Development of bioactive photocrosslinkable fibrous hydrogels.
@article{StephensAltus2011DevelopmentOB,
title={Development of bioactive photocrosslinkable fibrous hydrogels.},
author={Jean S. Stephens-Altus and P Sundelacruz and Maude l Rowland and Jennifer L. West},
journal={Journal of biomedical materials research. Part A},
year={2011},
volume={98 2},
pages={
167-76
}
}Three-dimensional (3D) fibrous hydrogels were fabricated by blending two photoactive polymers, poly(ethylene glycol) diacrylate (PEGDA) and poly(vinyl alcohol) (PVA), and the resulting solution was electrospun. PEGDA is a commonly used hydrogel material for tissue engineering applications since its interaction with cells can be tuned by crosslinking in a variety of bioactive molecules including peptides and proteins. The PVA in these materials aids in fiber formation and stabilizes the fibrous…
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References
SHOWING 1-10 OF 59 REFERENCES
Photocrosslinkable polyvinyl alcohol hydrogels that can be modified with cell adhesion peptides for use in tissue engineering.
- Materials Science, BiologyBiomaterials
- 2002
Biodegradable fibrous scaffolds with tunable properties formed from photo-cross-linkable poly(glycerol sebacate).
- Biology, Materials ScienceACS applied materials & interfaces
- 2009
The scaffolds showed similar diversity when implanted on the surface of hearts in a rat model of acute myocardial infarction and demonstrated a dependence on the scaffold thickness and chemistry in the host response.
Incorporation of adhesion peptides into nonadhesive hydrogels useful for tissue resurfacing.
- BiologyJournal of biomedical materials research
- 1998
Photopolymerized crosslinked networks of poly(ethylene glycol; PEG) diacrylate (MW 8000) were derivitized throughout their bulk with Arg-Gly-Asp (RGD)-containing peptide sequences to promote spreading of human foreskin fibroblasts over 24 h.
Electrospinning of photocrosslinked and degradable fibrous scaffolds.
- Materials Science, BiologyJournal of biomedical materials research. Part A
- 2008
A process to electrospin photocrosslinkable macromers from a library of multifunctional poly(beta-amino ester)s is developed, increasing the diversity and range of properties achievable in fibrous scaffolds for tissue regeneration.
Functionalizing electrospun fibers with biologically relevant macromolecules.
- Materials Science, BiologyBiomacromolecules
- 2005
The goal of this work is to create a biologically active functionalized electrospun matrix to permit immobilization and long-term delivery of growth factors in fibers fabricated into fibers for possible use in drug delivery, tissue engineering, or wound repair applications.
Review: photopolymerizable and degradable biomaterials for tissue engineering applications.
- Materials Science, BiologyTissue engineering
- 2007
As the authors better understand biological features necessary to control cellular behavior, smarter materials are being developed that can incorporate and mimic many of these factors.
Electrospun three-dimensional hyaluronic acid nanofibrous scaffolds.
- Materials Science, BiologyBiomaterials
- 2006
Synthetic nano-scale fibrous extracellular matrix.
- Materials ScienceJournal of biomedical materials research
- 1999
A novel highly porous structure, which is a three-dimensional interconnected fibrous network with a fiber diameter ranging from 50 to 500 nm, has been created from biodegradable aliphatic polyesters in this work to mimic natural extracellular matrix architecture.
Photopolymerizable hydrogels for tissue engineering applications.
- Materials Science, BiologyBiomaterials
- 2002
Characterization of hydrogels formed from acrylate modified poly(vinyl alcohol) macromers
- Materials Science, Engineering
- 2000