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Comparative Study of TPGS and Soluplus Polymeric Micelles Embedded in Poloxamer 407 In Situ Gels for Intranasal Administration

Bence Sipos, Frézia Földes, Mária Budai-Szűcs, Gábor Katona, Ildikó Csóka

2024Gels11 citationsDOIOpen Access PDF

Abstract

This study aims to highlight the importance of choosing the appropriate co-polymer or co-polymer mixed combinations in order to design value-added nasal dosage forms. Local therapy of upper respiratory tract-related infections, such as nasal rhinosinusitis is of paramount importance, thus advanced local therapeutic options are required. Dexamethasone was encapsulated into three different polymeric micelle formulations: Soluplus or TPGS-only and their mixed combinations. Dynamic light scattering measurements proved that the particles have a micelle size less than 100 nm in monodisperse distribution, with high encapsulation efficiency above 80% and an at least 7-fold water solubility increase. Tobramycin, as an antimicrobial agent, was co-formulated into the in situ gelling systems which were optimized based on gelation time and gelation temperature. The sol-gel transition takes place between 32-35 °C, which is optimally below the temperature of the nasal cavity in a quick manner below 5 min, a suitable strategic criterion against the mucociliary clearance. In vitro drug release and permeability studies confirmed a rapid kinetics in the case of the encapsulated dexamethasone accompanied with a sustained release of tobramycin, as the hydrophilic drug.

Topics & Concepts

PoloxamerNasal administrationMicellePoloxamer 407In situMaterials scienceChemistryChemical engineeringChromatographyPharmacologyOrganic chemistryCopolymerPolymerMedicineAqueous solutionEngineeringAdvanced Drug Delivery SystemsHead and Neck Surgical OncologyObstructive Sleep Apnea Research
Comparative Study of TPGS and Soluplus Polymeric Micelles Embedded in Poloxamer 407 In Situ Gels for Intranasal Administration | Litcius