中文摘要：

Electrospinning technique was used for the fabrication of poly （ vinyl alcohol ） （ PVA ） / regenerated silk fibrnin （ SF ） composite nanofibers, loaded with ciprofloxacin HCI （CipHCI） as a wound dressing. Electrospun PVA/SF/CipHCI composite nanofibers were stabilized against dissolving in water by heating in an oven at 155℃ for 5 min. Incorporation of CipHCi into electrospun nanofibers was confirmed by SEM and FT.IR spectra. Further the mechanical properties test illustrated that the addition of CipHCI enhanced the mechanical properties of PVA and PVA/SF nanofibers. The antibacterial activities against Escherichia coU （E. coli ） （ gram-negative ） and Staphylococcus aureus （ S. aureus ） （gram-positive） organisms were evaluated by disk diffusion method; and results suggested that electrospun PVA/CipHCI and PVA/SF/ CipHCI composite nanofibers showed a remarkable antibacterial activity.

英文摘要：

Electrospinning technique was used for the fabrication of poly （ vinyl alcohol ） （ PVA ） / regenerated silk fibrnin （ SF ） composite nanofibers, loaded with ciprofloxacin HCI （CipHCI） as a wound dressing. Electrospun PVA/SF/CipHCI composite nanofibers were stabilized against dissolving in water by heating in an oven at 155℃ for 5 min. Incorporation of CipHCi into electrospun nanofibers was confirmed by SEM and FT.IR spectra. Further the mechanical properties test illustrated that the addition of CipHCI enhanced the mechanical properties of PVA and PVA/SF nanofibers. The antibacterial activities against Escherichia coU （E. coli ） （ gram-negative ） and Staphylococcus aureus （ S. aureus ） （gram-positive） organisms were evaluated by disk diffusion method; and results suggested that electrospun PVA/CipHCI and PVA/SF/ CipHCI composite nanofibers showed a remarkable antibacterial activity.