6533b860fe1ef96bd12c31b8
RESEARCH PRODUCT
Oleuropein multicompartment nanovesicles enriched with collagen as a natural strategy for the treatment of skin wounds connected with oxidative stress.
Octavio Diez SalesOctavio Diez SalesJuan C. Gómez-fernándezMaria Letizia MancaJosé Luis PedrazMohamad AllawMaria ManconiAmparo NácherAmparo NácherMaría Carmen TerencioMaría Carmen Terenciosubject
Wound HealingBiocompatibilityChemistryVesicleRegeneration (biology)SonicationIridoid GlucosidesBiomedical EngineeringMedicine (miscellaneous)BioengineeringDevelopmentFibroblastsmedicine.disease_causeIn vitroNitric oxidechemistry.chemical_compoundOxidative StressOleuropeinBiophysicsmedicineGeneral Materials ScienceCollagenOxidative stressSkindescription
Aim: Collagen-enriched transfersomes, glycerosomes and glytransfersomes were specifically tailored for skin delivery of oleuropein. Methods: Vesicles were prepared by direct sonication and their main physicochemical and technological properties were measured. Biocompatibility, protective effect and promotion of the healing of a wounded cell monolayer were tested in vitro using fibroblasts. Results: Vesicles were mainly multicompartment, small (∼108 nm), slightly polydispersed (approximately 0.27) and negatively charged (~-49 mV). Oleuropein was incorporated in high amounts (approximately 87%) and vesicles were stable during four months of storage. In vitro studies confirmed the low toxicity of formulations (viability ≥95%), their effectiveness in counteracting nitric oxide generation and damages caused by free oxygen radicals, especially when collagen glytransfersomes were used (viability ~100%). These vesicles also promoted the regeneration of a wounded area by promoting the proliferation and migration of fibroblasts. Conclusion: Collagen-enriched vesicles are promising formulations capable of speeding up the healing of the wounded skin.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2021-11-01 | Nanomedicine (London, England) |