Journal
MACROMOLECULAR BIOSCIENCE
Volume 15, Issue 2, Pages 200-214Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/mabi.201400325
Keywords
liquid crystal elastomers cell scaffolds
Funding
- National Science Foundation [CHE-1263087]
- Kent State University
- Regenerative Medicine Initiative at Kent State (ReMedIKS)
- Government of Ohio's Third Frontier Program for Ohio Research Scholars
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Here we report on the modular synthesis and characterization of biodegradable, controlled porous, liquid crystal elastomers (LCE) and their use as three-dimensional cell culture scaffolds. The elastomers were prepared by cross-linking of star block-co-polymers with pendant cholesterol units resulting in the formation of smectic-A LCEs as determined by polarized optical microscopy, DSC, and X-ray diffraction. Scanning electron microscopy revealed the porosity of the as-prepared biocompatible LCEs, making them suitable as 3D cell culture scaffolds. Biodegradability studies in physiological buffers at varying pH show that these scaffolds are intact for about 11 weeks after which degradation sets in at an exponential rate. Initial results from cell culture studies indicate that these smectic LCEs are compatible with growth, survival, and expansion of cultured neuroblastomas and myoblasts when grown on the LCEs for extended time periods (about a month). These preliminary cell studies focused on characterizing the elastomer-based scaffolds' biocompatibility and the successful 3D incorporation as well as growth of cells in 60 to 150-mm thick elastomer sheets.
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