Synthesis and properties of amphiphilic networks 3: preparation and characterization of block conetworks of poly(butyl methacrylateblock-(2,3 propandiol-1-methacrylate-stat-ethandiol dimethacrylate))

  1. Lookup NU author(s)
  2. Dr Matthew German
  3. Professor Yaping Sun
  4. Nicola Fullard
Author(s)Rimmer S, German MJ, Maughan J, Sun Y, Fullwood N, Ebdon J, MacNeil S
Publication type Article
JournalBiomaterials
Year2005
Volume26
Issue15
Pages2219-2230
ISSN (print)0142-9612
ISSN (electronic)1878-5905
Full text for this publication is not currently held within this repository. Alternative links are provided below where available.
Amphiphilic conetwork polymers were prepared and studied as substrates in the culture of dermal fibroblasts. Both block and random conetworks polymers were produced by radical polymerization of either low-molecular weight monomers or oligomeric macromonomers. The oligomeric macromonomers were prepared by methacrylation of biscarboxy oligo(butyl methacrylates) (OBMA). The latter were synthesized by ozononolysis of poly(butyl methacrylate-co-butadiene) materials. The hydrophilic component was derived from copolymerization with 2,3 propandiol-1-methacrylate and cross-linking was provided by inclusion of ethandiol dimethacrylate (EDMA). None of the synthesized materials showed indications of cytotoxicity to human dermal fibroblasts. All of the block conetworks were highly phase separated and possessed pores on the micron length scale. The equilibrium water contents of the latter could be controlled by addition of EDMA. Block conetworks that did not contain EDMA were highly swollen and had smoother surfaces than those that contained EDMA. The former were poor substrates for cell proliferation (as measured by monitoring DNA content) whilst the latter class gave increasing levels of DNA during culture; an indicator proliferation. The performance of these materials in cell culture was also dependent on the fraction of OBMA in the formulation. Increasing the fractions of BMA, either in the random terpolymer or block networks, system had the effect of increasing both cell proliferation and viability (as measured by the Alamar Blue assay).
PublisherElsevier BV
URLhttp://dx.doi.org/10.1016/j.biomaterials.2004.07.013
DOI10.1016/j.biomaterials.2004.07.013
PubMed id15585223
Actions    Link to this publication
Share