An amphiphilic chitosan salt, chitosan oleate (CS-OA), was previously proposed for the physical stabilization of lemongrass antimicrobial nanoemulsions (NE) through a mild spontaneous emulsification process. As both chitosan and oleic acid are described in the literature for their positive effects in wound healing, in the present study CS-OA has been proposed to encapsulate alpha tocopherol (αTph) in NEs aimed to skin wounds. A NE formulation was developed showing about 220 nm dimensions, 36% drug loading, and αTph concentration up to 1 mg/ml. Both CS-OA and αTph NE stimulated cell proliferation on keratinocytes and fibroblast cell cultures, and in ex vivo skin biopsies, suggesting the suitability of CS-OA and of the antioxidant agent for topical application in wound healing. αTph stability was further improved with respect of encapsulation, by spray drying the NE into a powder (up to about 90% αTph residual after 3 months). The spray drying process was optimized, to improve powder yield and αTph recovery, by a design of experiments approach. The powder obtained was easily re-suspended to deliver the NE and resulted able to completely release αTph.
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Titolo: | Alpha tocopherol loaded chitosan oleate nanoemulsions for wound healing. Evaluation on cell lines and ex vivo human biopsies, and stabilization in spray dried Trojan microparticles | |
Autori: | ||
Data di pubblicazione: | 2018 | |
Rivista: | ||
Abstract: | An amphiphilic chitosan salt, chitosan oleate (CS-OA), was previously proposed for the physical stabilization of lemongrass antimicrobial nanoemulsions (NE) through a mild spontaneous emulsification process. As both chitosan and oleic acid are described in the literature for their positive effects in wound healing, in the present study CS-OA has been proposed to encapsulate alpha tocopherol (αTph) in NEs aimed to skin wounds. A NE formulation was developed showing about 220 nm dimensions, 36% drug loading, and αTph concentration up to 1 mg/ml. Both CS-OA and αTph NE stimulated cell proliferation on keratinocytes and fibroblast cell cultures, and in ex vivo skin biopsies, suggesting the suitability of CS-OA and of the antioxidant agent for topical application in wound healing. αTph stability was further improved with respect of encapsulation, by spray drying the NE into a powder (up to about 90% αTph residual after 3 months). The spray drying process was optimized, to improve powder yield and αTph recovery, by a design of experiments approach. The powder obtained was easily re-suspended to deliver the NE and resulted able to completely release αTph. | |
Handle: | http://hdl.handle.net/11571/1210307 | |
Appare nelle tipologie: | 1.1 Articolo in rivista |