Nanofiber Composites for Biomedical Applications
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Sangsanoh et al. Stability improvement of electrospun chitosan nanofibrous membranes in neutral or weak basic aqueous solutions. Matthews et al.
Ravichandran et al. Advances in polymeric systems for tissue engineering and biomedical applications. Qi et al.
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- Central Cree and Ojibway crafts.
- Polymer-Based Electrospun Nanofibers for Biomedical Applications.
Venugopal et al. In vitro culture of human dermal fibroblasts on electrospun polycaprolactone collagen nanofibrous membrane.
Shah et al. Yao et al.
An Exopolysaccharide Nanofiber Composite for Biomedical Applications.
Burdick et al. Cai et al. Luo et al. Enhanced proliferation and osteogenic differentiation of mesenchymal stem cells on graphene oxide-incorporated electrospun poly lactic-co-glycolic acid nanofibrous mats.
He et al. Wei et al.
Fu et al. Present status and applications of bacterial cellulose-based materials for skin tissue repair. Min et al. Nanofibre-based structures and their composites are increasingly being studied for many biomedical applications, including tissue engineering scaffolds.
Staff member – Institute for Bioengineering of Catalonia (IBEC)
These materials enable architectures resembling the extracellular matrix to be obtained. The search for optimized supports and carriers of cells is still a major challenge for the tissue engineering field. The main purpose of this work is to develop a novel composite structure that combines microparticles and nanofibres in reinforced polymeric microfibres.
This innovative combination of materials is obtained by melting extrusion of a particulate composite reinforced with chitosan nanofibre meshes 0. The reinforced microfibres were analysed by scanning electron microscopy and showed a considerable alignment of the chitosan nanofibres along the longitudinal main axis of the microfibre composite structure. The various structures were subjected to swelling and degradation tests immersed in an isotonic saline solution at 37 C. The combination of good mechanical properties and enhanced degradability of the developed structures is believed to have great potential for various biomedical applications, including three-dimensional fibre mesh scaffolds to be applied in the field of bone tissue engineering.