Dermatological Nanotechnology: Gelatin films with O/W emulsions for skin lesion repair.

Abstract

The development of films, scaffolds, hydrogels, and other innovations based on biopolymers for the treatment of skin injuries is on the rise. Therefore, it is important to focus on their functionality, influence on human use, and environmental impact. This work investigates the antimicrobial capacity of gelatin films that incorporate O/W emulsions encapsulating bactericidal and healing active ingredients (EA). Their biocompatibility was evaluated in vitro in human skin keratinocyte and murine fibroblast cell cultures, as well as in vivo using the zebrafish model. Finally, its potential to heal wounds was assessed through a keratinocyte cell migration assay. The EA films exhibited antimicrobial activity against Pseudomonas aeruginosa and Staphylococcus aureus. The films were biocompatible with monolayer cultures, without affecting cell viability, metabolic activity, or membrane integrity. The films did not exhibit general toxicological effects in zebrafish nor specific organ toxicity in the heart, liver, or brain. Further, the EA films promoted keratinocyte migration in the wound healing assay. In conclusion, the films could be used as a potential treatment for various types of skin injuries, being safe for both potential human application and the environment after use and disposal.