Acne is a common skin condition affecting a significant portion of the global population, often causing physical and psychological distress. This study developed a bacterial cellulose-based delivery system loaded with nisin and mandelic acid, targeting acne treatment within the Clean Beauty framework. Bacterial cellulose, derived from Komagataebacter xylinus, served as a biocompatible, biodegradable matrix capable of controlling the release of bioactive compounds. The system exhibited strong antibacterial activity against both standard and skin-derived acne-causing bacteria, along with notable antioxidant properties. Controlled release tests showed peak delivery of actives at 300 min, while stability studies confirmed the retention of antibacterial and antioxidant functions for up to 180 days. Minimal cytotoxicity observed in fibroblast cells highlights the safety of the formulation. By combining natural antimicrobials and exfoliants with a sustainable polymer carrier, the study presents an effective, environmentally friendly alternative to conventional acne therapies. This approach not only addresses key limitations of current topical treatments but also offers a promising platform for future dermocosmetic products that are both skin-friendly and eco-conscious.
Journal of Dermatologic Science and Cosmetic Technology
Experimental study
Not applicable
Bacterial cellulose as a sustainable vehicle for the controlled release of nisin and mandelic acid: A clean beauty-based approach for acne treatment
26-Dec-2025