RESUMO
Curcuma longa L. and Plumbago zeylanica L. are renowned for their antioxidant, anti-inflammatory, and wound-healing properties, primarily attributed to their polyphenolic compounds. However, the limited water solubility of these compounds poses challenges to their effective utilization. Encapsulation within phytosomes offers a solution by enhancing bioavailability and permeability. This study aimed to formulate a phytosome-based polyherbal gel incorporating methanolic extracts of P. zeylanica and C. longa to explore its potential in wound healing. Methanolic extracts of P. zeylanica roots and C. longa rhizomes were encapsulated in phytosomes using the lipid film hydration technique. Various phytosome formulations were developed and characterized for encapsulation efficiency, particle size, polydispersity index and zeta potential. The optimized phytosomal dispersion (F7) was integrated into a carbopol-based hydrogel matrix. In vitro release studies demonstrated prolonged release compared to conventional forms. Stability testing confirmed the robustness of the phytosomal gel at 4 °C/60 ± 5% RH. Wound healing activity was assessed using an excision wound model. The phytosomal gel exhibited enhanced wound contraction and reduced epithelization time compared to conventional gel and control groups, signifying its potent wound-healing effect. In conclusion, the polyherbal phytosomal gel, incorporating P. zeylanica and C. longa, holds promise in promoting wound healing, presenting a novel and effective approach in the realm of topical formulations for wound care.
RESUMO
BACKGROUND: In dermatology, the topical application of liposomes has proven to be of therapeutic value. Many drugs encapsulated into liposomes have shown enhanced skin penetration. METHODS: Liposomes are lipid based spherical vesicles. In structure and composition, they resemble cell membrane. Because of their amphipathic nature, they can be used as carriers for hydrophilic as well as lipophilic therapeutic agents. These liposomal systems can easily get integrated with the skin lipids and maintain the desired hydration conditions to improve drug penetration and localization in the skin layers. RESULTS: Considering the need for topical delivery and the promising potential of liposomes, an attempt has been made to explore the recent advances of liposome-based formulations in dermatological applications. CONCLUSION: This patent summarizes the recent findings of liposome-based formulations for dermal delivery of drugs.