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Brain targeting efficiency of intranasal clozapine-loaded mixed micelles following radio labeling with Technetium-99m

Sinar Sayed, Fatma M. Elsharkawy, Maha M. Amin, Hesham A. Shamsel‐Din, Ahmed B. Ibrahim

2021Drug Delivery45 citationsDOIOpen Access PDF

Abstract

The research objective is to design intranasal (IN) brain targeted CLZ-loaded polymeric nanomicellar systems (PNMS) aiming to improve central systemic CLZ bioavailability. Direct equilibrium method was used to prepare CLZ-PNMS using two hydrophobic poloxamines; Tetronic® 904 (T904) and Tetronic® 701 (T701) and one hydrophilic poloxamer; Synperonic® PE/F127 (F127). Optimization is based on higher percent transmittance, solubilizing efficiency, and in vitro release after 24 h with smaller particle size was achieved using Design-Expert® software. The optimized formula was further evaluated via TEM, ex vivo nasal permeation in addition to in vivo biodistribution using radiolabeling technique of the optimized formula by Technetium-99m (99mTc). The optimized formula M5 has small size (217 nm) with relative high percentage of transmittance (97.72%) and high solubilization efficacy of 60.15-fold following 92.79% of CLZ released after 24 h. Ex vivo nasal permeation showed higher flux of 36.62 μg/cm2.h compared to 7.324 μg/cm2.h for CLZ suspension with no histological irritation. In vivo biodistribution results showed higher values of radioactivity percentage of the labeled optimized formula (99mTc–M5) in brain and brain/blood ratio following IN administration of 99mTc–M5 complex which were greater than their corresponding values following intravenous route. It is obvious that nasal delivery of CLZ-PNMS could be a promising way to improve central systemic CLZ bioavailability.

Topics & Concepts

BiodistributionBioavailabilityIn vivoEx vivoNasal administrationPharmacokineticsPermeationMaterials sciencePharmacologyPoloxamerBiomedical engineeringChromatographyChemistryMedicinePolymerMembraneBiochemistryBiologyCopolymerBiotechnologyComposite materialAdvanced Drug Delivery SystemsInhalation and Respiratory Drug DeliveryAntibiotics Pharmacokinetics and Efficacy