Hugo Almeida1, Paulo Lobão1, Christian Frigerio2,3, Joel Fonseca1, Renata Silva4, José Manuel Sousa Lobo1, Maria Helena Amaral1. 1. a Laboratory of Pharmaceutical Technology, Department of Drug Sciences , Faculty of Pharmacy, Research Centre for Pharmaceutical Sciences, University of Porto , Porto , Portugal. 2. b Department of Chemistry and Biochemistry , Faculty of Sciences, University of Porto , Porto , Portugal. 3. c Laboratori Derivati Organici , Milan , Italy , and. 4. d UCIBIO-REQUIMTE, Laboratory of Toxicology, Department of Biological Sciences , Faculty of Pharmacy, University of Porto , Porto , Portugal.
Abstract
CONTEXT: Nanostructured lipid carrier (NLC) dispersions present low viscosity and poor mucoadhesive properties, which reduce the pre-corneal residence time and consequently, the bioavailability of ocular drugs. OBJECTIVE: The aim of this study was to prepare thermoresponsive eyedrops based on the combination of lipid nanoparticles and a thermoresponsive polymer with mucomimetic properties (Pluronic® F-127). MATERIALS AND METHODS: NLCi dispersions were prepared based on the melt-emulsification and ultrasonication technique. Physicochemical and morphological characteristics of the colloidal dispersions were evaluated. The formulation was also investigated for potential cytotoxicity in Y-79 human retinoblastoma cells and the in vitro drug release profile of the ibuprofen was determined. RESULTS: NLCi showed a Z-average below 200 nm, a highly positive zeta potential and an efficiency of encapsulation (EE) of ∼90%. The gelification of the NLCi dispersion with 15% (w/w) Pluronic® F-127 did not cause significant changes to the physicochemical properties. The potential NLC-induced cytotoxicity was evaluated by the Alamar Blue reduction assay in Y-79 cells, and no relevant cytotoxicity was observed after exposure to 0-100 µg/mL NLC for up to 72 hours. The optimized formulations showed a sustained release of ibuprofen over several hours. DISCUSSION AND CONCLUSION: The strategy proposed in this work can be successfully used to increase the bioavailability and the therapeutic efficacy of conventional eyedrops.
CONTEXT: Nanostructured lipid carrier (NLC) dispersions present low viscosity and poor mucoadhesive properties, which reduce the pre-corneal residence time and consequently, the bioavailability of ocular drugs. OBJECTIVE: The aim of this study was to prepare thermoresponsive eyedrops based on the combination of lipid nanoparticles and a thermoresponsive polymer with mucomimetic properties (Pluronic® F-127). MATERIALS AND METHODS: NLCi dispersions were prepared based on the melt-emulsification and ultrasonication technique. Physicochemical and morphological characteristics of the colloidal dispersions were evaluated. The formulation was also investigated for potential cytotoxicity in Y-79 humanretinoblastoma cells and the in vitro drug release profile of the ibuprofen was determined. RESULTS: NLCi showed a Z-average below 200 nm, a highly positive zeta potential and an efficiency of encapsulation (EE) of ∼90%. The gelification of the NLCi dispersion with 15% (w/w) Pluronic® F-127 did not cause significant changes to the physicochemical properties. The potential NLC-induced cytotoxicity was evaluated by the Alamar Blue reduction assay in Y-79 cells, and no relevant cytotoxicity was observed after exposure to 0-100 µg/mL NLC for up to 72 hours. The optimized formulations showed a sustained release of ibuprofen over several hours. DISCUSSION AND CONCLUSION: The strategy proposed in this work can be successfully used to increase the bioavailability and the therapeutic efficacy of conventional eyedrops.
Authors: Alexander Vaneev; Victoria Tikhomirova; Natalia Chesnokova; Ekaterina Popova; Olga Beznos; Olga Kost; Natalia Klyachko Journal: Int J Mol Sci Date: 2021-11-16 Impact factor: 5.923