Publications by authors named "F P Seib"
Antibacterial properties are desirable in wound dressings. Silks, among many material formats, have been investigated for use in wound care. However, the antibacterial properties of liquid silk are poorly understood.
View Article and Find Full Text PDFDespite many reports detailing silk hydrogels, the development of composite silk hydrogels with homotypic and heterotypic silk nanoparticles and their impact on material mechanics and biology have remained largely unexplored. We hypothesise that the inclusion of nanoparticles into silk-based hydrogels enables the formation of homotropic and heterotropic material assemblies. The aim was to explore how well these systems allow tuning of mechanics and cell adhesion to ultimately control the cell-material interface.
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- Silk hydrogels have potential in tissue engineering, but challenges like limited mechanical tuning hinder their use.
- By embedding Tasar silk microfibres into these hydrogels, researchers improved their mechanical properties and created structured hydrogels.
- The presence of microfibres enhanced stiffness and altered stress relaxation, with better cell attachment observed in hydrogels containing higher concentrations of microfibres, indicating that these modifications could optimize hydrogels for biological applications.
Medical silks have captured global interest. While silk sutures have a long track record in humans, silk bioconjugates are still in preclinical development. This perspective examines key advances in silk bioconjugation, including the fabrication of silk-protein conjugates, bioconjugated silk particles, and bioconjugated substrates to enhance cell-material interactions in two and three dimensions.
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