Nadia M. Morsi scite author profile

Mucoadhesive polymeric films incorporated with ketorolac tromethamine-loaded nanodispersion aiming the sustained delivery of the drug to the cornea have been developed and characterised for the treatment of post-operative ocular inflammation. Nanodispersions were prepared by ionic gelation method with various concentrations of chitosan and sodium tripolyphosphate. The developed nanodispersions were analysed for morphology, particle size, dispersion homogeneity, zeta potential, entrapment efficiency and drug release. The nanodispersion that showed the smallest particle size and the highest entrapment efficiency was incorporated in optimised HPMC E15 and Eudragit RL100/HPMC K4m films. The formulation with optimum physicomechanical properties was selected to study its ex vivo transcorneal permeation through freshly excised bovine cornea in comparison with the nanodispersion and the marketed eye drops (Acular®). The polymeric ocular film showed greater permeation than aqueous eye drops. Moreover, the ocular film revealed a prolonged anti-inflammatory effect compared to eye drops when applied to inflamed rabbit's eyes.

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Brain targeted solid lipid nanoparticles for brain ischemia: preparation and in vitro characterization

Morsi

Ghorab

Badie

2013

Pharmaceutical Development and Technology

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This study aims at formulating solid lipid nanoparticles (SLNs) of Vinpocetine (VIN) to be used as a brain targeted sustained drug-delivery system. VIN is a derivative of vincamine alkaloid, used for chronic cerebral vascular ischemia. However, it suffers from low bioavailability and short half-life. Its oral bioavailability is recorded to be between 7 and 55%. Its elimination half-life is 1-2 h so it would be a good candidate for a sustained drug-delivery system. VIN SLNs were prepared using modified high shear homogenization followed by ultrasonication technique. The effect of incorporating different lipids at different concentrations of various surfactants was investigated. The VIN SLNs were characterized by entrapment efficiency percent (EE%), particle size distribution, zeta-potential, and cumulative released percent after 96 h. The EE% ranged between 83.34% ± 0.95-94.56% ± 0.11 due to the lipophilic character of VIN. The mean particle size measured ranged from 123 nm-464 nm. The cumulative released percent after 96 h ranged from 23.55% to 75.67% showing a controlled release profile. Formula (F32) composed of 5% glyceryl monostearate (GMS) and stabilized by 2% surfactant mixture [Tween 80, Pluronic F 68 (1:1)] was the most appropriate formula for brain delivery having EE% of 89.09% ± 1.49, zero-order release kinetics with cumulative released percent of 72.12% after 96 h, zeta-potential of -11.3 ± 0.97 mV. It showed a unimodal size distribution with particle size ≈ 90 nm and polydispersity index of 0.121. The formula of choice in this study exhibited a zero-order sustained release profile and met the requirement for a brain targeted SLN so it could be a promising formula to deliver VIN to the brain.

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Nadia M. Morsi

Silver sulfadiazine based cubosome hydrogels for topical treatment of burns: Development and in vitro/in vivo characterization

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Improved bioavailability of timolol maleate via transdermal transfersomal gel: Statistical optimization, characterization, and pharmacokinetic assessment

Insulin Mucoadhesive Liposomal Gel for Wound Healing: a Formulation with Sustained Release and Extended Stability Using Quality by Design Approach

RETRACTED ARTICLE: Bioactive injectable triple acting thermosensitive hydrogel enriched with nano-hydroxyapatite for bone regeneration: In-vitro characterization, Saos-2 cell line cell viability and osteogenic markers evaluation.

Nanodispersion-loaded mucoadhesive polymeric inserts for prolonged treatment of post-operative ocular inflammation

Brain targeted solid lipid nanoparticles for brain ischemia: preparation and in vitro characterization

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