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Formulation and characterization of lamotrigine nasal insert targeted brain for enhanced epilepsy treatment

Rehab Abdelmonem, Hadel A. Abo El-Enin, Ghada Abdel Kader, Mohamed Abdel-Hakeem

2022Drug Delivery37 citationsDOIOpen Access PDF

Abstract

) and dissolution rate (> 80% within 10 min) for rapid in vivo bio-distribution. In vivo studies showed considerable improvement brain and plasma's rate and extent absorption after intranasal administration indicating a high brain targeting efficiency. The results achieved indicate that nano-spanlastic nasal-inserts offer a promising LMT brain targeting in order to maximize its antiepileptic effect.

Topics & Concepts

Nasal administrationLamotrigineBioavailabilityPharmacokineticsPharmacologyMaterials scienceMucoadhesionIn vivoDrug deliverySolubilityZeta potentialChemistryDrug carrierNanotechnologyMedicineEpilepsyNanoparticleOrganic chemistryPsychiatryBiotechnologyBiologyAdvanced Drug Delivery SystemsDrug Transport and Resistance MechanismsRNA Interference and Gene Delivery
Formulation and characterization of lamotrigine nasal insert targeted brain for enhanced epilepsy treatment | Litcius