Abstract
In this work, we propose as new wound dressing, the Spanish Broom fibers impregnated with vancomycin (VM) loaded chitosan nanoparticles. Spanish Broom fibers were extracted by patented method DiCoDe and the morphological, physical and mechanical properties were investigated. Chitosan nanoparticles were prepared by ionic gelation using different weight ratios between chitosan (CH) and tripolyphosphate (TPP). Nanoparticles were characterized in terms of size, zeta potential, yield, encapsulation efficiency, stability and drug release. Finally, the antibacterial activity against Staphylococcus aureus as well as in vitro cytotoxicity on HaCaT cells were evaluated.The best formulation CH/TPP 4:1 was selected based on the encapsulation efficiency and yield. Spanish Broom fibers impregnated with loaded nanoparticles showed an increased antibacterial activity against S. aureus compared to the same fibers containing VM without nanoparticles. Moreover, these fibers were not toxic to HaCaT keratinocytes cells. In conclusion, Spanish Broom fibers impregnated with VM loaded CH/TPP nanoparticles would appear to be a promising candidate for wound dressing application.
Highlights
Wound dressing as well as devices play an important role in the medical and pharmaceutical wound care market worldwide
In addition to these natural cellulose based substances (Gupta, 2010), we explored the potential use of Spanish Broom fibers as wound dressing due to advantages such as availability, biodegradability, biocompatibility, non-toxicity and high absorbent properties
Its use in biomedical field was limited by the difficulty to obtain cellulose in sufficiently pure form that is free from lignin and pectin
Summary
Wound dressing as well as devices play an important role in the medical and pharmaceutical wound care market worldwide. Cotton gauze is one of the most successful wound dressings due to the intrinsic properties of cotton fibers. Cotton fibers are highly hydrophilic, absorbent and inexpensive (Edwards et al, 2006). Cotton farming involves environmental risks due to intensive use of pesticides that pollute rivers and groundwater. If cotton is cultivated intensively, it requires large amounts of water for irrigation causing soil desalinization and a degradation of soil fertility. Taking into account these disadvantages, we explored the potential use of Spanish
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