biodegradable elastomeric materials utilize natural extracellular matrix proteins as inspiration to yield a new class of materials with superior degradation kinetics, desirable biocompatibility profiles, and mechanical properties that closely match those of soft tissues. This review describes several classes of synthetic biodegradable elastomers and associated fabrication techniques that are relevant to scaffold development. The application of these materials to select tissue engineering models is also discussed.

DOI: 10.1002/mabi.201000397
Version: za2963e q8za6 q8zb4 q8zc3 q8zd4 q8ze9 q8zfe q8zg0
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