Eugenol-acacia gum-based bifunctional nanofibers as a potent antifungal transdermal substitute.
Payal GuptaPurusottam MishraLalita MehraKartikey RastogiRamasare PrasadGaurav MittalKrishna Mohan PoluriPublished in: Nanomedicine (London, England) (2021)
Aim: Fungal biofilms interfere with the wound healing processes. Henceforth, the study aims to fabricate a biomaterial-based nano-scaffold with the dual functionalities of wound healing and antibiofilm activity. Methods: Nanofibers comprising acacia gum, polyvinyl alcohol and inclusion complex of eugenol in β-cyclodextrin (EG-NF) were synthesized using electrospinning. Antibiofilm studies were performed on Candida species, and the wound-healing activity was evaluated through an in vivo excision wound rat model. Results: The EG-NF potentially eradicated the mature biofilm of Candida species and their clinical isolates. Further, EG-NF also enhanced the re-epithelization and speed of wound healing in in vivo rat experiments. Conclusion: The study established the bifunctional applications of eugenol nanofibers as a transdermal substitute with antifungal potency.
Keyphrases
- wound healing
- candida albicans
- signaling pathway
- biofilm formation
- oxidative stress
- lps induced
- pi k akt
- nuclear factor
- pseudomonas aeruginosa
- staphylococcus aureus
- escherichia coli
- inflammatory response
- cell proliferation
- immune response
- highly efficient
- tissue engineering
- cystic fibrosis
- genetic diversity
- cell wall