new chitosan/poly(ethylene oxide)/thyme nanofiber prepared by electrospinning method for antimicrobial wound dressing

Authors

minoo sadri

department of biological science and technology, malek ashtar university, tehran, iran elham karimi-nazari

department of biological science and technology, malek ashtar university, tehran, iran hasan hosseini

nano science center, imam hossein university, tehran, iran aasgar emamgholi

neuroscience research center baqiyatallah university of medical sciences, tehran, iran

abstract

a new natural and environmental friendly wound dressing was introduced for the first time that was prepared by electrospinning method. this new wound dressing has chitosan base, and poly (ethylene oxide) was added as co-spinning agent to improve spinnability of chitosan. moreover, thyme extract as a natural antibacterial additive was introduced in the as electrospun nanofibers scaffold in order to increase those wound healing properties. some parameters of electrospinning such as feed rate, nozzle-collector distance, voltage and content of thyme extract in nanofiber structure were studied and optimized. the average diameters of prepared nanofibers was determined by “clemex vision professional edition” software. morphology and structure of electrospun nanofibers was studied with use of scaning electorn microscopy and fourier transform infrared spectroscopy spectroscopy. the results showed that the antibacterial activity of nanofibers increased as the amount of thyme extract was increased, thus a chitosan/peo containing 3% of thyme extract was selected as the best prepared nanofiber for wound dressing preparation. chitosan/peo/thyme nanofiber showed high stability in the buffer and good antibacterial activity against three understudy bacteria including escherichia coli, pseudomonas aeruginosa, and staphylococcus aureus.

Upgrade to premium to download articles

Sign up to access the full text

Already have an account?login

similar resources

New Chitosan/Poly(ethylene oxide)/Thyme Nanofiber Prepared by Electrospinning Method for Antimicrobial Wound Dressing

A new natural and environmental friendly wound dressing was introduced for the first time that was prepared by electrospinning method. This new wound dressing has chitosan base, and poly (ethylene oxide) was added as co-spinning agent to improve spinnability of chitosan. Moreover, thyme extract as a natural antibacterial additive was introduced in the as electrospun nanofibers scaffold in order...

full text

Producing Cellulose nanofiber from Cotton wastes by electrospinning method

One of the main issues of nanotechnology is producing materials with new properties. Nanotechnology, as a powerful tool, has the ability to create evolution in the agricultural system and food–medicinal industries across the world. Producing a high-performance material from reclaimed cellulose material will increase motivation to recycle these materials at all phases of paper production and rem...

full text

Producing Cellulose nanofiber from Cotton wastes by electrospinning method

One of the main issues of nanotechnology is producing materials with new properties. Nanotechnology, as a powerful tool, has the ability to create evolution in the agricultural system and food–medicinal industries across the world. Producing a high-performance material from reclaimed cellulose material will increase motivation to recycle these materials at all phases of paper production and rem...

full text

Antimicrobial wound dressing nanofiber mats from multicomponent (chitosan/silver-NPs/polyvinyl alcohol) systems.

Novel hybrid nanomaterials have been developed for antimicrobial applications. Here we introduce a green route to produce antibacterial nanofiber mats loaded with silver nanoparticles (Ag-NPs, 25 nm diameter) enveloped in chitosan after reduction with glucose. The nanofiber mats were obtained from colloidal dispersions of chitosan-based Ag-NPs blended with polyvinyl alcohol. Nanofibers (150 nm ...

full text

producing cellulose nanofiber from cotton wastes by electrospinning method

one of the main issues of nanotechnology is producing materials with new properties. nanotechnology, as a powerful tool, has the ability to create evolution in the agricultural system and food–medicinal industries across the world. producing a high-performance material from reclaimed cellulose material will increase motivation to recycle these materials at all phases of paper production and rem...

full text

Patterning of polymer nanofiber meshes by electrospinning for biomedical applications

The end-product of the electrospinning process is typically a randomly aligned fiber mesh or membrane. This is a result of the electric field generated between the drop of polymer solution at the needle and the collector. The developed electric field causes the stretching of the fibers and their random deposition. By judicious selection of the collector architecture, it is thus possible to deve...

full text

My Resources

Save resource for easier access later


Journal title:
journal of nanostructures

جلد ۶، شماره ۴، صفحات ۳۲۲-۳۲۸

Hosted on Doprax cloud platform doprax.com

copyright © 2015-2023