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Verapamil-Loaded Cubosomes for Enhancing Intranasal Drug Delivery: Development, Characterization, Ex Vivo Permeation, and Brain Biodistribution Studies

Mennatullah M. Faisal, Eman Gomaa, Adel Ehab Ibrahim, Sami El Deeb, Ahmed Al‐Harrasi, Tarek Ibrahim

2024AAPS PharmSciTech30 citationsDOIOpen Access PDF

Abstract

Abstract Verapamil hydrochloride (VRP), an antihypertensive calcium channel blocker drug has limited bioavailability and short half-life when taken orally. The present study was aimed at developing cubosomes containing VRP for enhancing its bioavailability and targeting to brain for cluster headache (CH) treatment as an off-label use. Factorial design was conducted to analyze the impact of different components on entrapment efficiency (EE%), particle size (PS), zeta potential (ZP), and percent drug release. Various in-vitro characterizations were performed followed by pharmacokinetic and brain targeting studies. The results revealed the significant impact of glyceryl monooleate (GMO) on increasing EE%, PS, and ZP of cubosomes with a negative influence on VRP release. The remarkable effect of Poloxamer 407 (P407) on decreasing EE%, PS, and ZP of cubosomes was observed besides its influence on accelerating VRP release%. The DSC thermograms indicated the successful entrapment of the amorphous state of VRP inside the cubosomes. The design suggested an optimized formulation containing GMO (50% w/w) and P407 (5.5% w/w). Such formulation showed a significant increase in drug permeation through nasal mucosa with high E r value (2.26) when compared to VRP solution. Also, the histopathological study revealed the safety of the utilized components used in the cubosomes preparation. There was a significant enhancement in the VRP bioavailability when loaded in cubosomes owing to its sustained release favored by its direct transport to brain. The I.N optimized formulation had greater BTE% and DTP% at 183.53% and 90.19%, respectively in comparison of 41.80% and 59% for the I.N VRP solution. Graphical Abstract

Topics & Concepts

BioavailabilityPharmacologyChemistryPharmacokineticsPermeationNasal administrationPoloxamer 407Ex vivoVerapamilZeta potentialFactorial experimentDrug deliveryDrugPoloxamerChromatographyMaterials scienceIn vitroNanoparticleMedicineCalciumNanotechnologyBiochemistryPolymerOrganic chemistryStatisticsMathematicsCopolymerMembraneAdvanced Drug Delivery SystemsNeuropeptides and Animal PhysiologyInhalation and Respiratory Drug Delivery
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